@phdthesis{Ames2015, author = {Ames, Christopher}, title = {Molecular Beam Epitaxy of 2D and 3D HgTe, a Topological Insulator}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-151136}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {In the present thesis the MBE growth and sample characterization of HgTe structures is investigated and discussed. Due to the first experimental discovery of the quantum Spin Hall effect (QSHE) in HgTe quantum wells, this material system attains a huge interest in the spintronics society. Because of the long history of growing Hg-based heterostructures here at the Experimentelle Physik III in W{\"u}rzburg, there are very good requirements to analyze this material system more precisely and in new directions. Since in former days only doped HgTe quantum wells were grown, this thesis deals with the MBE growth in the (001) direction of undoped HgTe quantum wells, surface located quantum wells and three dimensional bulk layers. All Hg-based layers were grown on CdTe substrates which generate strain in the layer stack and provide therefore new physical effects. In the same time, the (001) CdTe growth was investigated on n-doped (001) GaAs:Si because the Japanese supplier of CdTe substrates had a supply bottleneck due to the Tohoku earthquake and its aftermath in 2011. After a short introduction of the material system, the experimental techniques were demonstrated and explained explicitly. After that, the experimental part of this thesis is displayed. So, the investigation of the (001) CdTe growth on (001) GaAs:Si is discussed in chapter 4. Firstly, the surface preparation of GaAs:Si by oxide desorption is explored and analyzed. Here, rapid thermal desorption of the GaAs oxide with following cool down in Zn atmosphere provides the best results for the CdTe due to small holes at the surface, while e.g. an atomic flat GaAs buffer deteriorates the CdTe growth quality. The following ZnTe layer supplies the (001) growth direction of the CdTe and exhibits best end results of the CdTe for 30 seconds growth time at a flux ratio of Zn/Te ~ 1/1.2. Without this ZnTe layer, CdTe will grow in the (111) direction. However, the main investigation is here the optimization of the MBE growth of CdTe. The substrate temperature, Cd/Te flux ratio and the growth time has to be adjusted systematically. Therefore, a complex growth process is developed and established. This optimized CdTe growth process results in a RMS roughness of around 2.5 nm and a FWHM value of the HRXRD w-scan of 150 arcsec. Compared to the literature, there is no lower FWHM value traceable for this growth direction. Furthermore, etch pit density measurements show that the surface crystallinity is matchable with the commercial CdTe substrates (around 1x10^4 cm^(-2)). However, this whole process is not completely perfect and offers still room for improvements. The growth of undoped HgTe quantum wells was also a new direction in research in contrast to the previous n-doped grown HgTe quantum wells. Here in chapter 5, the goal of very low carrier densities was achieved and therefore it is now possible to do transport experiments in the n - and p - region by tuning the gate voltage. To achieve this high sample quality, very precise growth of symmetric HgTe QWs and their HRXRD characterization is examined. Here, the quantum well thickness can now determined accurate to under 0.3 nm. Furthermore, the transport analysis of different quantum well thicknesses shows that the carrier density and mobility increase with rising HgTe layer thickness. However, it is found out that the band gap of the HgTe QW closes indirectly at a thickness of 11.6 nm. This is caused by the tensile strained growth on CdTe substrates. Moreover, surface quantum wells are studied. These quantum wells exhibit no or a very thin HgCdTe cap. Though, oxidization and contamination of the surface reduces here the carrier mobility immensely and a HgCdTe layer of around 5 nm provides the pleasing results for transport experiments with superconductors connected to the topological insulator [119]. A completely new achievement is the realization of MBE growth of HgTe quantum wells on CdTe/GaAs:Si substrates. This is attended by the optimization of the CdTe growth on GaAs:Si. It exposes that HgTe quantum wells grown in-situ on optimized CdTe/GaAs:Si show very nice transport data with clear Hall plateaus, SdH oscillations, low carrier densities and carrier mobilities up to 500 000 cm^2/Vs. Furthermore, a new oxide etching process is developed and analyzed which should serve as an alternative to the standard HCl process which generates volcano defects at some time. However, during the testing time the result does not differ in Nomarski, HRXRD, AFM and transport measurements. Here, long-time tests or etching and mounting in nitrogen atmosphere may provide new elaborate results. The main focus of this thesis is on the MBE growth and standard characterization of HgTe bulk layers and is discussed in chapter 6. Due to the tensile strained growth on lattice mismatched CdTe, HgTe bulk opens up a band gap of around 22 meV at the G-point and exhibits therefore its topological surface states. The analysis of surface condition, roughness, crystalline quality, carrier density and mobility via Nomarski, AFM, XPS, HRXRD and transport measurements is therefore included in this work. Layer thickness dependence of carrier density and mobility is identified for bulk layer grown directly on CdTe substrates. So, there is no clear correlation visible between HgTe layer thickness and carrier density or mobility. So, the carrier density is almost constant around 1x10^11 cm^(-2) at 0 V gate voltage. The carrier mobility of these bulk samples however scatters between 5 000 and 60 000 cm^2/Vs almost randomly. Further experiments should be made for a clearer understanding and therefore the avoidance of unusable bad samples.But, other topological insulator materials show much higher carrier densities and lower mobility values. For example, Bi2Se3 exhibits just density values around 1019 cm^(-2) and mobility values clearly below 5000 cm2/Vs. The carrier density however depends much on lithography and surface treatment after growth. Furthermore, the relaxation behavior and critical thickness of HgTe grown on CdTe is determined and is in very good agreement with theoretical prediction (d_c = 155 nm). The embedding of the HgTe bulk layer between HgCdTe layers created a further huge improvement. Similar to the quantum well structures the carrier mobility increases immensely while the carrier density levels at around 1x10^11 cm^(-2) at 0 V gate voltage as well. Additionally, the relaxation behavior and critical thickness of these barrier layers has to be determined. HgCdTe grown on commercial CdTe shows a behavior as predicted except the critical thickness which is slightly higher than expected (d_c = 850 nm). Otherwise, the relaxation of HgCdTe grown on CdTe/GaAs:Si occurs in two parts. The layer is fully strained up to 250 nm. Between 250 nm and 725 nm the HgCdTe film starts to relax randomly up to 10 \%. The relaxation behavior for thicknesses larger than 725 nm occurs than linearly to the inverse layer thickness. A explanation is given due to rough interface conditions and crystalline defects of the CdTe/GaAs:Si compared to the commercial CdTe substrate. HRXRD and AFM data support this statement. Another point is that the HgCdTe barriers protect the active HgTe layer and because of the high carrier mobilities the Hall measurements provide new transport data which have to be interpreted more in detail in the future. In addition, HgTe bulk samples show very interesting transport data by gating the sample from the top and the back. It is now possible to manipulate the carrier densities of the top and bottom surface states almost separately. The back gate consisting of the n-doped GaAs substrate and the thick insulating CdTe buffer can tune the carrier density for Delta(n) ~ 3x10^11 cm^(-2). This is sufficient to tune the Fermi energy from the p-type into the n-type region [138]. In this thesis it is shown that strained HgTe bulk layers exhibit superior transport data by embedding between HgCdTe barrier layers. The n-doped GaAs can here serve as a back gate. Furthermore, MBE growth of high crystalline, undoped HgTe quantum wells shows also new and extended transport output. Finally, it is notable that due to the investigated CdTe growth on GaAs the Hg-based heterostructure MBE growth is partially independent from commercial suppliers.}, subject = {Quecksilbertellurid}, language = {en} } @phdthesis{Winkler2015, author = {Winkler, Ann-Cathrin Nicole}, title = {Identification of human host cell factors involved in \(Staphylococcus\) \(aureus\) 6850 infection}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-114300}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Staphylococcus aureus is both a human commensal and a pathogen. 20\%-30\% of all individuals are permanently or occasionally carriers of S. aureus without any symptoms. In contrast to this, S. aureus can cause life-threatening diseases e.g. endocarditis, osteomyelitis or sepsis. Here, the increase in antibiotic resistances makes it more and more difficult to treat these infections and hence the number of fatalities rises constantly. Since the pharmaceutical industry has no fundamentally new antibiotics in their pipeline, it is essential to better understand the interplay between S. aureus and the human host cell in order to find new, innovative treatment options. In this study, a RNA interference based whole genome pool screen was performed to identify human proteins, which play a role during S. aureus infections. Since 1,600 invasion and 2,271 cell death linked factors were enriched at least 2 fold, the big challenge was to filter out the important ones. Here, a STRING pathway analysis proved to be the best option. Subsequently, the identified hits were validated with the help of inhibitors and a second, individualised small interfering RNA-based screen. In the course of this work two important steps were identified, that are critical for host cell death: the first is bacterial invasion, the second phagosomal escape. The second step is obligatory for intracellular bacterial replication and subsequent host cell death. Invasion in turn is determining for all following events. Accordingly, the effect of the identified factors towards these two crucial steps was determined. Under screening conditions, escape was indirectly measured via intracellular replication. Three inhibitors (JNKII, Methyl-beta-cyclodeytrin, 9-Phenantrol) could be identified for the invasion process. In addition, siRNAs targeted against 16 different genes (including CAPN2, CAPN4 and PIK3CG), could significantly reduce bacterial invasion. Seven siRNAs (FPR2, CAPN4, JUN, LYN, HRAS, AKT1, ITGAM) were able to inhibit intracellular replication significantly. Further studies showed that the IP3 receptor inhibitor 2-APB, the calpain inhibitor calpeptin and the proteasome inhibitor MG-132 are able to prevent phagosomal escape and as a consequence intracellular replication and host cell death. In this context the role of calpains, calcium, the proteasome and the mitochondrial membrane potential was further investigated in cell culture. Here, an antagonistic behaviour of calpain 1 and 2 during bacterial invasion was observed. Intracellular calcium signalling plays a major role, since its inhibition protects host cells from death. Beside this, the loss of mitochondrial membrane potential is characteristic for S. aureus infection but not responsible for host cell death. The reduction of membrane potential can be significantly diminished by the inhibition of the mitochondrial Na+/Ca2+ exchanger. All together, this work shows that human host cells massively contribute to different steps in S. aureus infection rather than being simply killed by bacterial pore-forming toxins. Various individual host cell factors were identified, which contribute either to invasion or to phagosomal escape and therefore to S. aureus induced cytotoxicity. Finally, several inhibitors of S. aureus infection were identified. One of them, 2-APB, was already tested in a sepsis mouse model and reduced bacterial load of kidneys. Thus, this study shows valuable evidence for novel treatment options against S. aureus infections, based on the manipulation of host cell signalling cascades.}, subject = {Staphylococcus aureus}, language = {en} } @phdthesis{Guhn2015, author = {Guhn, Anne}, title = {Modulating the Fear Network: Preclinical Studies on Prefrontal Cortex Stimulation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133403}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Pavlovian fear conditioning describes a form of associative learning in which a previously neutral stimulus elicits a conditioned fear response after it has been temporally paired with an aversive consequence. Once acquired, the fear response can be extinguished by repeatedly presenting the former neutral stimulus in the absence of the aversive consequence. Although most patients suffering from anxiety disorders cannot recall a specific conditioned association between a formerly neutral stimulus and the feeling of anxiety, the produced behavioral symptoms, such as avoidance or safety behavior to prevent the anticipated aversive consequence are commonly exhibited in all anxiety disorders. Moreover, there is considerable similarity between the neural structures involved in fear and extinction in the rodent and in the human. Translational research thus contributes to the understanding of neural circuitries involved in the development and maintenance of anxiety disorders, and further provides hypotheses for improvements in treatment strategies aiming at inhibiting the fear response. Since the failure to appropriately inhibit or extinguish a fear response is a key feature of pathological anxiety, the present preclinical research focuses on the interplay between the amygdala and the medial prefrontal cortex (mPFC) during fear learning with particular regard to the prefrontal recruitment during fear extinction and its recall. By firstly demonstrating an increased mPFC activity over the time course of extinction learning with functional near-infrared spectroscopy, the main study of this dissertation focused on repetitive transcranial magnetic stimulation (rTMS) as brain stimulation technique suitable to enhance extinction learning. Since hypofrontality is assumed to underlie the maintenance of pathological anxiety, rTMS application revealed an increased mPFC activity, which resulted in a decreased fear response on the behavioral level both during extinction learning as well as during the recall of extinction 24 hours later and in the absence of another stimulation. The following attempt to improve the generalization of extinction with rTMS from an extinguished stimulus to a second stimulus which was reinforced but not extinguished was at least partially evidenced. By revealing an increased prefrontal activity to the non-extinguished stimulus, the active and the placebo rTMS condition, however, did not differ on behavioral parameters. These preclinical findings were discussed in the light of genetic and environmental risk factors with special regard to the combination of a risk variant of the neuropeptide S receptor 1 gene polymorphism (NPSR1 rs324981) and anxiety sensitivity. While the protective homozygous AA genotype group showed no correlation with anxiety sensitivity, the NPSR1 T genotype group exhibited an inverse correlation with anxiety sensitivity in the presence of emotionally negative stimuli. In light of other findings assuming a role of the NPSR1 T allele in panic disorder, the revealed hypofrontality was discussed to define a risk group of patients who might particularly benefit from an augmentation of exposure therapy with rTMS. Taken together, the presented studies support the central role of the prefrontal cortex in fear extinction and suggest the usefulness of rTMS as an augmentation strategy to exposure therapy in order to decrease therapy relapse rates. The combination of rTMS and extinction has been herein evidenced to modulate fear processes in a preclinical approach thereby establishing important implications for the design of future clinical studies.}, subject = {Angstst{\"o}rung}, language = {en} } @phdthesis{BeitzenHeineke2015, author = {Beitzen-Heineke, Antonia}, title = {Invariant Natural Killer T cells possess immune-modulating functions during \(Aspergillus\) \(fumigatus\) infection}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-144966}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Aspergillus fumigatus is the most common cause for invasive fungal infections, a disease associated with high mortality in immune-compromised patients. CD1d-restricted invariant Natural Killer T (iNKT) cells compose a small subset of T cells known to impact the immune response towards various infectious pathogens. To investigate the role of human iNKT cells during A. fumigatus infection, we studied their activation as determined by CD69 expression and cytokine production in response to distinct fungal morphotypes in the presence of different CD1d⁺ antigen presenting cells using flow cytometry and multiplex ELISA. Among CD1d⁺ subpopulations, CD1d⁺CD1c⁺ mDCs showed the highest potential to activate iNKT cells on a per cell basis. The presence of A. fumigatus decreased this effect of CD1d⁺CD1c⁺ mDCs on iNKT cells and led to reduced secretion of TNF-α, G-CSF and RANTES. Production of other Th1 and Th2 cytokines was not affected by the fungus, suggesting an immune-modulating function for human iNKT cells during A. fumigatus infection.}, subject = {Aspergillus fumigatus}, language = {en} } @phdthesis{Rotem2015, author = {Rotem, Elam}, title = {Early Basso Continuo Practice: Implicit Evidence in the Music of Emilio de' Cavalieri}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-145696}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {In this work, Emilio de' Cavalieri's musical sources will serve as a platform in an attempt to overcome the lack of explicit original guidance and guidelines of performance practice of early basso continuo. It will offer a methodology that will allow the unraveling of implicit theory and practice hidden in the music sources themselves. The methodology of this work is based on the fact that Cavalieri's Rappresentatione di Anima e di Corpo (Rome, 1600) is printed using a unique continuo notation, which is detailed, precise, and coherent—more so than any other contemporaneous printed source. Through thorough investigation of this continuo notation, it will be possible to enrich our practical as well as theoretical knowledge of the early basso continuo. A wide range of evidences will emerge, covering a wide spectrum, from general questions of instrumentation up to the very notes that should be played. Using a special notation for illustration, I will demonstrate how Cavalieri's basso continuo figuration, when combined with the known rules of counterpoint, is at times equivalent to written-out realizations. As part of this study, different models of contrapuntal phenomena will be analyzed, mainly in the context of cadences but also in the context of other progressions that deserve to be recognized as formulas. Their theoretical structure will be uncovered as well as their actual application in music and their manner of execution. The prevalence of each phenomenon will be examined in order to distinguish common and recurrent phenomena from rarely-used formulas. In order to do this, and due to problematic historical terminology, it will be necessary to create a set of new terms inspired by Cavalieri's notation. Those terms will not be solely relevant to Cavalieri's music; the models were made flexible so that they may prove useful for future discussions or studies of early continuo in general. Out of the known early basso continuo sources, a "mini-compendium" of practical implications will be extracted in order to exhaust the practical knowledge implicit in them. This endeavor will be concluded with a list of rules and general advice drawn from the sources, but it will also reveal some problematic aspects of these sources. This endeavor will make it possible to compare the "new" implicit practical information deduced in this study with the explicit known continuo sources, and assess to what extant Cavalieri's continuo practices illuminate and complement the known knowledge from previously-studied yet opaque sources of basso continuo. The focus of this dissertation is on Cavalieri's music, but the findings proposed here will be traced so as to illuminate the broader realm of the early Baroque and the 17th century musical style at large. Finally, this new research about Cavalieri's music and continuo, along reevaluating of its place among the common continuo sources, calls for redistribution of source materials on the traditional "shelf" of early basso continuo sources.}, language = {en} } @phdthesis{Stangler2015, author = {Stangler, Eva}, title = {Effects of habitat fragmentation on trap-nesting bees, wasps and their natural enemies in small secondary rainforest fragments in Costa Rica}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-108254}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Summary (English) I. Human induced global change threatens biodiversity and trophic interactions. Fragmentation is considered as one of the major threats to biodiversity and can cause reduced species richness, population declines, loss of genetic diversity and disruption of trophic interactions such as predation and parasitism. However forest fragmentation effects can be eclectic due to species specific traits. Specialist species with narrower niches or at higher trophic levels may be in danger of extinction whereas generalist species with less specific habitat requirements may even profit from fragmentation. In the tropics, known as "the" terrestrial biodiversity hotspots, even biodiversity inventories are often lacking, especially in forest canopies. Ongoing deforestation and resulting fragmentation in tropical regions are expected to heavily affect ecosystem functions by changes in biodiversity, community compositions and disruption of trophic interactions. It is even less unknown in what extent different global change drivers for example climate change and fragmentation interact. It is unlikely that deforestation will end, so that small secondary forest fragments will be important habitat elements that must be investigated to optimize their potential contribution to biodiversity conservation. This dissertation aimed to disentangle the effects of forest fragmentation on trap-nesting bee and wasp communities in small secondary forest fragments addressing the following main questions: 1) Are there interactive effects between microclimate and fragmentation on the abundance of bees and wasps, their mortality - and parasitism rates (Chapter II)? 2) How does fragmentation affect bee biodiversity from canopy to the understory with considerations of single species patterns (Chapter III)? 3) How is fragmentation affecting diversity and community composition of different trophic levels between understory and canopy with emphasis on the host-antagonist relation? (Chapter IV). II. A variety of global change drivers affect biodiversity and trophic interactions. The combined effects of habitat fragmentation and climate change are poorly understood and with ongoing deforestation and agricultural intensification secondary rainforest fragments might contribute to biodiversity conservation and mitigation of climate warming. This chapter investigated the interactive effects of habitat fragmentation and microclimate on the abundance and biotic interactions of trap-nesting bees and wasps in secondary forest fragments in the Northeastern lowlands of Costa Rica. Habitat area did not affect hymenopteran abundance, parasitism and mortality rates, but tree location- from the forest border to the forest center- influenced all variables. Interactive effects were found such as in the higher mortality rates at interior locations in larger fragments. Mean temperature at edge and interior locations led to significant effects on all tested variables and interactive effects between temperature and tree locations were found. Abundances at interior locations were significantly higher with increasing temperatures. Mortality rates at interior location increased at lower mean temperatures, whereas higher temperatures at edges marginally increased mortality rates. Our results indicate, that edge effects, mediated by altered microclimatic conditions, significantly change biotic interactions of trap-nesting hymenopterans in small secondary fragments. III. This chapter focusses on the vertical distribution of bees, their parasitism and mortality rates as well as single species patterns in relation to fragment size and edge effects in secondary rainforest remnants. No size effects on bee abundance, bee diversity and on parasitism- and mortality rates were found. Bees were least abundant at the intermediate height and were most abundant in the understory; whereas the highest diversity was found in the canopy. Tree location had no effect on bee abundance, but on bee diversity since most species were found in the forest interior. The cuckoo bees Aglaomelissa duckei and Coelioxys sp. 1 only partly followed the patterns of their hosts, two Centris species. Edge effects greatly influenced the bee community, so that the amount of edge habitat in secondary forest fragments will influence the conservation value for bees. IV. In this section the effects of habitat fragmentation on biodiversity, on community structure of hosts and natural enemies as well as the relation of hosts and antagonists were investigated from the understory to the canopy. The results stress the importance to monitor biodiversity, community composition and trophic interactions from the understory to the canopy. The higher trophic level of the antagonists was found to be more sensitive to fragment size compared to their hosts. Again edge effects were found to be the dominant driver since both host and antagonist richness, as well as community compositions were strongly affected. Ongoing fragmentation and increased amount of edge habitat could favor few abundant disturbance-adapted species over the rare and more diverse forest-adapted species. A positive-density dependent parasitism rate was demonstrated, as well as an increase of the parasitism rate not only with antagonist abundance but also diversity. Small secondary forest fragments surely can contribute to the conservation of biodiversity and trophic interactions, but increase of edge habitat will have negative consequences on above-ground nesting Hymenoptera, so that important interactions such as pollination, predation and parasitism could be disrupted. Therefore small forest fragments could contribute to biodiversity conservation but will not be able to compensate for the loss of large areas of primary forests. V. This dissertation contributes to the understanding of habitat area - and edge effects as well as the interaction of those with microclimatic conditions in small secondary rainforest fragments. As study system trap nests inhabited by solitary above-ground nesting bees, wasps and their natural enemies were chosen because they allow to study trophic interactions along their whole vertical distribution from the understory to the canopy. The effect of fragment size was rather weak, however, larger sizes affected the diversity of natural enemies positively, proofing the hypothesis that higher trophic levels react more sensitive to habitat loss. Edge effects heavily affected the abundance, diversity and community composition of hosts and their natural enemies as well as parasitism and mortality rates. Increased edge conditions resulting from ongoing fragmentation and deforestation will therefore negatively affect bees, wasps and their trophic interactions with natural enemies. Those changes affect important processes such as pollination, predation and parasitism, which could result in changes of ecosystem functioning. This study showed the importance to include all strata in biodiversity monitoring since height did matter for the trap-nesting communities. Diversity was shown to be higher in the canopy and community composition did change significantly. To conclude we could show that secondary forest fragments can sustain a trap-nesting bee and wasp community, but the amount of interior habitat is highly important for the conservation of forest-adapted species. Probably the conservation of large primary forest in combination with a high habitat connectivity, for example with small secondary forest fragments, will help to sustain biodiversity and ecosystem functioning better than the mere presence of small forest fragments.}, subject = {Costa Rica}, language = {en} } @phdthesis{ArjonaEsteban2015, author = {Arjona Esteban, Alhama}, title = {Merocyanine Dyes as Organic Semiconductors for Vacuum-processed Solar Cell and Transistor Devices}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-129096}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The present thesis comprises the synthesis of new functional merocyanine dyes, the study of their electro-optical properties as well as solid state packing and their application as p-type semiconductor materials in transistor and solar cell devices. The absorption properties of the obtained compounds could be modified by variation of the donor unit, the introduction of electron-withdrawing substituents in the acceptor unit or elongation of the polymethine chain. For a particular dye, the absorption band could be shifted by more than 160 nm by increasing the solvent polarity due to a conformational switch between a merocyanine-like and a cyanine-like structure. Single crystal analyses revealed that the studied dyes tend to pack either in an antiparallel fashion forming dimers with no overall dipole moment or in a staircase-like pattern where the dipole moments point to the same direction and are only balanced by another staircase oriented in the opposite direction (stair dimer). With respect to application as semiconductor materials, the latter packing arrangement resulted most favorable for charge carrier mobility. We concluded that this packing motif is preserved in the solar cell devices, where the selenium-containing dye afforded the highest performance of this series for an optimized planar-mixed heterojunction solar cell (6.2 \%).}, subject = {Merocyanine}, language = {en} } @phdthesis{Rotem2015, author = {Rotem, Elam}, title = {Early Basso Continuo Practice: Implicit Evidence in the Music of Emilio de' Cavalieri}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-145079}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {In this work, Emilio de' Cavalieri's musical sources will serve as a platform in an attempt to overcome the lack of explicit original guidance and guidelines of performance practice of early basso continuo. It will offer a methodology that will allow the unraveling of implicit theory and practice hidden in the music sources themselves. The methodology of this work is based on the fact that Cavalieri's Rappresentatione di Anima e di Corpo (Rome, 1600) is printed using a unique continuo notation, which is detailed, precise, and coherent—more so than any other contemporaneous printed source. Through thorough investigation of this continuo notation, it will be possible to enrich our practical as well as theoretical knowledge of the early basso continuo. A wide range of evidences will emerge, covering a wide spectrum, from general questions of instrumentation up to the very notes that should be played. Using a special notation for illustration, I will demonstrate how Cavalieri's basso continuo figuration, when combined with the known rules of counterpoint, is at times equivalent to written-out realizations. As part of this study, different models of contrapuntal phenomena will be analyzed, mainly in the context of cadences but also in the context of other progressions that deserve to be recognized as formulas. Their theoretical structure will be uncovered as well as their actual application in music and their manner of execution. The prevalence of each phenomenon will be examined in order to distinguish common and recurrent phenomena from rarely-used formulas. In order to do this, and due to problematic historical terminology, it will be necessary to create a set of new terms inspired by Cavalieri's notation. Those terms will not be solely relevant to Cavalieri's music; the models were made flexible so that they may prove useful for future discussions or studies of early continuo in general. Out of the known early basso continuo sources, a "mini-compendium" of practical implications will be extracted in order to exhaust the practical knowledge implicit in them. This endeavor will be concluded with a list of rules and general advice drawn from the sources, but it will also reveal some problematic aspects of these sources. This endeavor will make it possible to compare the "new" implicit practical information deduced in this study with the explicit known continuo sources, and assess to what extant Cavalieri's continuo practices illuminate and complement the known knowledge from previously-studied yet opaque sources of basso continuo. The focus of this dissertation is on Cavalieri's music, but the findings proposed here will be traced so as to illuminate the broader realm of the early Baroque and the 17th century musical style at large. Finally, this new research about Cavalieri's music and continuo, along reevaluating of its place among the common continuo sources, calls for redistribution of source materials on the traditional "shelf" of early basso continuo sources.}, language = {en} } @phdthesis{Hain2015, author = {Hain, Johannes}, title = {Valuation Algorithms for Structural Models of Financial Networks}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-128108}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The thesis focuses on the valuation of firms in a system context where cross-holdings of the firms in liabilities and equities are allowed and, therefore, systemic risk can be modeled on a structural level. A main property of such models is that for the determination of the firm values a pricing equilibrium has to be found. While there exists a small but growing amount of research on the existence and the uniqueness of such price equilibria, the literature is still somewhat inconsistent. An example for this fact is that different authors define the underlying financial system on differing ways. Moreover, only few articles pay intense attention on procedures to find the pricing equilibria. In the existing publications, the provided algorithms mainly reflect the individual authors' particular approach to the problem. Additionally, all existing methods do have the drawback of potentially infinite runtime. For these reasons, the objects of this thesis are as follows. First, a definition of a financial system is introduced in its most general form in Chapter 2. It is shown that under a fairly mild regularity condition the financial system has a unique existing payment equilibrium. In Chapter 3, some extensions and differing definitions of financial systems that exist in literature are presented and it is shown how these models can be embedded into the general model from the proceeding chapter. Second, an overview of existing valuation algorithms to find the equilibrium is given in Chapter 4, where the existing methods are generalized and their corresponding mathematical properties are highlighted. Third, a complete new class of valuation algorithms is developed in Chapter 4 that includes the additional information whether a firm is in default or solvent under a current payment vector. This results in procedures that are able find the solution of the system in a finite number of iteration steps. In Chapter 5, the developed concepts of Chapter 4 are applied to more general financial systems where more than one seniority level of debt is present. Chapter 6 develops optimal starting vectors for non-finite algorithms and Chapter 7 compares the existing and the new developed algorithms concerning their efficiency in an extensive simulation study covering a wide range of possible settings for financial systems.}, subject = {Risikomanagement}, language = {en} } @phdthesis{Merget2015, author = {Merget, Benjamin}, title = {Computational methods for assessing drug-target residence times in bacterial enoyl-ACP reductases and predicting small-molecule permeability for the \(Mycobacterium\) \(tuberculosis\) cell wall}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127386}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {\textbf{Molecular Determinants of Drug-Target Residence Times of Bacterial Enoyl-ACP Reductases.} Whereas optimization processes of early drug discovery campaigns are often affinity-driven, the drug-target residence time \$t_R\$ should also be considered due to an often strong correlation with \textit{in vivo} efficacy of compounds. However, rational optimization of \$t_R\$ is not straightforward and generally hampered by the lack of structural information about the transition states of ligand association and dissociation. The enoyl-ACP reductase FabI of the fatty acid synthesis (FAS) type II is an important drug-target in antibiotic research. InhA is the FabI enzyme of \textit{Mycobacterium tuberculosis}, which is known to be inhibited by various compound classes. Slow-onset inhibition of InhA is assumed to be associated with the ordering of the most flexible protein region, the substrate binding loop (SBL). Diphenylethers are one class of InhA inhibitors that can promote such SBL ordering, resulting in long drug-target residence times. Although these inhibitors are energetically and kinetically well characterized, it is still unclear how the structural features of a ligand affect \$t_R\$. Using classical molecular dynamics (MD) simulations, recurring conformational families of InhA protein-ligand complexes were detected and structural determinants of drug-target residence time of diphenyl\-ethers with different kinetic profiles were described. This information was used to deduce guidelines for efficacy improvement of InhA inhibitors, including 5'-substitution on the diphenylether B-ring. The validity of this suggestion was then analyzed by means of MD simulations. Moreover, Steered MD (SMD) simulations were employed to analyze ligand dissociation of diphenylethers from the FabI enzyme of \textit{Staphylococcus aureus}. This approach resulted in a very accurate and quantitative linear regression model of the experimental \$ln(t_R)\$ of these inhibitors as a function of the calculated maximum free energy change of induced ligand extraction. This model can be used to predict the residence times of new potential inhibitors from crystal structures or valid docking poses. Since correct structural characterization of the intermediate enzyme-inhibitor state (EI) and the final state (EI*) of two-step slow-onset inhibition is crucial for rational residence time optimization, the current view of the EI and EI* states of InhA was revisited by means of crystal structure analysis, MD and SMD simulations. Overall, the analyses affirmed that the EI* state is a conformation resembling the 2X23 crystal structure (with slow-onset inhibitor \textbf{PT70}), whereas a twist of residues Ile202 and Val203 with a further opened helix \$\alpha 6\$ corresponds to the EI state. Furthermore, MD simulations emphasized the influence of close contacts to symmetry mates in the SBL region on SBL stability, underlined by the observation that an MD simulation of \textbf{PT155} chain A with chain B' of a symmetry mate in close proximity of the SBL region showed significantly more stable loops, than a simulation of the tetrameric assembly. Closing Part I, SMD simulations were employed which allow the delimitation of slow-onset InhA inhibitors from rapid reversible ligands. \textbf{Prediction of \textit{Mycobacterium tuberculosis} Cell Wall Permeability.} The cell wall of \textit{M. tuberculosis} hampers antimycobacterial drug design due to its unique composition, providing intrinsic antibiotic resistance against lipophilic and hydrophilic compounds. To assess the druggability space of this pathogen, a large-scale data mining endeavor was conducted, based on multivariate statistical analysis of differences in the physico-chemical composition of a normally distributed drug-like chemical space and a database of antimycobacterial--and thus very likely permeable--compounds. The approach resulted in the logistic regression model MycPermCheck, which is able to predict the permeability probability of small organic molecules based on their physico-chemical properties. Evaluation of MycPermCheck suggests a high predictive power. The model was implemented as a freely accessible online service and as a local stand-alone command-line version. Methodologies and findings from both parts of this thesis were combined to conduct a virtual screening for antimycobacterial substances. MycPermCheck was employed to screen the chemical permeability space of \textit{M. tuberculosis} from the entire ZINC12 drug-like database. After subsequent filtering steps regarding ADMET properties, InhA was chosen as an exemplary target. Docking to InhA led to a principal hit compound, which was further optimized. The quality of the interaction of selected derivatives with InhA was subsequently evaluated using MD and SMD simulations in terms of protein and ligand stability, as well as maximum free energy change of induced ligand egress. The results of the presented computational experiments suggest that compounds with an indole-3-acethydrazide scaffold might constitute a novel class of InhA inhibitors, worthwhile of further investigation.}, subject = {Computational chemistry}, language = {en} } @phdthesis{Kurrek2015, author = {Kurrek, Matthias M.}, title = {Simulation To Establish Benchmark Outcome Measures}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-143882}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Following the early experiences in aviation, medical simulation has rapidly evolved into one of the most novel educational tools of the last three decades. In addition to its use in training individuals or teams in crisis resource management, simulation has been studied as a tool to evaluate technical and non-technical skills of individuals as well as, more recently, entire medical teams. It is usually fairly difficult to obtain clinical reference data from critical events to refute claims that the management of actual events fell below what could reasonably be expected and we demonstrated the use of rank order statistics to calculate quantiles with confidence limits for management times of critical obstetrical events using data from realistic simulation. This approach could be used to describe the distribution of treatment times in order to assist in deciding what performance may constitute an outlier. It can also identify particular challenges of clinical practice and allow the development of educational curricula. While the information derived from simulation has to be interpreted with a high degree of caution for a clinical context, it may represent a further 'added value' or important step in establishing simulation as a training tool and to provide information that could be used in an appropriate clinical context for adverse events. Large amounts of data (such as from a simulation registry) would allow the calculation of acceptable confidence intervals for the required outcome parameters as well as actual tolerance limits.}, language = {en} } @phdthesis{Widmer2015, author = {Widmer, Toni}, title = {Lowering lattice forces in drug substance crystals to improve dissolution and solubility}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-126232}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Lattice forces are based on the attraction between the single moieties of molecules. The strength of lattice forces has an impact on the solid state and related physical properties such as melting point, boiling point, vapor pressure solvation and solubility. For solvation to occur, energy is required to break the lattice forces attracting ions and molecules among themselves. The energy for breaking up the attraction between the molecules is gained from the energy released when ions or molecules of the lattice associate with molecules of the solvent. Solubility is therefore, directly linked to the energy which is required to break the lattice forces and the energy which is liberated by solvation of the molecules or ions. Based on this relation, the lattice forces in two acidic compounds and a neutral compound were subsequently lowered by different approaches with the intention to increase the solubility, supersaturation, and dissolution rate. The conversion to an ionic liquid and the embedding of the compound in a pH-sensitive matrix in an amorphous state were investigated with an acidic compound and its pro-drug. The tetrabutylphosphonium (TBPH) salt showed the most promising properties among the tested counter ions. It alters the properties of the compound from a highly crystalline physicochemical state to an amorphous readily soluble material showing supersaturation in a wider pH range and higher solubility than the sodium and potassium salts. A solid dispersion approach was developed in parallel. Solid dispersions with two different pH-sensitive polymers and different drug load were prepared by lyophilization to determine the miscibility of the compound and the polymer by differential scanning calorimetry (DSC). A miscibility of 50\% of the amorphous acid with the pH-sensitive Eudragit L100-55 matrix and a miscibility of 40\% with hydroxypropyl methylcellulose acetate succinate (HPMC-AS) was found. Both approaches, the TBPH salt and the solid dispersion based on the pH-sensitive Eudragit L100-55 were tested in vivo. The TBPH salt was dosed in a buffered solution to prevent precipitation in the acidic stomach pH. This resulted in BAV higher than the crystalline suspension but lower than the solid dispersion. There were no acute toxicology effects seen. Thus, TBPH was considered safe for further studies. The TBPH salts were very hygroscopic, sticky and prone to precipitation as free compound when exposed to low pH when simulating the passage through the stomach. Thus, the principle of the ionic liquid was combined with the principle of an amorphous solid dispersion. This mitigated the risk of precipitation of the TBPH salt during the passage of the stomach. Also delinquency upon open storage was improved by embedding the TBPH salt in a pH-sensitive polymer. Dissolution tests mimicking the pH gradient in the gastro intestinal tract confirmed the protective properties of the pH-sensitive polymer matrices against recrystallization at low stomach pH in vitro. Furthermore, supersaturation at pH ranges relevant in the intestines of preclinical species or humans was observed. The TBPH solid dispersion showed superior supersaturation behavior in vitro compared to the free acid in pH-sensitive matrix. However, equally increased bioavailability (BAV) was observed when the amorphous solid dispersion contained the free acid form or the TBPH salt. Absorption seemed to be so fast that the short in vitro supersaturation observed for the free from in pH-sensitive matrix was already sufficient for complete absorption within 15 - 30 minutes. This is in accordance with the short tmax of around 15 - 30 minutes after oral application of the low lattice force principles. The pharmacokinetic (PK) profile became the main focus of further optimization as the BAV was maximized already. Early maximal plasma concentration (tmax) went along with high maximal plasma concentration (Cmax) for the low lattice force principles. Central nervous system related side effects as consequence of the PK profile with such a high Cmax were likely to happen and therefore, the formulation principles were modified to maintain the doubled BAV and reduce the observed Cmax. Additionally, the compound showed a short half-life requiring a two times daily dose, which is suboptimal for a chronic treatment. The amorphous acid in pH-matrix showed a modified PK profile when dosed in a hydrogel but not in an oleo gel. Surprisingly, administration of the TBPH salt in pH-matrix suspended in oil showed a massive delay of the tmax to 8 hours and a reduction of Cmax by factor 2 - 3 with unchanged good BAV when administered as a suspension in oil without increased viscosity. TBPH salt solution with a high viscosity resulted in the same PK profile as when administered without increased viscosity. The animal model was changed from rat to dog. The dose was limited to 15 mg/dog since they reacted much more sensitively to the drug. BAV at this dose level was 100\% for the crystalline suspension already, thus the focus of this study was not increasing BAV but to achieve prolonged and/or delayed exposure using different formulation principles elaborated in rats before. An immediate release formulation of 3 mg was combined with a delayed/modified release principle containing 12 mg of the compound. An additional study arm was conducted with a remote controlled device programmed to deliver a first dose of 3 mg instantaneously after passing the stomach and a second dose of 12 mg when entering the caecum. The tmax remained short for all formulation principles and it seemed that delayed and modified release lead to BAV reduction. The modified PK profiles could not be translated to an oral dog model which endorsed the hypothesis of an absorption window; however, the in vitro results could be translated to a dog model for colonic absorption. A nanosuspension of the crystalline compound, the TBPH salt in pH-matrix and the TBPH salt of the pro-drug of the compound were administered rectally to determine colonic absorption. The nanosuspension showed exposure around the limit of quantification whereas the TBPH in pH-matrix showed 4\% BAV and the pro-drug as TBPH salt in pH-matrix resulted in 12\% BAV although the pro-drug is factor 3 less soluble. This was in line with the increased permeation of the pro-drug which was observed in the Caco2 experiments. The bioavailability was increased by using the low lattice force principles and validated the hypothesis for the acidic drug and its pro-drug in the colonic dog model. Chemical and physicochemical stability of the investigated solid dispersions was confirmed for at least 18 months at room temperature. Amorphous solid dispersions were investigated to lower lattice forces of a neutral molecule. Solid dispersions are well known from literature; however, they are not frequently used as principles for dosage forms due to limitations in physical stability and complex manufacturing processes. A viable formulation principle was developed for a neutral compound assuming that the stability of a solid dispersion with a drug load below the maximal miscibility will be better than one which exceeds the maximal miscibility. The dispersed and amorphous state of the neutral compound resulted in a higher energy level and chemical potential compared to a crystalline form implying that they are thermodynamically instable and sensitive to recrystallization. This was confirmed by the fast recrystallization of an amorphous solid dispersion made from HPMC with 50\% drug load which recrystallized within a few days. Solid dispersions with different drug loads in different polymers and in polymer mixtures were prepared by lyophilization. The miscibility of the compound and the polymer was determined by DSC as the miscibility is a surrogate for maximal stable drugload of the solid dispersion. HPMC was found to be miscible with 20\% compound confirming the instability of the 50\% HPMC solid dispersion observed earlier. Based on dosing needs, a miscibility/drug load of at least 30\% was mandatory because of the dosing requirements to dose less than 1500 mg of final formulation. This was considered as maximal swallowable volume for later clinical development. Thus, all systems with a miscibility higher or equal to 30\% drug in polymer were evaluated in an in vitro dissolution test and ranked in comparison with amorphous pure compound, crystalline compound and a 20\% drug load solid dispersion made from HPMC. The HPMC based solid dispersion which gave good exposure in previous in vivo experiments did not support the high drugload that was needed. Therefore, similar in vitro behavior of this solid dispersion should result in similar in vivo performance. The polyvinylpyrrolidone (PVP) based solid dispersions scored with high drug load and medium initial kinetic solubility. The Soluplus based solid dispersion offer lower drug load and slightly lower initial kinetic solubility, but showed an extended supersaturation. The 4 best performing systems were evaluated in rats. They resulted in a short Tmax of 15 minutes and BAV higher than 85\% indicating fast and complete absorption. The reference HPMC based solid dispersion with a drug load of 20\% showed 65\% BAV. This showed that higher drug loads were feasible and did not limit absorption in this animal model. Since the estimated human dose required a higher formulation density than obtained from lyophilization or spray drying, melt extrusion of the solid dispersion was considered to be the most adequate technology. The process temperature needed to be below 200 °C as this value represents the degradation temperature of the polymers. It was investigated by differential scanning calorimetry whether the compound can be mixed with the molten polymer. None of the polymers could dissolve the crystalline compound below the degradation point of the polymer. The temperature had to be increased to 260 °C until the compound was molten together to a monophasic system with polymer. This resulted in degradation of the polymers. Therefore, different plasticizers and small organic molecules with similar functional groups as the compound were investigated on their ability to reduce the melting point of the mixture of polymer and compound. Positive results were obtained with several small molecules. Based on a literature review, nicotinamide had the least concerning pharmaceutical activities and was chosen for further development. Solid dispersions with the same composition as the ones tested in rat were prepared with 9\% nicotinamide as softener. Extrusion without nicotinamide was not possible at 135 °C or at 170 °C whereas the addition of 9\% nicotinamide led to a homogenous extrudate when processed at 135 °C. The solid state of the extrudates was not molecularly dispersed but the compound was in a crystalline state. They could not reach the in vitro performance observed for the lyophilized solid dispersions with Soluplus or PVP derivatives. Nevertheless, the performances in the supersaturation assay were comparable to the HPMC based lyophilized solid dispersion. The Soluplus and PVP based crystalline extrudates were evaluated in a dog PK showing that the crystalline solid dispersion does not enable BAV higher than 90\% within 24 hours after application. In parallel, the hygroscopicity of the meltextrudates was investigated by DVS and the best performing system based on Kollidon VA64 was further optimized regarding the solid state after its extrusion. The minimal process temperature to obtain a fully amorphous solid dispersion was determined by hot stage X-ray powder diffraction analysis (XRPD) and confirmed by lab scale extrusion. Addition of 9\% nicotinamide lowered the process temperature from 220 °C (without nicotinamide) to 200 °C with nicotinamide. The minimal temperature for obtaining crystal free material was independent of the nicotinamide amount as soon as it exceeded 9\%. Lowering the process temperature with nicotinamide reduced the impurity levels from 3.5\% at 220 °C to 1.1\% at 200 °C. The fully amorphous extrudates performed now better in the in vitro supersaturation assay than the lyophilized amorphous HPMC solid dispersion and the crystalline extrudates which were extruded at 135 °C. The process was up-scaled to a pilot scale extruder with alternative screw designs increasing mechanical shear forces and mixing which enabled lower process temperatures. This resulted in a maximal process temperature of 195 °C when nicotinamide was present and 205 °C without nicotinamide. However, shorter process time and reduced process temperatures (compared to the lab scale equipment) resulted in impurity levels smaller than 0.5\% for both compositions and temperatures and made the nicotinamide obsolete. The amorphous extrudates from the pilot scale extruder performed better in vitro than the crystalline extrudates from the lab scale extruder and the lyophilized HPMC solid dispersion. A comparable PK profile of the HPMC solid dispersion and the amorphous melt extruded formulation principle was anticipated from these in vitro results. This was confirmed by the pharmacokinetic profile in dogs after oral administration of the final extruded solid dispersion formulation which was equivalent with the pharmacokinetic profile of the HPMC based solid dispersion formulation. The assumption that using a drug load below the miscibility prevents the solid dispersion from recrystallization was verified at least for a limited time by a stability test at elevated temperatures for 3 months showing no change in solid state. This indicates the opportunities of the low lattice forces approach, but also showed the importance of developing principles first assuring stable solid state, performance in vitro and in vivo, tailor them in a second step based on performance and combine them with technology such as melt extrusion as third step. If these steps are done in the context of clinical needs and quality it can rationalize the development of a solid dispersion and minimalize the formulation related risks regarding biopharmacy and stability.}, subject = {Arzneimittel}, language = {en} } @phdthesis{Schwarz2015, author = {Schwarz, Christoph Benjamin}, title = {Full vector-field control of femtosecond laser pulses with an improved optical design}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-142948}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The controlled shaping of ultrashort laser pulses is a powerful technology and applied in many laser laboratories today. Most of the used pulse shapers are only able to produce linearly polarized pulses shaped in amplitude and phase. Some devices are also capable of producing limited time-varying polarization profiles, but they are not able to control the amplitude. However, for some state-of-the-art non-linear time-resolved methods, such as polarization-enhanced two-dimensional spectroscopy, the possibility of controlling the amplitude and the polarization simultaneously is desirable. Over the last years, different concepts have been developed to overcome these restrictions and to manipulate the complete vector-field of an ultrashort laser pulse with independent control over all four degrees of freedom - phase, amplitude, orientation, and ellipticity. The aim of this work was to build such a vector-field shaper. While the basic concept used for our setup is based on previous designs reported in the literature, the goal was to develop an optimized optical design that minimizes artifacts, allowing for the generation of predefined polarization pulse sequences with the highest achievable accuracy. In Chapter 3, different approaches reported in the literature for extended and unrestricted vector-field control were examined and compared in detail. Based on this analysis, we decided to follow the approach of modulating the spectral phase and amplitude of two perpendicularly polarized pulses independently from each other in two arms of an interferometer and recombining them to a single laser pulse to gain control over the complete vector field. As described in Chapter 4, the setup consists of three functional groups: i) an optical component to generate and recombine the two polarized beams, ii) a 4f setup, and iii) a refracting telescope to direct the two beams under two different angles of incidence onto the grating of the 4f setup in a common-path geometry. This geometry was chosen to overcome potential phase instabilities of an interferometric vector-field shaper. Manipulating the two perpendicularly polarized pulses simultaneously within one 4f setup and using adjacent pixel groups of the same liquid-crystal spatial light modulator (LC SLM) for the two polarizations has the advantages that only a single dual-layer LC SLM is required and that a robust and compact setup was achieved. The shaping capabilities of the presented design were optimized by finding the best parameters for the setup through numerical calculations to adjust the frequency distributions for a broad spectrum of 740 - 880 nm. Instead of using a Wollaston prism as in previous designs, a thin-film polarizer (TFP) is utilized to generate and recombine the two orthogonally polarized beams. Artifacts such as angular dispersion and phase distortions along the beam profile which arise when a Wollaston prism is used were discussed. Furthermore, it was shown by ray-tracing simulations that in combination with a telescope and the 4f setup, a significant deformation of the beam profile would be present when using a Wollaston prism since a separation of the incoming and outgoing beam in height is needed. The ray-tracing simulations also showed that most optical aberrations of the setup are canceled out when the incoming and outgoing beams propagate in the exact same plane by inverting the beam paths. This was realized by employing a TFP in the so-called crossed-polarizer arrangement which has also the advantage that the polarization-dependent efficiencies of the TFP and the other optics are automatically compensated and that a high extinction ratio in the order of 15000:1 is reached. Chromatic aberrations are, however, not compensated by the crossed-polarizer arrangement. The ray-tracing simulations confirmed that these chromatic aberrations are mainly caused by the telescope and not by the cylindrical lens of the 4f setup. Nevertheless, in the experimentally used wavelength range of 780 - 816 nm, only minor distortions of the beam profile were observed, which were thus considered to be negligible in the presented setup. The software implementation of the pulse shaper was reviewed in Chapter 5 of this thesis. In order to perform various experiments, five different parameterizations, accounting for the extended shaping capabilities of a vector-field shaper, were developed. The Pixel Basis, the Spectral Basis, and the Spectral Taylor Basis can generally be used in combination with an optimization algorithm and are therefore well suited for quantum control experiments. For multidimensional spectroscopy, the Polarized Four-Pulse Basis was established. With this parameterization pulse sequences with up to four subpulses can be created. The polarization state of each subpulse can be specified and the relative intensity, phase, and temporal delay between consecutive subpulses can be controlled. In addition, different software programs were introduced in Chapter 5 which are required to perform the experiments conducted in this work. The experimental results were presented in Chapter 6. The frequency distribution across the LC SLM was measured proving that the optimal frequency distribution was realized experimentally. Furthermore, the excellent performance of the TFP was verified. In general, satellite pulses are emitted from the TFP due to multiple internal reflections. Various measurements demonstrated that these pulses are temporally separated by at least 4.05 ps from the main pulse and that they have vanishing intensity. The phase stability between the two arms of the presented common-path setup σ = 28.3 mrad (λ/222) over 60 minutes. To further improve this stability over very long measurement times, an on-the-fly phase reduction and stabilization (OPRAS) routine utilizing the pulse shaper itself was developed. This routine automatically produces a compressed pulse with a minimized relative phase between the two polarization components. A phase stability of σ = 31.9 mrad (λ/197) over nearly 24 hours was measured by employing OPRAS. Various pulse sequences exceeding the capabilities of conventional pulse shapers were generated and characterized. The experimental results proved that shaped pulses with arbitrary phase, amplitude, and polarization states can be created. In all cases very high agreement between the target parameters and the experimental data was achieved. For the future use of the setup also possible modifications were suggested. These are not strictly required, but all of them could further improve the performance and flexibility of the setup. Firstly, it was illustrated how a "dual-output" of the setup can be realized. With this modification it would be possible to use the main intensity of the shaped pulse for an experiment while using a small fraction to characterize the pulse or to perform OPRAS simultaneously. Secondly, the basic idea of replacing the telescope by focusing mirrors in order to eliminate the chromatic aberrations was presented. Regarding the different parameterizations for vector-field shaping, some modifications increasing the flexibility of the implemented bases and the realization of a von Neumann Basis for the presented setup were proposed. In future experiments, the vector-field shaper will be used in conjunction with a photoemission electron microscope (PEEM). This approach combines the temporal resolution provided by ultrashort laser pulses with the high spatial resolution gained by electron microscopy in order to perform two-dimensional spectroscopy and coherent control on nanostructures with polarization-shaped femtosecond laser pulses. In combination with other chiral-sensitive experimental setups implemented earlier in our group, the vector-field shaper opens up new perspectives for chiral femtochemistry and chiral control. The designed vector-field shaper meets all requirements to generate high-precision polarization-shaped multipulse sequences. These can be used to perform numerous polarization-sensitive experiments. Employing the OPRAS routine, a quasi-infinitely long phase stability is achieved and complex and elaborated long-term measurements can be carried out. The fact that OPRAS demands no additional hardware and that only a single dual-layer LC SLM and inexpensive optics are required allows the building of a vector-field shaper at comparatively low costs. We hope that with the detailed insights into the optical design process as well as into the software implementation given in this thesis, vector-field shaping will become a standard technique just as conventional pulse shaping in the upcoming years.}, subject = {Ultrakurzer Lichtimpuls}, language = {en} } @phdthesis{Aulbach2015, author = {Aulbach, Stefan}, title = {Contributions to Extreme Value Theory in Finite and Infinite Dimensions: With a Focus on Testing for Generalized Pareto Models}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-127162}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Extreme value theory aims at modeling extreme but rare events from a probabilistic point of view. It is well-known that so-called generalized Pareto distributions, which are briefly reviewed in Chapter 1, are the only reasonable probability distributions suited for modeling observations above a high threshold, such as waves exceeding the height of a certain dike, earthquakes having at least a certain intensity, and, after applying a simple transformation, share prices falling below some low threshold. However, there are cases for which a generalized Pareto model might fail. Therefore, Chapter 2 derives certain neighborhoods of a generalized Pareto distribution and provides several statistical tests for these neighborhoods, where the cases of observing finite dimensional data and of observing continuous functions on [0,1] are considered. By using a notation based on so-called D-norms it is shown that these tests consistently link both frameworks, the finite dimensional and the functional one. Since the derivation of the asymptotic distributions of the test statistics requires certain technical restrictions, Chapter 3 analyzes these assumptions in more detail. It provides in particular some examples of distributions that satisfy the null hypothesis and of those that do not. Since continuous copula processes are crucial tools for the functional versions of the proposed tests, it is also discussed whether those copula processes actually exist for a given set of data. Moreover, some practical advice is given how to choose the free parameters incorporated in the test statistics. Finally, a simulation study in Chapter 4 compares the in total three different test statistics with another test found in the literature that has a similar null hypothesis. This thesis ends with a short summary of the results and an outlook to further open questions.}, subject = {Extremwertstatistik}, language = {en} } @phdthesis{Kastner2015, author = {Kastner, Anna Katharina}, title = {Attention mechanisms in contextual anxiety and cued fear and their influence on processing of social cues}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-123747}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Anxiety is an affective state characterized by a sustained, long-lasting defensive response, induced by unpredictable, diffuse threat. In comparison, fear is a phasic response to predictable threat. Fear can be experimentally modeled with the help of cue conditioning. Context conditioning, in which the context serves as the best predictor of a threat due to the absence of any conditioned cues, is seen as an operationalization of sustained anxiety. This thesis used a differential context conditioning paradigm to examine sustained attention processes in a threat context compared to a safety context for the first time. In three studies, the attention mechanisms during the processing of contextual anxiety were examined by measuring heart rate responses and steady-state-visually evoked potentials (ssVEPs). An additional focus was set on the processing of social cues (i.e. faces) and the influence of contextual information on these cues. In a last step, the correlates of sustained anxiety were compared to evoked responses by phasic fear, which was realized in a previously established paradigm combining predictable and unpredictable threat. In the first study, a contextual stimulus was associated with an aversive loud noise, while a second context remained unpaired. This conditioning paradigm created an anxiety context (CTX+) and a safety context (CTX-). After acquisition, a social agent vs. an object was presented as a distractor in both contexts. Heart rate and cortical responses, with ssVEPs by using frequency tagging, to the contexts and the distractors were assessed. Results revealed enhanced ssVEP amplitudes for the CTX+ compared to the CTX- during acquisition and during presentation of distractor stimuli. Additionally, the heart rate was accelerated in the acquisition phase, followed by a heart rate deceleration as a psychophysiological marker of contextual anxiety. Study 2 used the same context conditioning paradigm as Study 1. In contrast to the first study, persons with different emotional facial expressions were presented in the anxiety and safety contexts in order to compare the differential processing of these cues within periods of threat and safety. A similar anxiety response was found in the second study, although only participants who Abstract VIII were aware of the contingency between contexts and aversive event showed a sensory amplification of the threat context, indicated by heart rate response and ssVEP activation. All faces irrespective of their emotional expression received increased attentional resources when presented within the anxiety context, which suggests a general hypervigilance in anxiety contexts. In the third study, the differentiation of predictable and unpredictable threat as an operationalization of fear and anxiety was examined on a cortical and physiological level. In the predictable condition, a social cue was paired with an aversive event, while in the unpredictable condition the aversive event remained unpaired with the respective cue. A fear response to the predictable cue was found, indicated by increased oscillatory response and accelerated heart rate. Both predictable and unpredictable threat yielded increased ssVEP amplitudes evoked by the context stimuli, while the response in the unpredictable context showed longer-lasting ssVEP activation to the threat context. To sum up, all three studies endorsed anxiety as a long-lasting defensive response. Due to the unpredictability of the aversive events, the individuals reacted with hypervigilance in the anxiety context, reflected in a facilitated processing of sensory information and an orienting response. This hypervigilance had an impact on the processing of novel cues, which appeared in the anxiety context. Considering the compared stimuli categories, the stimuli perceived in a state of anxiety received increased attentional resources, irrespective of the emotional arousal conveyed by the facial expression. Both predictable and unpredictable threat elicited sensory amplification of the contexts, while the response in the unpredictable context showed longer-lasting sensory facilitation of the threat context.}, subject = {Angst}, language = {en} } @phdthesis{Lewandowska2015, author = {Lewandowska, Natalia Ewelina}, title = {A Correlation Study of Radio Giant Pulses and Very High Energy Photons from the Crab Pulsar}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-123533}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Pulsars (in short for Pulsating Stars) are magnetized, fast rotating neutron stars. The basic picture of a pulsar describes it as a neutron star which has a rotation axis that is not aligned with its magnetic field axis. The emission is assumed to be generated near the magnetic poles of the neutron star and emitted along the open magnetic field lines. Consequently, the corresponding beam of photons is emitted along the magnetic field line axis. The non-alignment of both, the rotation and the magnetic field axis, results in the effect that the emission of the pulsar is only seen if its beam points towards the observer. The emission from a pulsar is therefore perceived as being pulsed although its generation is not. This rather simple geometrical model is commonly referred to as Lighthouse Model and has been widely accepted. However, it does not deliver an explanation of the precise mechanisms behind the emission from pulsars (see below for more details). Nowadays more than 2000 pulsars are known. They are observed at various wavelengths. Multiwavelength studies have shown that some pulsars are visible only at certain wavelengths while the emission from others can be observed throughout large parts of the electromagnetic spectrum. An example of the latter case is the Crab pulsar which is also the main object of interest in this thesis. Originating from a supernova explosion observed in 1054 A.D. and discovered in 1968, the Crab pulsar has been the central subject of numerous studies. Its pulsed emission is visible throughout the whole electromagnetic spectrum which makes it a key figure in understanding the possible mechanisms of multiwavelength emission from pulsars. The Crab pulsar is also well known for its radio emission strongly varying on long as well as on short time scales. While long time scale behaviour from a pulsar is usually examined through the use of its average profile (a profile resulting from averaging of a large number of individual pulses resulting from single rotations), short time scale behaviour is examined via its single pulses. The short time scale anomalous behaviour of its radio emission is commonly referred to as Giant Pulses and represents the central topic of this thesis. While current theoretical approaches place the origin of the radio emission from a pulsar like the Crab near its magnetic poles (Polar Cap Model) as already indicated by the Lighthouse model, its emission at higher frequencies, especially its gamma-ray emission, is assumed to originate further away in the geometrical region surrounding a pulsar which is commonly referred to as a pulsar magnetosphere (Outer Gap Model). Consequently, the respective emission regions are usually assumed not to be connected. However, past observational results from the Crab pulsar represent a contradiction to this assumption. Radio giant pulses from the Crab pulsar have been observed to emit large amounts of energy on very short time scales implying small emission regions on the surface of the pulsar. Such energetic events might also leave a trace in the gamma-ray emission of the Crab pulsar. The aim of this thesis is to search for this connection in the form of a correlation study between radio giant pulses and gamma-photons from the Crab pulsar. To make such a study possible, a multiwavelength observational campaign was organized for which radio observations were independently applied for, coordinated and carried out with the Effelsberg radio telescope and the Westerbork Synthesis Radio Telescope and gamma-ray observations with the Major Atmospheric Imaging Cherenkov telescopes. The corresponding radio and gamma-ray data sets were reduced and the correlation analysis thereafter consisted of three different approaches: 1) The search for a clustering in the differences of the times of arrival of radio giant pulses and gamma-photons; 2) The search for a linear correlation between radio giant pulses and gamma-photons using the Pearson correlation approach; 3) A search for an increase of the gamma-ray flux around occurring radio giant pulses. In the last part of the correlation study an increase of the number of gamma-photons centered on a radio giant pulse by about 17\% (in contrast with the number of gamma-photons when no radio giant pulse occurs in the same time window) was discovered. This finding suggests that a new theoretical approach for the emission of young pulsars like the Crab pulsar, is necessary.}, subject = {Pulsar}, language = {en} } @phdthesis{Panjwani2015, author = {Panjwani, Priyadarshini}, title = {Induction, Imaging, Histo-morphological and Molecular Characterization of Myocarditis in the Rat to Explore Novel Diagnostic Strategies for the Detection of Myocardial Inflammation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-122469}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Fulminant myocarditis is rare but a potentially life-threatening disease. Acute or mild myocarditis following acute ischemia is generally associated with a profound activation of the host's immune system. On one hand this is mandatory to protect the host's heart by fighting the invading agents (i.e., bacteria, viruses or other microbial agents) and/or to induce healing and repair processes in the damaged myocardium. On other hand, uncontrolled activation of the immune system may result in the generation of auto-reactive (not always beneficial) immune cells. Myocarditis or inflammatory cardiomyopathy is characterized by focal or diffuse infiltrates, myocyte necrosis and/or apoptosis and subsequent fibrotic replacement of the heart muscle. In humans, about 30\% of the myocarditis-patients develop dilated cardiomyopathy. As the clinical picture of myocarditis is multifaceted, it is difficult to diagnose the disease. Therefore, the main goal of the present work was to test and further develop novel non-invasive methods for the detection of myocardial inflammation by employing both contrast enhanced MRI techniques as well as novel nuclear tracers that are suitable for in vivo PET/ SPECT imaging. As a part of this thesis, a pre-clinical animal model was successfully established by immunizing female Lewis rats with whole-porcine cardiac myosin (CM). Induction of Experimental Autoimmune Myocarditis (EAM) is considered successful when anti-myosin antibody titers are increased more than 100-fold over control animals and pericardial effusion develops. In addition, cardiac tissues from EAM-rats versus controls were analyzed for the expression of various pro-inflammatory and fibrosis markers. To further exploit non-invasive MRI techniques for the detection of myocarditis, our EAM-rats were injected either with (1) ultra-small Paramagnetic iron oxide particles (USPIO's; Feraheme®), allowing for in vivo imaging , (2) micron sized paramagnetic iron oxide particles (MPIO) for ex vivo inflammatory cell-tracking by cMRI, or (3) with different radioactive nuclear tracers (67gallium citrate, 68gallium-labeled somatostatin analogue, and 68gallium-labeled cyclic RGD-peptide) which in the present work have been employed for autoradiographic imaging, but in principle are also suitable for in vivo nuclear imaging (PET/SPECT). In order to compare imaging results with histology, consecutive heart sections were stained with hematoxylin \& eosin (HE, for cell infiltrates) and Masson Goldner trichrome (MGT, for fibrosis); in addition, immuno-stainings were performed with anti-CD68 (macrophages), anti-SSRT2A (somatostatin receptor type 2A), anti-CD61 (β3-integrins) and anti-CD31 (platelet endothelial cell adhesion molecule 1). Sera from immunized rats strongly reacted with cardiac myosin. In immunized rats, echocardiography and subsequent MRI revealed huge amounts of pericardial effusion (days 18-21). Analysis of the kinetics of myocardial infiltrates revealed maximal macrophage invasion between days 14 and 28. Disappearance of macrophages resulted in replacement-fibrosis in formerly cell-infiltrated myocardial areas. This finding was confirmed by the time-dependent differential expression of corresponding cytokines in the myocardium. Immunized animals reacted either with an early or a late pattern of post-inflammation fibrosis. Areas with massive cellular infiltrates were easily detectible in autoradiograms showing a high focal uptake of 67gallium-citrate and 68gallium labeled somatostatin analogues (68Ga DOTA-TATE). Myocardium with a loss of cardiomyocytes presented a high uptake of 68gallium labeled cyclic RGD-peptide (68Ga NOTA-RGD). MRI cell tracking experiments with Feraheme® as the contrast-agent were inconclusive; however, strikingly better results were obtained when MPIOs were used as a contrast-agent: histological findings correlated well with in vivo and ex vivo MPIO-enhanced MRI images. Imaging of myocardial inflammatory processes including the kinetics of macrophage invasion after microbial or ischemic damage is still a major challenge in, both animal models and in human patients. By applying a broad panel of biochemical, histological, molecular and imaging methods, we show here that different patterns of reactivity may occur upon induction of myocarditis using one and the same rat strain. In particular, immunized Lewis rats may react either with an early or a late pattern of macrophage invasion and subsequent post-inflammation fibrosis. Imaging results achieved in the acute inflammatory phase of the myocarditis with MPIOs, 67gallium citrate and 68gallium linked to somatostatin will stimulate further development of contrast agents and radioactive-nuclear tracers for the non-invasive detection of acute myocarditis and in the near future perhaps even in human patients.}, subject = {Ratte}, language = {en} } @phdthesis{Real2015, author = {Real, Ruben}, title = {Living with severe motor impairments - from consciousness to quality of life}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-138562}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The impact of acquired severe motor impairments is pervasive and may lead to a complete loss of communication and voluntary motor control, rendering the patient behaviourally unresponsive. In routine clinical care it may thus be unclear, whether some of these patients are even conscious. Given that finding a cure is unlikely, care focuses on providing the best possible quality of life (QoL), and knowing its predictors might contribute to that aim. Patients who still can communicate often report a high QoL, and several predictors have been identified. However, many instruments used to assess QoL require at least residual verbal and motor abilities. Thus, a method to assess QoL independent of these requirements is desirable. In addition, many instruments assume QoL to be temporarily stable, and little information is available on predictors of instantaneous QoL, i.e. QoL as it fluctuates from moment to moment throughout the day.}, subject = {Myatrophische Lateralsklerose}, language = {en} } @phdthesis{Herter2015, author = {Herter, Eva Kristine}, title = {Characterization of direct Myc target genes in Drosophila melanogaster and Investigating the interaction of Chinmo and Myc}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-122272}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The correct regulation of cell growth and proliferation is essential during normal animal development. Myc proteins function as transcription factors, being involved in the con-trol of many growth- and proliferation-associated genes and deregulation of Myc is one of the main driving factors of human malignancies. The first part of this thesis focuses on the identification of directly regulated Myc target genes in Drosophila melanogaster, by combining ChIPseq and RNAseq approaches. The analysis results in a core set of Myc target genes of less than 300 genes which are mainly involved in ribosome biogenesis. Among these genes we identify a novel class of Myc targets, the non-coding small nucleolar RNAs (snoRNAs). In vivo studies show that loss of snoRNAs not only impairs growth during normal development, but that overexpression of several snoRNAs can also enhance tumor development in a neu-ronal tumor model. Together the data show that Myc acts as a master regulator of ribo-some biogenesis and that Myc's transforming effects in tumor development are at least partially mediated by the snoRNAs. In the second part of the thesis, the interaction of Myc and the Zf-protein Chinmo is described. Co-immunoprecipitations of the two proteins performed under endogenous and exogenous conditions show that they interact physically and that neither the two Zf-domains nor the BTB/POZ-domain of Chinmo are important for this interaction. Fur-thermore ChIP experiments and Myc dependent luciferase assays show that Chinmo and Myc share common target genes, and that Chinmo is presumably also involved in their regulation. While the exact way of how Myc and Chinmo genetically interact with each other still has to be investigated, we show that their interaction is important in a tumor model. Overexpression of the tumor-suppressors Ras and Chinmo leads to tu-mor formation in Drosophila larvae, which is drastically impaired upon loss of Myc.}, subject = {Myc}, language = {en} } @phdthesis{Wolter2015, author = {Wolter, Patrick}, title = {Characterization of the mitotic localization and function of the novel DREAM target GAS2L3 and Mitotic kinesins are regulated by the DREAM complex, often up-regulated in cancer cells, and are potential targets for anti-cancer therapy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-122531}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The recently discovered human DREAM complex (for DP, RB-like, E2F and MuvB complex) is a chromatin-associated pocket protein complex involved in cell cycle- dependent gene expression. DREAM consists of five core subunits and forms a complex either with the pocket protein p130 and the transcription factor E2F4 to repress gene expression or with the transcription factors B-MYB and FOXM1 to promote gene expression. Gas2l3 was recently identified by our group as a novel DREAM target gene. Subsequent characterization in human cell lines revealed that GAS2L3 is a microtubule and F-actin cross-linking protein, expressed in G2/M, plays a role in cytokinesis, and is important for chromosomal stability. The aim of the first part of the study was to analyze how expression of GAS2L3 is regulated by DREAM and to provide a better understanding of the function of GAS2L3 in mitosis and cytokinesis. ChIP assays revealed that the repressive and the activating form of DREAM bind to the GAS2L3 promoter. RNA interference (RNAi) mediated GAS2L3 depletion demonstrated the requirement of GAS2L3 for proper cleavage furrow ingression in cytokinesis. Immunofluorescence-based localization studies showed a localization of GAS2L3 at the mitotic spindle in mitosis and at the midbody in cytokinesis. Additional experiments demonstrated that the GAS2L3 GAR domain, a putative microtubule- binding domain, is responsible for GAS2L3 localization to the constriction zones in cytokinesis suggesting a function for GAS2L3 in the abscission process. DREAM is known to promote G2/M gene expression. DREAM target genes include several mitotic kinesins and mitotic microtubule-associated proteins (mitotic MAPs). However, it is not clear to what extent DREAM regulates mitotic kinesins and MAPs, so far. Furthermore, a comprehensive study of mitotic kinesin expression in cancer cell lines is still missing. Therefore, the second major aim of the thesis was to characterize the regulation of mitotic kinesins and MAPs by DREAM, to investigate the expression of mitotic kinesins in cancer cell line panels and to evaluate them as possible anti-cancer targets. ChIP assays together with RNAi mediated DREAM subunit depletion experiments demonstrated that DREAM is a master regulator of mitotic kinesins. Furthermore, expression analyses in a panel of breast and lung cancer cell lines revealed that mitotic kinesins are up-regulated in the majority of cancer cell lines in contrast to non-transformed controls. Finally, an inducible lentiviral-based shRNA system was developed to effectively deplete mitotic kinesins. Depletion of selected mitotic kinesins resulted in cytokinesis failures and strong anti-proliferative effects in several human cancer cell lines. Thus, this system will provide a robust tool for future investigation of mitotic kinesin function in cancer cells.}, subject = {Zellzyklus}, language = {en} } @phdthesis{Grosz2015, author = {Grosz, Magdalena Urszula}, title = {Identification of phagosomal escape relevant factors in Staphylococcus aureus infection}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-121981}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Staphylococcus aureus is a facultative Gram-positive human pathogen which can cause different severe infections. Staphylococci are phagocytosed by professional and non-professional phagocytes; they are strongly cytotoxic against eukaryotic cells and have been proposed to play a role in immune evasion by spreading within migrating phagocytes. This study investigated the post invasive events upon S. aureus infection. Strains which are able to escape the phagosome were identified and the responsible toxins were determined. Thereby innovative insights into host pathogen interaction were obtained. A novel class of small amphipathic peptides with strong surfactant-like properties, the phenol soluble modulins, particularly PSMα as well as the leukocidin LukAB, are involved in phagosomal escape of the clinical S. aureus strains LAC, MW2 and 6850 in non-professional and professional phagocytes. Whereas, PSMβ, δ-toxin, α-toxin, β-toxin or phosphatidyl inositol-dependent phospholipase C did not affect phagosomal escape. By blocking the bacterial DNA-dependent RNA polymerase with rifampicin phagosomal escape is determined to start approximately 2.5 hours post infection. Phagosomal escape further was required for intracellular replication of S. aureus. Strains which are not able to escape cannot replicate in the acidic vacuole, whereas, the host cytoplasm offers a rich milieu for bacterial replication. Additionally, phagosomal escape, with intracellular bacterial replication induces the subsequent host cell death. This could be confirmed by an infection assay including S. aureus knockout mutants in psmα or lukAB which were significantly less cytotoxic, compared with those infected with escape-positive wild type strains. Further, this study showed that phagosomal escape is not only mediated by bacterial toxins. Since, the phagocyte-specific cognate receptors for both escape relevant toxins, FPR2 (PSMα receptor) and CD11b (LukAB receptor) are produced in epithelial and endothelial cells only after infection with S. aureus in a calcium dependent fashion. The knockdown of both receptors using siRNA prevents S. aureus to escape the phagosome. Furthermore, blocking intracellular calcium release with the inositol trisphosphate receptor (IP3R) inhibitor 2-APB prohibits upregulation of fpr2 and cd11b and subsequently phagosomal escape of S. aureus. To conclude, the current study clarifies that phagosomal escape and host cell death are interplay of both, bacterial toxins and host cell factors. Staphylococcus aureus ist ein fakultativ Gram-positives Humanpathogen, dass verschiedene schwerwiegende Infektionen verursachen kann. Staphylokokken werden von professionellen und nicht-professionellen Phagozyten (Fresszellen) zu gleich aufgenommen. Desweitern sind sie stark zytotoxisch f{\"u}r eukaryotische Zellen. Außerdem wird vermutet, dass sie sich mittels migrierender Phagozyten dem angeborenen Immunsystem entziehen k{\"o}nnen. In dieser Studie werden die post-invasiven Ereignisse w{\"a}hrend einer Staphylokokken Infektion untersucht. Im Detail wurden St{\"a}mme identifiziert die aus den Phagosomen entkommen k{\"o}nnen und die daf{\"u}r verantwortlichen Toxine. Im Zuge dessen wurden neue Erkenntnisse der Interaktion zwischen Bakterien und Wirtszellen gewonnen. Eine neue Klasse von kleinen amphiphatischen Peptiden mit starken grenzfl{\"a}chenaktiven Eigenschaften (Surfactant), die sogenannten Phenol soluble modulins (PSMs) im Besonderen PSMα sowie das Leukozidin LukAB, sind am phagosomalen Ausbruch der klinisch relevanten S. aureus St{\"a}mmen LAC, MW2 und 6850 in nicht professionellen und professionellen Phagozyten involviert. Hingegen, sind PSMβ, δ-toxin, α-toxin, β-toxin oder Phosphatidylinositol abh{\"a}ngige Phospholipase C nicht am phagosomalen Ausbruch beteiligt. Durch die Hemmung der bakteriellen DNA-abh{\"a}ngigen RNA Polymerase mit Rifampicin wurde der Zeitpunkt f{\"u}r den Ausbruch auf etwa 2,5 Stunden nach der Infektion eingegrenzt. Der phagosomale Ausbruch ist weiterhin f{\"u}r die intrazellul{\"a}re Replikation von S. aureus notwendig. W{\"a}hrend St{\"a}mme, die nicht ausbrechen k{\"o}nnen in der anges{\"a}uerten Vakuole nicht replizieren k{\"o}nnen, bietet das Zytoplasma ein reichhaltiges Milieu f{\"u}r die Vermehrung. Zudem wird der Pathogen induzierte Zelltod erst nach dem phagosomalen Ausbruch und mit anschließender Vermehrung erm{\"o}glicht. Nachgewiesen wurde dies mittels psmα und lukAB defizienten Mutanten welche signifikant weniger zytotoxisch waren als der Wildtyp Stamm. Diese Studie zeigt dar{\"u}ber hinaus, dass der phagosomale Ausbruch nicht nur durch bakterielle Toxine vermittelt wird. Sondern, dass die Phagozyten-spezifischen Rezeptoren f{\"u}r beide relevanten Toxine, FPR2 (PSMα Rezeptor) und CD11b (LukAB Rezeptor), in Epithel- und Endothelzellen nach Infektion mit S. aureus calciumabh{\"a}ngig produziert werden und f{\"u}r den Ausbruch notwendig sind. Der knockdown beider Rezeptoren mittels siRNA verhindert den Ausbruch. Wird der intrazellul{\"a}re Calciumstrom mittels des Inositoltrisphosphat Rezeptor (IP3R) Inhibitor 2-APB blockiert k{\"o}nnen die Gene fpr2 und cd11b nicht hochreguliert werden und der Ausbruch wird ebenfalls verhindert. Folglich zeigt diese Studie, dass der phagosomale Ausbruch und Pathogen induzierte Zelltod sowohl durch bakterielle Toxine als auch Wirtsfaktoren vermittelt wird.}, subject = {Phagosom}, language = {en} } @phdthesis{Balk2015, author = {Balk, Anja}, title = {Ionic liquids of active pharmaceutical ingredients: A novel platform addressing solubility challenges of poorly water soluble drugs}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-121925}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Starting in the late 1990s ionic liquids (ILs) gained momentum both in academia as well as industry. ILs are defined as organic salts with a melting point below 100 °C. Active pharmaceutical ingredients (APIs) may be transferred into ILs by creating salts with a bulky counterion with a soft electron density. ILs have demonstrated the potential to tune important pharmaceutical features such as the solubility and the dissolution rate, particularly addressing the challenge of poor water soluble drugs (PWSD). Due to the tunability of ILs, modification of physico-chemical properties of APIs may be envisioned without any modifications of the chemical structure. In the first chapter the potential as well as the limitation of ILs are discussed. The chapter commences with an overview of preparation and characterization of API-ILs. Moreover, examples for pharmaceutical parameters are presented which may be affected by IL formation, including the dissolution rate, kinetic solubility or hygroscopicity as well as biopharmaceutical performance and toxicology. The impact of IL formation on those pharmaceutically relevant features is highlighted, resulting in a blueprint for a novel formulation concept to overcome PWSD challenges without the need for structural changes of the API. Within the second chapter the IL concept is detailed for one specific API - counterion combination. A poorly water soluble acidic API against migraine attacks was transformed into an IL in an effort to minimize the time to maximum plasma concentration (tmax) and optimize the overall bioavailability. These studies were conducted in parallel to a prodrug of the API for comparison of the IL strategy versus a strategy involving modification of the API's structure. A significantly longer duration of API supersaturation and a 700 fold faster dissolution rate of the IL in comparison to the free acid were obtained and the underlying mechanism was elucidated. The transepithelial absorption was determined using Caco-2 cell layers. For the IL about 3 times more substance was transported in comparison to the prodrug when substances were applied as suspensions, despite the higher permeability of the prodrug, as increased solubility of the IL exceeded this effect. Cytotoxicity of the counterion was assessed in hepatic, renal and macrophage cell lines, respectively, and IC50 values were in the upper µM / lower mM range. The outcome of the study suggested the IL approach instrumental for tuning biopharmaceutical properties, without structural changes of the API as required for preparation of prodrugs. Thus the toolbox for formulation strategies of poorly water soluble drugs could be extended by an efficient concept. The third chapter focuses on the effect of different counterions on the physico-chemical properties of an API-IL, in particular to overcome the challenge of poor water solubility. Therefore, the same poorly water soluble acidic API against migraine attacks mentioned above was combined with 36 counterions resulting in ILs and low lattice enthalpy salts (LLES). Depending on the counterions, different dissolution rates, durations of supersaturation and hygroscopicities were obtained and release profiles could be tailored from immediate to sustained release. Besides, in vitro the cytotoxicity of the counterions was assessed in three cell lines. Using molecular descriptors such as the number of hydrophobic atoms, the graph theoretical diameter and the number of positive charges of the counterion, the dissolution rate, supersaturation and hygroscopicity as well as the cytotoxicity of counterions could be adequately modeled, rendering it possible to predict properties of new LLESs. Within the forth chapter different poorly water soluble APIs were combined with the counterion tetrabutylphosphonium (TBP) studying the impact on the pharmaceutical and physical properties of the APIs. TBP-ILs and low lattice enthalpy salts were prepared of the acidic APIs Diclofenac, Ibuprofen, Ketoprofen, Naproxen, Sulfadiazine, Sulfamethoxazole and Tolbutamide. NMR and IR spectroscopy, DSC, XRPD, DVS and dissolution rate measurements, release profiles and saturation concentration measurements were used to characterize the free acids and TBP salts as compared to the corresponding sodium salts. The TBP salts as compared to the free acids displayed lower melting points and glass transition temperatures and up to 1000 times higher dissolution rates. The increase in the dissolution rate directly correlated with the salts' hygroscopicity, an aspect which is critically discussed in terms of pharmaceutical translation challenges. In summary TBP ILs of solid salts were proved instrumental to approach the challenge of poor water solubility. The outcome profiled tailor-made counterions as a powerful formulation strategy to address poor water solubility, hence bioavailability and ultimately therapeutic potential of challenging APIs. In summary, a plethora of ILs and LLESs were prepared by combination of different acidic APIs and counterions. The IL and LLESs concept was compared to conventional salt and prodrug strategies. By choice of the counterion, biopharmaceutical relevant parameters were deliberately modified and release profiles were tuned ranging from immediate to prolonged release. The impact of distinct structural counterion features controlling the dissolution, supersaturation, hygroscopicity and counterion cytotoxicity were identified, correlations were presented and predictive models were built. ILs and LLESs could be proven to be a powerful concept for the formulation of poorly water soluble acidic APIs.}, subject = {Arzneimittel}, language = {en} } @phdthesis{Herz2015, author = {Herz, Michaela}, title = {Molecular characterization of the serotonin and cAMP-signalling pathways in Echinococcus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-139249}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Alveolar and cystic echinococcosis, caused by Echinococcus multilocularis and Echinococcus granulosus respectively, are severe zoonotic diseases with limited treatment options. The sole curative treatment is the surgical removal of the complete parasite material. Due to late diagnosis, chemotherapeutic treatment often is the only treatment option. Treatment is based on benzimidazoles, which merely act parasitostatic and often display strong side effects. Therefore, new therapeutic drugs are urgently needed. Evolutionarily conserved signalling pathways are known to be involved in hostparasite cross-communication, parasite development and survival. Moreover, they represent potential targets for chemotherapeutic drugs. In this context the roles of the serotonin- and cAMP-signalling pathways in Echinococcus were studied. Genes encoding serotonin receptors, a serotonin transporter and enzymes involved in serotonin biosynthesis could be identified in the E. multilocularis and E. granulosus genomes indicating that these parasites are capable of synthesizing and perceiving serotonin signals. Also the influence of exogenous serotonin on parasite development was studied. Serotonin significantly increased metacestode vesicle formation from primary cells and re-differentiation of protoscoleces. Inhibition of serotonin transport with citalopram significantly reduced metacestode vesicle formation from primary cells and caused death of protoscoleces and metacestodes. Furthermore, it could be shown that serotonin increased phosphorylation of protein kinase A substrates. Taken together, these results show that serotonin and serotonin transport are essential for Echinococcus development and survival. Consequently, components of the serotonin pathway represent potential drug targets. In this work the cAMP-signalling pathway was researched with focus on G-protein coupled receptors and adenylate cyclases. 76 G-protein coupled receptors, including members of all major families were identified in the E. multilocularis genome. Four genes homologous to adenylate cyclase IX were identified in the E. multilocularis genome and three in the E. granulosus genome. While glucagon caused no significant effects, the adenylate cyclase activator forskolin and the adenylate cyclase inhibitor 2', 5' didesoxyadenosine influenced metacestode vesicle formation from primary cells, re-differentiation of protoscoleces and survival of metacestodes. It was further shown that forskolin increases phosphorylation of protein kinase A substrates, indicating that forskolin activates the cAMP-pathway also in cestodes. These results indicate that the cAMP signalling pathway plays an important role in Echinococcus development and survival. To complement this work, the influence of different media and additives on E. granulosus protoscoleces was investigated. Anaerobic conditions and the presence of FBS prolonged protoscolex survival while different media influenced protoscolex activation and development. Taken together, this work provided important insights into developmental processes in Echinococcus and potential drug targets for echinococcosis chemotherapy.}, subject = {Serotonin}, language = {en} } @phdthesis{Hafen2015, author = {Hafen, Bettina}, title = {Physical contact between mesenchymal stem cells and endothelial precursors induces distinct signatures with relevance to tissue regeneration and engineering}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119417}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The goal of the project VascuBone is to develop a tool box for bone regeneration, which on one hand fulfills basic requirements (e.g. biocompatibility, properties of the surface, strength of the biomaterials) and on the other hand is freely combinable with what is needed in the respective patient's situation. The tool box will include a variation of biocompatible biomaterials and cell types, FDA-approved growth factors, material modification technologies, simulation and analytical tools like molecular imaging-based in vivo diagnostics, which can be combined for the specific medical need. This tool box will be used to develop translational approaches for regenerative therapies of different types of bone defects. This project receives funding from the European Union's Seventh Framework Program (VascuBone 2010). The present study is embedded into this EU project. The intention of this study is to assess the changes of the global gene expression patterns of endothelial progenitor cells (EPCs) and mesenchymal stem cells (MSCs) after direct cell-cell contact as well as the influence of conditioned medium gained from MSCs on EPCs and vice versa. EPCs play an important role in postnatal vasculogenesis. An intact blood vessel system is crucial for all tissues, including bone. Latest findings in the field of bone fracture healing and repair by the use of tissue engineering constructs seeded with MSCs raised the idea of combining MSCs and EPCs to enhance vascularization and therefore support survival of the newly built bone tissue. RNA samples from both experimental set ups were hybridized on Affymetrix GeneChips® HG-U133 Plus 2.0 and analyzed by microarray technology. Bioinformatic analysis was applied to the microarray data and verified by RT-PCR. This study gives detailed information on how EPCs and MSCs communicate with each other and therefore gives insights into the signaling pathways of the musculoskeletal system. These insights will be the base for further functional studies on protein level for the purpose of tissue regeneration. A better understanding of the cell communication of MSCs and EPCs and subsequently the targeting of relevant factors opens a variety of new opportunities, especially in the field of tissue engineering. The second part of the present work was to develop an ELISA (enzyme-linked immunosorbent assay) for a target protein from the lists of differentially expressed genes revealed by the microarray analysis. This project was in cooperation with Immundiagnostik AG, Bensheim, Germany. The development of the ELISA aimed to have an in vitro diagnostic tool to monitor e.g. the quality of cell seeded tissue engineering constructs. The target protein chosen from the lists was klotho. Klotho seemed to be a very promising candidate since it is described in the literature as anti-aging protein. Furthermore, studies with klotho knock-out mice showed that these animals suffered from several age-related diseases e.g. osteoporosis and atherosclerosis. As a co-receptor for FGF23, klotho plays an important role in bone metabolism. The present study will be the first one to show that klotho is up-regulated in EPCs after direct cell-cell contact with MSCs. The development of an assay with a high sensitivity on one hand and the capacity to differentiate between secreted and shedded klotho on the other hand will allow further functional studies of this protein and offers a new opportunity in medical diagnostics especially in the field of metabolic bone disease.}, subject = {Vorl{\"a}uferzelle}, language = {en} } @phdthesis{Kober2015, author = {Kober, Christina}, title = {Characterization of Murine GL261 Glioma Models for Oncolytic Vaccinia Virus Therapy}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118556}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Glioblastoma multiforme (GBM) is one of the most frequent and malignant forms of brain cancer in adults. The prognosis is poor with a median survival time of 12-15 months. There is a broad range of alternative treatment options studied in preclinical and clinical trials for GBM. One alternative treatment option is oncolytic virotherapy, defined as the use of replication-competent viruses that selectively infect and destroy cancer cells while leaving, non-transformed cells unharmed. Vaccinia virus (VACV) is one favorable candidate. Although oncolytic viruses can kill tumor cells grown in vitro with high efficiency, they often exhibit reduced replication capacity in vivo suggesting that physiological aspects of the tumor microenvironment decrease the virus' therapeutic potential. The percentage and composition of immune cells varies between cancer types and patients and is investigated as a biomarker in several studies. Making oncolytic virotherapy successful for GBM, it is necessary to understand the individual tumor biology, the interaction with the microenvironment and immune system. It was demonstrated that the attenuated VACV wild-type (wt) isolate LIVP 1.1.1 replicate and lyse the murine GL261 glioma cell line in vitro. In the following, the replication efficacy was characterized in a comparative approach in vivo. Immunocompetent C57BL/6 (wt) mice and immunodeficient mouse strains of different genetic background C57BL/6 athymic and Balb/c athymic mice were used. In addition, subcutaneous and intracranial locations were compared. The results revealed viral replication exclusively in Balb/c athymic mice with subcutaneous tumors but in none of the other models. In the following, the tumor microenvironment of the subcutaneous tumor models at the time of infection was performed. The study showed that implantation of the same tumor cells in different mouse strains resulted in a different tumor microenvironment with a distinct composition of immune cells. Highest differences were detected between immunodeficient and immunocompetent mice. The study showed major differences in the expression of MHCII with strongest expression in C57BL/6 wt and weakest in Balb/c athymic tumors. In the following, the influence of the phenotypic change associated with the upregulation of MHCII on GL261 tumor cells on viral replication was analyzed. Comparison of C57BL/6 wt and C57BL/6 IFN-γ knockout mice revealed endogenous IFN-γ levels to upregulate MHCII on GL261 tumor cells and to reduce viral replication in C57BL/6 wt mice. Analysis of single cell suspensions of tumor homogenates of C57BL/6 and Balb/c athymic mice showed that the IFN-γ-mediated anti-tumor effect was a reversible effect. Furthermore, reasons for inhibition of virus replication in orthotopic glioma models were elucidated. By immunohistochemical analysis it was shown that intratumoral amounts of Iba1+ microglia and GFAP+ astrocytes in Gl261 gliomas was independent from intratumoral VACV injection. Based on these findings virus infection in glioma, microglia and astrocytes was compared and analyzed in cell culture. In contrast to the GL261 glioma cells, replication was barely detectable in BV-2 microglia and IMA2.1 astrocytic cells. Co-culture experiments revealed that microglia compete for virus uptake in cell culture. It was further shown that BV-2 cells showed apoptotic characteristics after VACV infection while GL261 cells showed signs of necrotic cell death. Additionally, in BV-2 cells with M1-phenotype a further reduction of viral replication and inhibition of cell lysis was detected. Infection of IMA 2.1 cells was independent of the M1/M2-phenotype. Application of BV-2 microglia with M1-phenotype onto organotypic slice cultures with implanted GL261 tumors resulted in reduced infection of BV-2 cells with LIVP 1.1.1, whereas GL261 cells were significantly infected. Taken together, the analyzed GL261 tumors were imprinted by the immunologic and genetic background in which they grow. The experimental approach applied in this thesis can be used as suitable model which reflects the principles of personalized medicine In an additional project, based on gene expression data and bioinformatic analyses, the biological role and function of the anti-apoptotic factor AVEN was analyzed with regard to oncolytic VACV therapy. Besides a comparison of the replication efficacy of GLV-1h68 and VACV-mediated cell killing of four human tumor cell lines, it was shown that AVEN was expressed in all analyzed cells. Further, shown for HT-29 and 1936-MEL, the knockdown of AVEN by siRNA in cell culture resulted in an increase of apoptotic characteristics and a decrease of VACV infection. These findings provide essential insights for future virus development.}, subject = {Krebs }, language = {en} } @phdthesis{Richard2015, author = {Richard, Annika}, title = {Systematic Review of Measles, Mumps and Rubella Vaccination Programs in Selected European Countries and the Influence of Migration Movements}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-138033}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Masern, Mumps und R{\"o}teln sind virale Infektionskrankheiten, die schwere und verheerenden Komplikationen bei den erkrankten Personen verursachen k{\"o}nnen. Die weltweite Krankheitslast dieser Infektionskrankheiten ist hoch und k{\"o}nnte durch erfolgreiche Impfstrategien merkenswert reduziert werden. Die WHO hat daher das Ziel der globalen Eliminierung von Masern und R{\"o}teln sowie der Kontrolle der oft simultan geimpften Mumps Erkrankung gesetzt. Im Jahr 2010 einigten sich die WHO-Mitgliedstaaten der europ{\"a}ischen Region, gezielte Strategien zu verfolgen, um Masern und R{\"o}teln bis Ende des Jahres 2015 in Europa zu eliminieren. Analysen bez{\"u}glich des aktuellen Fortschrittes werden daher zunehmend relevanter. Als Teil dieser systematischen Literaturrecherche wurden die Immunisierungsstrategien, Impfraten und Krankheitsinzidenzen von elf europ{\"a}ischen L{\"a}ndern untersucht und ihre Fortschritte im Hinblick auf die Krankheitseliminierung bewertet. Eine erfolgreiche Pr{\"a}vention der endemischen {\"U}bertragung von Masern, Mumps oder R{\"o}teln Viren konnte in mehreren L{\"a}ndern erreicht werden, darunter Schweden, Kroatien, Griechenland und Spanien. Den L{\"a}ndern {\"O}sterreich, Frankreich, Deutschland, Italien, Polen, T{\"u}rkei und dem Vereinigten K{\"o}nigreich von Großbritannien und Nordirland ist es trotz verbesserter Immunisierungsraten bisher nicht gelungen, die Eliminierungsziele zu erreichen. In der T{\"u}rkei, Italien und Polen, kam es in den letzten Jahren zu starken Anstiegen der Fallzahlen, welche die Masern, Mumps und R{\"o}teln Kontrolle in Europa deutlich erschweren und das zeitnahe Erreichen der Eliminationsziele gef{\"a}hrden. Unzureichend immunisierte Bev{\"o}lkerungsgruppen, die zu einer Aufrechterhaltung der Infektionserkrankungen im europ{\"a}ischen Raum beitragen k{\"o}nnen, wurden identifiziert. Dazu z{\"a}hlen S{\"a}uglinge und Kleinkinder, Jugendliche und junge Erwachsene, M{\"a}nner, k{\"u}rzlich eingewanderte Personen und Fl{\"u}chtlinge, sowie reisende ethnischer Minderheiten. Die Gr{\"u}nde f{\"u}r das erh{\"o}hte Risiko einer Masern, Mumps oder R{\"o}teln Infektion unter diesen Personengruppen sind vielf{\"a}ltig und ein Ergebnis von verschiedenen historischen und aktuellen Impfstrategien, kulturellen, politischen und religi{\"o}sen Unterschieden, sowie pers{\"o}nlichem Glauben und Ansichten. Das Reisen und die Migration von infizierten Personen nach und zwischen den verschiedenen europ{\"a}ischen L{\"a}ndern spielt auch eine wesentliche Rolle bei der kontinuierlichen {\"U}bertragung der Erkrankungen in Europa. Nur durch eine ausreichend hohe Immunit{\"a}t der Bev{\"o}lkerung kann das Auftreten von gr{\"o}ßeren Ausbr{\"u}chen trotz der Einfuhr viraler Erreger verhindert werden. Bestrebungen sollte daher die Immunisierung aller impff{\"a}higen Personen umfassen, sowie die Erweiterung spezifischer Impfstrategien f{\"u}r unzureichend immunisierte Bev{\"o}lkerungsgruppen, die nur schwer durch Routineimpfungen zu erreichen sind. Europ{\"a}ische L{\"a}nder, in denen die WHO Eliminierungsziele bisher nicht erreicht wurden, k{\"o}nnten m{\"o}glicherweise von alternativen Impfstrategien profitieren. Ein einheitlicher, europaweiter MMR-Impfplan basierend auf den erfolgreichen Immunisierungsverfahren der L{\"a}nder, die Masern, Mumps und R{\"o}teln erfolgreich bek{\"a}mpft haben, stellt ein wirksames Instrument zur Verbesserung der allgemeinen Bev{\"o}lkerungsimmunit{\"a}t und Kontrolle der drei Infektionskrankheiten dar. Ein Entwurf solch eines Impfplanes wurde im Rahmen dieser Dissertation erstellt und enth{\"a}lt Strategien f{\"u}r das Erreichen ungesch{\"u}tzter Bev{\"o}lkerungsgruppen, unabh{\"a}ngig von Alter, Geschlecht oder Migrationshintergrund. Die Umsetzung einheitlicher Impfempfehlungen bringt mehrere Herausforderungen mit sich. Die vielen Vorteile im Hinblick auf die verbesserte Immunisierung, {\"U}berwachung und Bek{\"a}mpfung der Erkrankungen lassen die Aufw{\"a}nde jedoch als berechtigt erscheinen. Die endemische Eliminierung von Masern, Mumps und R{\"o}teln Viren innerhalb der europ{\"a}ischen Region ist durchaus erzielbar. Die aktuelle epidemiologische Situation deutet jedoch darauf hin, dass das Ziel nicht bis zum Ende des Jahres 2015 erreicht wird, sondern weitere Bestrebungen auf internationaler Ebene notwendig sind, um eine wirksame Krankheitsbek{\"a}mpfung in der n{\"a}heren Zukunft zu erreichen. Durch nationale und internationale Verbesserungen der Immunisierungsstrategien und gezielten Impfkampagnen sowie Erkrankungs-Meldesystemen und laborchemischen Erregerbest{\"a}tigungen kann eine weitgef{\"a}cherte Bev{\"o}lkerungsimmunit{\"a}t erzielt und Krankheitseliminierung unter ad{\"a}quatem Monitoring des Fortschritts im gesamten europ{\"a}ischen Raum erreicht werden.}, subject = {Masern}, language = {en} } @phdthesis{MeirgebRother2015, author = {Meir [geb. Rother], Juliane}, title = {Influence of oncolytic vaccinia viruses on metastases of human and murine tumors}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118530}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Cancer is one of the leading causes of death. 90\% of all deaths are caused by the effects of metastases. It is of major importance to successfully treat the primary tumor and metastases. Tumors and metastases often differ in their properties and therefore, treatment is not always successful. In contrast, those therapeutic agents can even promote formation and growth of metastases. Hence, it is indispensable to find treatment options for metastatic disease. One promising candidate represents the oncolytic virus therapy with vaccinia viruses. The aim of this work was to analyze two cell lines regarding their metastatic abilities and to investigate whether oncolytic vaccinia viruses are useful therapy options. The cell lines used were the human cervical cancer cell line C33A implanted into immune-compromised mice and the murine melanoma cell line B16F10, implanted into immune-competent mice. The initial point of the investigations was the observation of enlarged lumbar und renal lymph nodes in C33A tumor-bearing mice 35 days post implantation of C33A cells subcutaneously into immune-compromised nude mice. Subsequently, the presence of human cells in enlarged lymph nodes was demonstrated by RT-PCR. To facilitate the monitoring of cancer cell spreading, the gene encoding for RFP was inserted into the genome of C33A cells. In cell culture experiments, it was possible to demonstrate that this insertion did not negatively affect the susceptibility of the cells to virus infection, replication and virus-mediated cell lysis. The analysis of the metastatic process in a xenografted mouse model revealed the continuous progression of lumbar (LN) and renal (RN) lymph node metastasis after C33A-RFP tumor cell implantation. The lymph node volume and the amount of RFP-positive LNs and RNs was increasing from week to week in accordance with the gain of the primary tumor volume. Moreover, the metastatic spread of cancer cells in lymph vessels between lumbar and renal lymph nodes was visualized. Additionally, the haematogenous way of cancer cell migration was demonstrated by RFP positive cancer cells in blood vessels. The haematogenous route of spreading was confirmed by detecting micrometastases in lungs of tumor bearing mice. The next step was to investigate whether the recombinant oncolytic vaccinia virus GLV-1h68 is a suitable candidate to cure the primary tumor and metastases. Therefore, GLV-1h68 was systemically injected into C33A-RFP tumor bearing mice 21 days after tumor cell implantation. It was demonstrated that the volume of the primary tumor was drastically reduced, and the volume and the amount of RFP positive lumbar and renal lymph nodes were significantly decreasing compared to the untreated control group. Subsequently, this process was analyzed further by investigating the colonization pattern in the C33A-RFP model. It was shown that first the primary tumor was colonized with highest detectable virus levels, followed by LN and RN lymph nodes. Histological analyses revealed the proliferative status of tumor cells in the tumor and lymph nodes, the amount of different immune cell populations and the vascular permeability in primary tumors and lymph nodes having an influence on the colonization pattern of the virus. Whereby, the vascular permeability seems to have a crucial impact on the preferential colonization of tumors compared to lymph node metastases in this tumor model. C33A turned out to be a useful model to study the formation and therapy of metastases. However, a metastatic model in which the influence of the immune system on tumors and especially on tumor therapy can be analyzed would be preferable. Therefore, the aim of the second part was to establish a syngeneic metastatic mouse model. Accordingly, the murine melanoma cell line B16F10 was analyzed in immunocompetent mice. First, the highly attenuated GLV 1h68 virus was compared to its parental strain LIVP 1.1.1 concerning infection, replication and cell lysis efficacy in cell culture. LIVP 1.1.1 was more efficient than GLV-1h68 and was subsequently used for following mouse studies. Comparative studies were performed, comparing two different implantation sites of the tumor cells, subcutaneously and footpad, and two different mouse strains, FoxN1 nude and C57BL/6 mice. Implantation into the footpad led to a higher metastatic burden in lymph nodes compared to the subcutaneous implantation site. Finally, the model of choice was the implantation of B16F10 into the footpad of immune-competent C57BL/6 mice. Furthermore, it was inevitable to deliver the virus as efficient as possible to the tumor and metastases. Comparison of two different injection routes, intravenously and intratumorally, revealed, that the optimal injection route was intratumorally. In summary, the murine B16F10 model is a promising model to study the effects of the immune system on vaccinia virus mediated therapy of primary tumors and metastases.}, subject = {Krebs }, language = {en} } @phdthesis{Simann2015, author = {Simann, Meike}, title = {Aufkl{\"a}rung der Effekte von Fibroblasten-Wachstumsfaktor 1 und 2 auf die Adipogenese und Osteogenese von prim{\"a}ren humanen Knochenmark-Stroma-Zellen}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119322}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Regulating and reverting the adipo-osteogenic lineage decision of trabecular human bone marrow stromal cells (hBMSCs) represents a promising approach for osteoporosis therapy and prevention. Fibroblast growth factor 1 (FGF1) and its subfamily member FGF2 were scored as lead candidates to exercise control over lineage switching processes (conversion) in favor of osteogenesis previously. However, their impact on differentiation events is controversially discussed in literature. Hence, the present study aimed to investigate the effects of these FGFs on the adipogenic and osteogenic differentiation and conversion of primary hBMSCs. Moreover, involved downstream signaling mechanisms should be elucidated and, finally, the results should be evaluated with regard to the possible therapeutic approach. This study clearly revealed that culture in the presence of FGF1 strongly prevented the adipogenic differentiation of hBMSCs as well as the adipogenic conversion of pre-differentiated osteoblastic cells. Lipid droplet formation was completely inhibited by a concentration of 25 ng/µL. Meanwhile, the expression of genetic markers for adipogenic initiation, peroxisome proliferator-activated receptor gamma 2 (PPARg2) and CCAAT/enhancer binding protein alpha (C/EBPa), as well as subsequent adipocyte maturation, fatty acid binding protein 4 (FABP4) and lipoprotein lipase (LPL), were significantly downregulated. Yet, the genetic markers of osteogenic commitment and differentiation were not upregulated during adipogenic differentiation and conversion under FGF supplementation, not supporting an event of osteogenic lineage switching. Moreover, when examining the effects on the osteogenic differentiation of hBMSCs and the osteogenic conversion of pre-differentiated adipocytic cells, culture in the presence of FGF1 markedly decreased extracellular matrix (ECM) mineralization. Additionally, the gene expression of the osteogenic marker alkaline phosphatase (ALP) was significantly reduced and ALP enzyme activity was decreased. Furthermore, genetic markers of osteogenic commitment, like the master regulator runt-related transcription factor 2 (RUNX2) and bone morphogenetic protein 4 (BMP4), as well as markers of osteogenic differentiation and ECM formation, like collagen 1 A1 (COL1A1) and integrin-binding sialoprotein (IBSP), were downregulated. In contrast, genes known to inhibit ECM mineralization, like ANKH inorganic pyrophosphate transport regulator (ANKH) and osteopontin (OPN), were upregulated. ANKH inhibition revealed that its transcriptional elevation was not crucial for the reduced matrix mineralization, perhaps due to decreased expression of ectonucleotide pyrophosphatase/phosphodiesterase 1 (ENPP1) that likely annulled ANKH upregulation. Like FGF1, also the culture in the presence of FGF2 displayed a marked anti-adipogenic and anti-osteogenic effect. The FGF receptor 1 (FGFR1) was found to be crucial for mediating the described FGF effects in adipogenic and osteogenic differentiation and conversion. Yet, adipogenic conversion displayed a lower involvement of the FGFR1. For adipogenic differentiation and osteogenic differentiation/conversion, downstream signal transduction involved the extracellular signal-regulated kinases 1 and 2 (ERK1/2) and the mitogen-activated protein kinase (MAPK)/ERK kinases 1 and 2 (MEK1/2), probably via the phosphorylation of FGFR docking protein FGFR substrate 2a (FRS2a) and its effector Ras/MAPK. The c-Jun N-terminal kinase (JNK), p38-MAPK, and protein kinase C (PKC) were not crucial for the signal transduction, yet were in part responsible for the rate of adipogenic and/or osteogenic differentiation itself, in line with current literature. Taken together, to the best of our knowledge, our study was the first to describe the strong impact of FGF1 and FGF2 on both the adipogenic and osteogenic differentiation and conversion processes of primary hBMSCs in parallel. It clearly revealed that although both FGFs were not able to promote the differentiation and lineage switching towards the osteogenic fate, they strongly prevented adipogenic differentiation and lineage switching, which seem to be elevated during osteoporosis. Our findings indicate that FGF1 and FGF2 entrapped hBMSCs in a pre-committed state. In conclusion, these agents could be applied to potently prevent unwanted adipogenesis in vitro. Moreover, our results might aid in unraveling a pharmacological control point to eliminate the increased adipogenic differentiation and conversion as potential cause of adipose tissue accumulation and decreased osteoblastogenesis in bone marrow during aging and especially in osteoporosis.}, subject = {Mesenchymzelle}, language = {en} } @phdthesis{Schraut2015, author = {Schraut, Karla-Gerlinde}, title = {Epigenetic programming by prenatal stress in female serotonin transporter deficient mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-120270}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Early life stress, including exposure to prenatal stress (PS), has been shown to affect the developing brain and induce severe effects on emotional health in later life, concomitant with an increased risk for psychopathology. However, some individuals are more vulnerable to early-life stress, while others adapt successfully, i.e. they are resilient and do not succumb to adversity. The molecular substrates promoting resilience in some individuals and vulnerability in other individuals are as yet poorly investigated. A polymorphism in the serotonin transporter gene (5­HTT/SLC6A4) has been suggested to play a modulatory role in mediating the effects of early-life adversity on psychopathology, thereby rendering carriers of the lower-expressing short (s)-allele more vulnerable to developmental adversity, while long (l)-allele carriers are relatively resilient. The molecular mechanisms underlying this gene x environment interaction (GxE) are not well understood, however, epigenetic mechanisms such as DNA methylation and histone modifications have been discussed to contribute as they are at the interface of environment and the genome. Moreover, developmental epigenetic programming has also been postulated to underlie differential vulnerability/resilience independent of genetic variation. The present work comprises two projects investigating the effects of prenatal maternal restraint stress in 5-HTT deficient mice. In the first study, we examined to which extent previously observed changes in behavior and hippocampal gene expression of female 5-Htt+/- prenatally stressed (PS) offspring were associated with changes in DNA methylation patterns. Additionally, we investigated the expression of genes involved in myelination in hippocampus and amygdala of those animals using RT-qPCR. The genome-wide hippocampal DNA methylation screening was performed using methylated-DNA immunoprecipitation (MeDIP) on Affymetrix GeneChip® Mouse Promoter 1.0R arrays. In order to correlate individual gene-specific DNA methylation, mRNA expression and behavior, we used hippocampal DNA from the same mice as assessed before. 5-Htt genotype, PS and their interaction differentially affected the DNA methylation signature of numerous genes, a part of which were also differentially expressed. More specifically, we identified a differentially methylated region in the Myelin basic protein (Mbp) gene, which was associated with Mbp expression in a 5-Htt-, PS- and 5-Htt x PS-dependent manner. Subsequent fine-mapping linked the methylation status of two specific CpG sites in this region to Mbp expression and anxiety-related behavior. We furthermore found that not only the expression of Mbp but of large gene set associated with myelination was affected by a 5-Htt x PS interaction in a brain-region specific manner. In conclusion, hippocampal DNA methylation patterns and expression profiles of female PS 5-Htt+/- mice suggest that distinct molecular mechanisms, some of which are associated with changes in gene promoter methylation, and processes associated with myelination contribute to the behavioral effects of the 5-Htt genotype, PS exposure, and their interaction. In the second study, we aimed at investing the molecular substrates underlying resilience to PS. For this purpose, we exposed 5-Htt+/+ dams to the same restraint stress paradigm and investigated the effects of PS on depression- and anxiety-like behavior and corticosterone (CORT) secretion at baseline and after acute restraint stress in female 5-Htt+/+ and 5-Htt+/- offspring. We found that PS affected the offspring's social behavior in a negative manner. When specifically examining those PS animals, we grouped the PS offspring of each genotype into a social, resilient and an unsocial, vulnerable group. While anxiety-like behavior in the EPM was reduced in unsocial, but not social, PS 5-Htt+/+ animals when compared to controls, this pattern could not be found in animals of the other genotype, indicating that social anxiety and state anxiety in the EPM were independent of each other. We then assessed genome-wide hippocampal gene expression profiles using mRNA sequencing in order to identify pathways and gene ontology (GO) terms enriched due to 5-Htt genotype (G), PS exposure (E) and their interaction (GxE) as well as enriched in social, but not unsocial, PS offspring, and vice versa. Numerous genes were affected by 5-Htt genotype, PS and most of all a GxE-interaction. Enrichment analysis using enrichr identified that the genotype affected mitochondrial respiration, while GxE-interaction-affected processes associated primarily with myelination and chromatin remodeling. We furthermore found that 5-Htt+/- mice showed profound expression changes of numerous genes in a genomic region located 10 mio kb upstream of the 5 Htt locus on the same chromosome. When looking at social vs. unsocial mice, we found that a much higher number of genes was regulated in 5 Htt+/- animals than in 5-Htt+/+ animals, reflecting the impact of GxE-interaction. Double the number of genes was regulated in social PS vs. control mice when compared to unsocial PS vs. control in both genotypes, suggesting that the successful adaption to PS might have required more active processes from the social group than the reaction to PS from the unsocial group. This notion is supported by the up-regulation of mitochondrial respiration in social, but not in unsocial, PS 5-Htt+/- mice when compared to controls, as those animals might have been able to raise energy resources the unsocial group was not. Next to this, processes associated with myelination seemed to be down-regulated in social 5-Htt+/- mice, but not in unsocial animals, when compared to controls. Taken together, PS exposure affected sociability and anxiety-like behavior dependent on the 5-Htt genotype in female offspring. Processes associated with myelination and epigenetic mechanisms involved in chromatin remodeling seemed be affected in a GxE-dependent manner in the hippocampus of these offspring. Our transcriptome data furthermore suggest that mitochondrial respiration and, with this, energy metabolism might be altered in 5-Htt+/- offspring when compared to 5-Htt+/+ offspring. Moreover, myelination and mitochondrial respiration might contribute to resilience towards PS exposure in 5-Htt+/- offspring, possibly by affecting brain connectivity and energy capabilities.}, subject = {Stress}, language = {en} } @phdthesis{Ilko2015, author = {Ilko, David}, title = {The use of charged aerosol detection for the analysis of excipients and active pharmaceutical ingredients}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-118377}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The Corona® charged aerosol detector (CAD) is an aerosol-based detector first de-scribed by Dixon and Peterson in 2002. It is capable of detecting compounds inde-pendent from their physico-chemical properties presumed the analyte is sufficiently non-volatile. Consequently, the CAD is often applied to the analysis of substances that do not possess a suitable UV chromophore. Major drawbacks are however, the detector signal is non-linear and depending on the content of organic solvent in the mobile phase. This thesis tried to explore possible applications of the CAD for pharmaceutical analysis. Therefore, several substances from different compound classes were in-vestigated. Newly developed or existing methods were validated. Thus the perfor-mance of the CAD could be examined. Both assay and impurity determination were evaluated for their compliance with ICH Q2(R1) "Validation of Analytical Proce-dures" and the "Technical Guide for the Elaboration of Monographs". In the course of the establishment of reference substances at the EDQM, a generic screening method for the identification of organic and inorganic pharmaceutical counterions was needed. An HPLC-CAD method developed by Zhang et al. was therefore investigated for its suitability for pharmacopoeial purpose. Method valida-tion was performed. It was found that 23 ions could be separated and detected. Iden-tification was achieved via retention time of an authentic standard of the corre-sponding ions. Alternatively, peak assignment was performed by determination of the exact mass using TOF-MS. Ions could be quantified as impurities or for stoichi-ometric purpose. For the impurity control in topiramate, the performance characterstics of the CAD were compared to that of an ELSD. CAD was superior to ELSD in terms of repeata-bility, sensitivity and linearity. However, impurities could be quantified with satisfac-tory accuracy with both detectors. The application of the ELSD was not feasible due to non-reproducible spike peaks eluting after the principle peak in the chromatogram of the test solution. One of the impurities, topiramate impurity A (diacetonide), gave no or a vastly diminished signal in the ELSD and the CAD, respectively. It is evapo-rated during the detection process due to its relatively high vapor pressure. The re-sponse could be enhanced by a factor of nine via post-column addition of acetoni-trile and a lower nebulizer temperature. As the response of topiramate impurity A was still about thousand-fold lower than the response of all other impurities, its quantification was not feasible. Additionally, the HPLC-CAD was successfully vali-dated as an assay procedure for topiramate. There seems to be a great potential in the application of the CAD to the analysis of excipients as most compounds do not possess a suitable UV chromophore. Here, a simple and rapid HPLC-CAD method for the determination of polidocanol (PD) was developed. The method was successfully validated as a potential assay procedure for the Ph. Eur. as none is described in either of the two PD monographs. The same method was applied to the determination of the PD release from a pharmaceutical polymer matrix. A method for the determination of the fatty acid (FA) composition of polysorbate 80 (PS80) was developed and validated. Using the CAD and mass spectrometry, we were able to identify two new FAs in 16 batches from four manufacturers. All batch-es complied with pharmacopoeial specification. Furthermore, the overall composi-tion of the different PS80 species ("fingerprinting") and the peroxide content were determined. In addition to the chemical characterization, functionality related charac-teristics (FRCs) were determined. Correlations between chemical composition and FRCs were found. The validation data of the above mentioned methods suggests that the CAD repre-sents a viable detection technique for pharmaceutical analysis. The CAD was suffi-ciently sensitive for non-volatile analytes. Impurity control down to concentrations of 0.05 or 0.03\%, as demanded by ICH Q3A (R2), is achievable. However, the response of semi-volatile compounds may be drastically diminished. It could be confirmed that the response of the CAD is linear when the range does not exceed two orders of magnitude. Exceptions may be observed depending on the actual method setup. When the measuring range is sufficiently narrow, quantification can be done using single-point calibration which is common practice in pharmaceutical anlysis. Impuri-ties may also be quantified against a single calibration solution. However, correction factors may be needed and the accuracy is considerably lower compared to an as-say method. If a compound is to be quantified over a large concentration range, log-log transformation of the calibration curve is needed and a decreased accuracy has to be accepted.}, subject = {Analyse}, language = {en} } @phdthesis{Muehlbauer2015, author = {M{\"u}hlbauer, Mathias Josef}, title = {Nanolithography on Mercury Telluride}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-137152}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Topological insulators belong to a new quantum state of matter that is currently one of the most recognized research fields in condensed matter physics. Strained bulk HgTe and HgTe/HgCdTe quantum well structures are currently one of few topological insulator material systems suitable to be studied in transport experiments. In addition HgTe quantum wells provide excellent requirements for the conduction of spintronic experiments. A fundamental requirement for most experiments, however, is to reliably pattern these heterostructures into advanced nano-devices. Nano-lithography on this material system proves to be challenging because of inherent temperature limitations, its high reactivity with various metals and due to its properties as a topological insulator. The current work gives an insight into why many established semiconductor lithography processes cannot be easily transferred to HgTe while providing alternative solutions. The presented developments include novel ohmic contacts, the prevention of metal sidewalls and redeposition fences in combination with low temperature (80 °C) lithography and an adapted hardmask lithography process utilizing a sacrificial layer. In addition we demonstrate high resolution low energy (2.5 kV) electron beam lithography and present an alternative airbridge gating technique. The feasibility of nano-structures on HgTe quantum wells is exemplarily verified in two separate transport experiments. We are first to realize physically etched quantum point contacts in HgTe/HgCdTe high mobility 2DEGs and to prove their controllability via external top-gate electrodes. So far quantum point contacts have not been reported in TI materials. However, these constrictions are part of many proposals to probe the nature of the helical quantum spin Hall edge channels and are suggested as injector and detector devices for spin polarized currents. To confirm their functionality we performed four-terminal measurements of the point contact conductance as a function of external gate voltage. Our measurements clearly exhibit quantized conductance steps in 2e2/h, which is a fundamental characteristic of quantum point contacts. Furthermore we conducted measurements on the formation and control of collimated electron beams, a key feature to realize an all electrical spin-optic device. In a second study several of the newly developed lithography techniques were implemented to produce arrays of nano-wires on inverted and non-inverted HgTe quantum well samples. These devices were used in order to probe and compare the weak antilocalization (WAL) in these structures as a function of magnetic field and temperature. Our measurements reveal that the WAL is almost an order of magnitude larger in inverted samples. This observation is attributed to the Dirac-like dispersion of the energy bands in HgTe quantum wells. The described lithography has already been successfully implemented and adapted in several published studies. All processes have been optimized to guarantee a minimum effect on the heterostructure's properties and the sample surface, which is especially important for probing the topological surface states of strained HgTe bulk layers. Our developments therefore serve as a base for continuous progress to further establish HgTe as a topological insulator and give access to new experiments.}, subject = {Topologischer Isolator}, language = {en} } @phdthesis{Mahmood2015, author = {Mahmood, Zafar}, title = {Effect of cytokine inhibition on peripheral memory B cells in patients with Rheumatoid arthtritis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-117334}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Objective: Rheumatoid arthritis (RA) is a chronic, systemic, inflammatory autoimmune disease. Enhanced B cell activity has been proposed in the pathogenesis of RA along with different pro-inflammatory cytokines such as interleukin 6 (IL-6) and tumor necrosis factor alpha (TNF-α), critically involved in chronic inflammation. Biological agents targeting these cytokines IL-6 and TNF-α have considerably advanced treatment of autoimmunity. Enhanced B cell activity, particularly memory B cells gained particularly interest in evaluating response during therapies from biologics. Human peripheral memory B cells can be distinguished by the phenotypic expression of CD27 and IgD defining three major B cell subpopulations: CD27+IgD+ pre-switch, CD27+IgD- post-switch and CD27-IgD- double negative (DN) memory B cells. Therefore, we analyzed different memory populations during cytokine inhibition by using tocilizumab (anti-IL-6R, TCZ) and adalimumab (anti-TNF-α, ADA), with focus on DN B cells Suspended. DN B cells lacking the conventional memory marker CD27, but due to their mutational Ig repertoire (IgR) considered in the memory compartment. However, only scare data are available for this DN subpopulation in RA. Methods: Phenotype analysis of activation markers (CD95 and ki-67) of B cell and their subsets were compared in RA patients (median age ~56 years) and in HD. DN memory B cells were phenotypically analyzed from RA patients during IL-6R or TNF-α inhibition at baseline week 12, week 24 and 1 year. Single B cell PCR approach was used to study Ig- receptors VH genes and isotype specific genes. Nonparametric Wilcoxon matched pair test and Mann-Whitney U test was used for statistical analysis by using GraphPadPrism 5. Univariate logistic regression was used to calculate odd ratios and correlation using Pearson r using SPSS statistics 22. Results: Surface and intracellular staining of B cells showed a significantly higher percentage of CD95 and ki-67 expressions in RA, which was highest in post-switch memory B cells followed by pre-switch and DN memory B cells. During cytokines (IL-6R \& TNF-α) inhibition, both CD95 and ki-67 expression were significantly reduced at week 12 and 24 along with reduction in their clinical parameters like DAS28, CRP, ESR. Furthermore, the phenotypic analysis in 107 RA patients and 49 healthy donors (HD) showed a significantly expanded population of DN B cells in RA which contain a heterogeneous mixture of IgA, IgG and IgM expressing cells with a clear dominance of IgG+ cells. Pre-therapy analysis of rearranged IgR sequences from patients (n=9) revealed that DN B cells carry rearranged heavy chain gene sequences with a diversified mutational pattern consistent with memory B cells. In contrast to tumor necrosis factor alpha (TNF-alpha) inhibition, a significant reduction in mutational frequency of BCR gene rearrangements at week 12, 24 and 1 year (p < 0.0001) was observed by in vivo IL-6R inhibition. These changes were observed for all BCR isotypes IgG, IgA and IgM at week 12, 24 and 1 year (p < 0.0001). IgA-RF, IgA serum level and IgA+ DN B cells decreased significantly (p < 0.05) at week 12 and week 24 during TCZ. Patients with a good European league against rheumatism (EULAR) response to TCZ had less DN B cells at baseline as compared to moderate responders (p = 0.006). Univariate logistic regression analysis revealed that the frequency of DN B cells at baseline is inversely correlated to a subsequent good EULAR response (p = 0.024) with an odds ratio of 1.48 (95\% confidence interval as 1.05-2.06). Conclusion: Both anti-TNF-α and anti-IL-6R could reduce higher B cell activity and improve disease activity tremendously in RA patients. The heterogeneous DN B cell compartment is expanded in RA and dominated by IgG isotype. TCZ can modulate the mutational status of DN Ig isotype receptors over 1 year. Interestingly, the frequency of DN B cells in RA may serve as a baseline predictor of subsequent EULAR response to TCZ.}, subject = {Arthrosis deformans}, language = {en} } @phdthesis{Greer2015, author = {Greer, Katja}, title = {Essays in Industrial Organization: Vertical Agreements in a Dynamic View}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136939}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {This dissertation deals with the contract choice of upstream suppliers as well as the consequences on competition and efficiency in a dynamic setting with inter-temporal externalities. The introduction explains the motivation of the analysis and the comparison of different contract types, as for example standard contracts like simple two-part tariffs and additional specifications as contracts referencing the quantity of the contract-offering firm or the relative purchase level. The features of specific market structures should be considered in the analysis of specific vertical agreements and their policy implications. In particular, the role of dynamic changes regarding demand and cost parameters may have an influence on the results observed. In the first model, a dominant upstream supplier and a non-strategic rival sell their products to a single downstream firm. The rival supplier faces learning effects which decrease the rival's costs with respect to its previous sales. Therefore, learning effects represent a dynamic competitive threat to the dominant supplier. In this setup, the dominant supplier can react on inter-temporal externalities by specifying its contract to the downstream firm. The model shows that by offering market-share discounts, instead of simple two-part tariffs or quantity discounts, the dominant supplier maximizes long-run profits, and restricts the efficiency gains of its rival. If demand is linear, the market-share discount lowers consumer surplus and welfare. The second model analyzes the strategic use of bilateral contracts in a sequential bargaining game. A dominant upstream supplier and its rival sequentially negotiate with a single downstream firm. The contract choice of the dominant supplier as well as the rival supplier's reaction are investigated. In a single-period sequential contracting game, menus of simple two-part tariffs achieve the industry profit maximizing outcome. In a dynamic setting where the suppliers sequentially negotiate in each period, the dominant supplier uses additional contractual terms that condition on the rival's quantity. Due to the first-mover advantage of the first supplier, the rival supplier is restricted in its contract choice. The consequences of the dominant supplier's contract choice depend on bargaining power. In particular, market-share contracts can be efficiency enhancing and welfare-improving whenever the second supplier has a relatively high bargaining position vis-`a-vis the downstream firm. For a relatively low bargaining position of the rival supplier, the result is similar to the one determined in the first model. We show that results depend on the considered negotiating structure. The third model studies the contract choice of two upstream competitors that simultaneously deal with a common buyer. In a complete information setting where both suppliers get to know whether further negotiations fail or succeed, a singleperiod model solves for the industry-profit maximizing outcome as long as contractual terms define at least a wholesale price and a fixed fee. In contrast, this collusive outcome cannot be achieved in a two-period model with inter-temporal externalities. We characterize the possible market scenarios, their outcomes and consequences on competition and efficiency. Our results demonstrate that in case a rival supplier is restricted in its contract choice, the contract specification of a dominant supplier can partially exclude the competitor. Whenever equally efficient suppliers can both strategically choose contract specifications, the rivals defend their market shares by adapting appropriate contractual conditions. The final chapter provides an overview of the main findings and presents some concluding remarks.}, subject = {Unternehmenskooperation}, language = {en} } @phdthesis{Masis2015, author = {Mas{\´i}s, Jethro}, title = {The Primacy of Phenomenology Over Cognitivism. Towards a Critique of the Computational Theory of Mind}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-136404}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {This investigation deals with the history of the reception of phenomenological philosophy in cognitive science and how this reception has altered and continues to shape the traditional view of cognition inspired by the computer metaphor of mind. The claim will be espoused that cognitive science is not devoid of a philosophical perspective and cognitivism will be characterized precisely as the philosophy behind much work in cognitive science. In conclusion, the irreducibility of philosophical questioning to cognitive science will be defended and reasons will be given as to why it matters to mount such defense.}, subject = {Subjektive Theorie}, language = {en} } @phdthesis{Schneider2015, author = {Schneider, Gudrun}, title = {Effects of adjacent habitats and landscape composition on biodiversity in semi-natural grasslands and biological pest control in oilseed rape fields}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-113549}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {1) Modern European agricultural landscapes form a patchy mosaic of highly fragmented natural and semi-natural habitat remnants embedded in a matrix of intensively managed agricultural land. In those landscapes many organism frequently cross habitat borders including the crop - non-crop boundary, hereby connecting the biotic interactions of multiple habitat types. Therefore biodiversity and ecosystem functions within habitats are expected to depend on adjacent habitat types and the surrounding landscape matrix. In this thesis the biodiversity of non-crop habitats, and ecosystem services and disservices in crop habitats were studied in the human-dominated agricultural landscape in the district Lower Franconia, Bavaria, Germany. First we examined the effect of adjacent habitat type on species composition, diversity and ecosystem functions in semi-natural calcareous grasslands, a biodiversity-rich habitat of high conservation value (chapter 2 and 3). Second we studied the effect of habitat composition in the landscape on herbivory, biological pest control and yield in oilseed rape fields (chapter 4). 2) We examined the effect of adjacent habitat type on the diversity of carabid beetles in 20 calcareous grasslands using pitfall traps. Half of the grasslands were adjacent to a coniferous forest and half to a cereal crop field. We found different species compositions of carabid beetles depending on adjacent habitat type. In addition calcareous grasslands adjacent to crop fields harboured a higher species richness and activity density but a lower evenness of carabid beetles than calcareous grasslands adjacent to forests. These differences can be explained by the spillover of carabid beetles from the adjacent habitats. After crop harvest carabid beetle activity density in crop fields decreased while in parallel the activity density in the calcareous grasslands adjacent to the crop fields increased, indicating an unidirectional carabid beetle spillover. Our results underline that type and management of adjacent habitats affect community composition and diversity in calcareous grasslands. Therefore nature conservation measures, which focused on the improvement of local habitat quality so far, additionally need to consider adjacent habitat type. 3) In addition to carabid beetle communities we also surveyed predation rates of ground-dwelling predators on the same calcareous grasslands in two study periods (June and late August). As ground-dwelling predators of forests or crop fields can move into adjacent calcareous grasslands we expected different predation rates depending on adjacent habitat type. We exposed in total 32.000 lady bird eggs as prey items on the calcareous grasslands in distances of 5 and 20m from the habitat border. We found higher predation rates on calcareous grasslands adjacent to forests than on calcareous grasslands adjacent to crop fields, but only on cool days. On warm days a very high extent (often 100\%) of the exposed prey items were consumed adjacent to both habitat types, which did not allow the detection of possible differences between the adjacent habitat types. Predation rates differed not between the two study periods or the two distances to the habitat edge. The higher predation rates adjacent to forests can be explained by the spillover of ground-dwelling predators from forests into calcareous grasslands. Our results show, that spillover into semi-natural habitats affects ecosystem functioning in addition to species composition and diversity. 4) In chapter 4 of this thesis we examined the effect of spatiotemporal changes in crop cover on pest - natural enemy interactions and crop yields. During two study years we surveyed the abundance of adult and larval pollen beetles, parasitism of pollen beetle larvae by a hymenopteran parasitoid and oilseed rape yields of 36 oilseed rape fields. The surrounding landscape of the fields (1 km radius) differed in the oilseed rape proportion and in the inter-annual change in the oilseed rape proportion since the previous year. We found a dilution effect, i.e. a decreasing abundance with increasing oilseed rape proportions, for pollen beetle larvae and parasitoids in both study years and for adult pollen beetles in one study year. Oilseed rape yields increased with increasing oilseed rape proportions. Inter-annual changes in oilseed rape proportions led to inter-annual crowding and dilution effects for pollen beetles, but had no effect on parasitism or yield. Our results indicate the potential to reduce pest loads and increase yields in intensively managed oilseed rape fields by a coordinated management of the spatiotemporal oilseed rape cover in the landscape. 5) In summary, we showed in this thesis that the biodiversity and functioning of crop and non-crop habitats within agricultural landscapes is affected by the spillover of organisms and thus by the habitat composition in the close surrounding and in the broader landscape context. Spillover affects also ecosystem services and disservices and therefore crop productivity. Thereby the spatial and temporal variation of specific crop types in the landscape can be of particular importance for crop yields. Thus a coordinated landscape wide management can help to optimize both biodiversity conservation and the delivery of ecosystem services and thus crop yields. Future studies integrating landscape effects across several ecosystem functions, multiple taxonomic groups and different crop types are necessary to develop definite landscape management schemes.}, subject = {Landschafts{\"o}kologie}, language = {en} } @phdthesis{Karl2015, author = {Karl, Sabine}, title = {Firm Values and Systemic Stability in Financial Networks}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115739}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Based on the work of Eisenberg and Noe [2001], Suzuki [2002], Elsinger [2009] and Fischer [2014], we consider a generalization of Merton's asset valuation approach where n firms are linked by cross-ownership of equities and liabilities. Each firm is assumed to have a single outstanding liability, whereas its assets consist of one system-exogenous asset, as well as system-endogenous assets comprising some fraction of other firms' equity and liability, respectively. Following Fischer [2014], one can obtain no-arbitrage prices of equity and the recovery claims of liabilities as solutions of a fixed point problem, and hence obtain no-arbitrage prices of the `firm value' of each firm, which is the value of the firm's liability plus the firm's equity. In a first step, we consider the two-firm case where explicit formulae for the no-arbitrage prices of the firm values are available (cf. Suzuki [2002]). Since firm values are derivatives of exogenous asset values, the distribution of firm values at maturity can be determined from the distribution of exogenous asset values. The Merton model and most of its known extensions do not account for the cross-ownership structure of the assets owned by the firm. Therefore the assumption of lognormally distributed exogenous assets leads to lognormally distributed firm values in such models, as the values of the liability and the equity add up to the exogenous asset's value (which has lognormal distribution by assumption). Our work therefore starts from lognormally distributed exogenous assets and reveals how cross-ownership, when correctly accounted for in the valuation process, affects the distribution of the firm value, which is not lognormal anymore. In a simulation study we examine the impact of several parameters (amount of cross-ownership of debt and equity, ratio of liabilities to expected exogenous assets value) on the differences between the distribution of firm values obtained from our model and correspondingly matched lognormal distributions. It becomes clear that the assumption of lognormally distributed firm values may lead to both over- and underestimation of the "true" firm values (within the cross-ownership model) and consequently of bankruptcy risk, too. In a second step, the bankruptcy risk of one firm within the system is analyzed in more detail in a further simulation study, revealing that the correct incorporation of cross-ownership in the valuation procedure is the more important, the tighter the cross-ownership structure between the two firms. Furthermore, depending on the considered type of cross-ownership (debt or equity), the assumption of lognormally distributed firm values is likely to result in an over- resp. underestimation of the actual probability of default. In a similar vein, we consider the Value-at-Risk (VaR) of a firm in the system, which we calculate as the negative α-quantile of the firm value at maturity minus the firm's risk neutral price in t=0, i.e. we consider the (1-α)100\%-VaR of the change in firm value. If we let the cross-ownership fractions (i.e. the fraction that one firm holds of another firm's debt or equity) converge to 1 (which is the supremum of the possible values that cross-ownership fractions can take), we can prove that in a system of two firms, the lognormal model will over- resp. underestimate both univariate and bivariate probabilities of default under cross-ownership of debt only resp. cross-ownership of equity only. Furthermore, we provide a formula that allows us to check for an arbitrary scenario of cross-ownership and any non-negative distribution of exogenous assets whether the approximating lognormal model will over- or underestimate the related probability of default of a firm. In particular, any given non-negative distribution of exogenous asset values (non-degenerate in a certain sense) can be transformed into a new, "extreme" distribution of exogenous assets yielding such a low or high actual probability of default that the approximating lognormal model will over- and underestimate this risk, respectively. After this analysis of the univariate distribution of firm values under cross-ownership in a system of two firms with bivariately lognormally distributed exogenous asset values, we consider the copula of these firm values as a distribution-free measure of the dependency between these firm values. Without cross-ownership, this copula would be the Gaussian copula. Under cross-ownership, we especially consider the behaviour of the copula of firm values in the lower left and upper right corner of the unit square, and depending on the type of cross-ownership and the considered corner, we either obtain error bounds as to how good the copula of firm values under cross-ownership can be approximated with the Gaussian copula, or we see that the copula of firm values can be written as the copula of two linear combinations of exogenous asset values (note that these linear combinations are not lognormally distributed). These insights serve as a basis for our analysis of the tail dependence coefficient of firm values under cross-ownership. Under cross-ownership of debt only, firm values remain upper tail independent, whereas they become perfectly lower tail dependent if the correlation between exogenous asset values exceeds a certain positive threshold, which does not depend on the exact level of cross-ownership. Under cross-ownership of equity only, the situation is reverse in that firm values always remain lower tail independent, but upper tail independence is preserved if and only if the right tail behaviour of both firms' values is determined by the right tail behaviour of the firms' own exogenous asset value instead of the respective other firm's exogenous asset value. Next, we return to systems of n≥2 firms and analyze sensitivities of no-arbitrage prices of equity and the recovery claims of liabilities with respect to the model parameters. In the literature, such sensitivities are provided with respect to exogenous asset values by Gouri{\´e}roux et al. [2012], and we extend the existing results by considering how these no-arbitrage prices depend on the cross-ownership fractions and the level of liabilities. For the former, we can show that all prices are non-decreasing in any cross-ownership fraction in the model, and by use of a version of the Implicit Function Theorem we can also determine exact derivatives. For the latter, we show that the recovery value of debt and the equity value of a firm are non-decreasing and non-increasing in the firm's nominal level of liabilities, respectively, but the firm value is in general not monotone in the firm's level of liabilities. Furthermore, no-arbitrage prices of equity and the recovery claims of liabilities of a firm are in general non-monotone in the nominal level of liabilities of other firms in the system. If we confine ourselves to one type of cross-ownership (i.e. debt or equity), we can derive more precise relationships. All the results can be transferred to risk-neutral prices before maturity. Finally, following Gouri{\´e}roux et al. [2012] and as a kind of extension to the above sensitivity results, we consider how immediate changes in exogenous asset values of one or more firms at maturity affect the financial health of a system of n initially solvent firms. We start with some theoretical considerations on what we call the contagion effect, namely the change in the endogenous asset value of a firm caused by shocks on the exogenous assets of firms within the system. For the two-firm case, an explicit formula is available, making clear that in general (and in particular under cross-ownership of equity only), the effect of contagion can be positive as well as negative, i.e. it can both, mitigate and exacerbate the change in the exogenous asset value of a firm. On the other hand, we cannot generally say that a tighter cross-ownership structure leads to bigger absolute contagion effects. Under cross-ownership of debt only, firms cannot profit from positive shocks beyond the direct effect on exogenous assets, as the contagion effect is always non-positive. Next, we are concerned with spillover effects of negative shocks on a subset of firms to other firms in the system (experiencing non-negative shocks themselves), driving them into default due to large losses in their endogenous asset values. Extending the results of Glasserman and Young [2015], we provide a necessary condition for the shock to cause such an event. This also yields an upper bound for the probability of such an event. We further investigate how the stability of a system of firms exposed to multiple shocks depends on the model parameters in a simulation study. In doing so, we consider three network types (incomplete, core-periphery and ring network) with simultaneous shocks on some of the firms and wiping out a certain percentage of their exogenous assets. Then we analyze for all three types of cross-ownership (debt only, equity only, both debt and equity) how the shock intensity, the shock size, and network parameters as the number of links in the network and the proportion of a firm's debt or equity held within the system of firms influences several output parameters, comprising the total number of defaults and the relative loss in the sum of firm values, among others. Comparing our results to the studies of Nier et al. [2007], Gai and Kapadia [2010] and Elliott et al. [2014], we can only partly confirm their results with respect to the number of defaults. We conclude our work with a theoretical comparison of the complete network (where each firm holds a part of any other firm) and the ring network with respect to the number of defaults caused by a shock on a single firm, as it is done by Allen and Gale [2000]. In line with the literature, we find that under cross-ownership of debt only, complete networks are "robust yet fragile" [Gai and Kapadia, 2010] in that moderate shocks can be completely withstood or drive the firm directly hit by the shock in default, but as soon as the shock exceeds a certain size, all firms are simultaneously in default. In contrast to that, firms default one by one in the ring network, with the first "contagious default" (i.e. a default of a firm not directly hit by the shock) already occurs for smaller shock sizes than under the complete network.}, subject = {Finanzmathematik}, language = {en} } @phdthesis{Bachschmidt2015, author = {Bachschmidt, Theresa}, title = {Magnetic Resonance Imaging in Proximity to Metal Implants at 3 Tesla}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135690}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Magnetic resonance imaging is derogated by the presence of metal implants and image quality is impaired. Artifacts are categorized according to their sources, the differences in susceptibility between metal and tissue and the modulation of the magnetic radiofrequency (RF) transmit field. Generally, these artifacts are intensified at higher field strength. The purpose of this work is to analyze the efficiency of current methods used for metal artifact reduction at 3T and to investigate improvements. The impact of high-bandwidth RF pulses on susceptibility-induced artifacts is tested. In addition, the benefit of a two-channel transmit system with respect to shading close to total hip replacements and other elongated metal structures in parallel to the magnetic field is analyzed. Local transmit/receive coils feature a higher peak B1 amplitude than conventional body coils and thus enable high-bandwidth RF pulses. Susceptibility-induced through-plane distortion relates reciprocally to the RF bandwidth, which is evaluated in vitro for a total knee arthroplasty. Clinically relevant sequences (TSE and SEMAC) with conventional and high RF pulse bandwidths and different contrasts are tested on eight patients with different types of knee implants. Distortion is rated by two radiologists. An additional analysis assesses the capability of a local spine transmit coil. Furthermore, B1 effects close to elongated metal structures are described by an analytical model comprising a water cylinder and a metal rod, which is verified numerically and experimentally. The dependence of the optimal polarization of the transmit B1 field, creating minimum shading, on the position of the metal is analyzed. In addition, the optimal polarization is determined for two patients; its benefit compared to circular polarization is assessed. Phantom experiments confirm the relation of the RF bandwidth and the through-plane distortion, which can be reduced by up to 79\% by exploitation of a commercial local transmit/receive knee coil at 3T. On average, artifacts are rated "hardly visible" for patients with joint arthroplasties, when high-bandwidth RF pulses and SEMAC are used, and for patients with titanium fixtures, when high-bandwidth RF pulses are used in combination with TSE. The benefits of the local spine transmit coil are less compared to the knee coil, but enable a bandwidth 3.9 times as high as the body coil. The modulation of B1 due to metal is approximated well by the model presented and the position of the metal has strong influence on this effect. The optimal polarization can mitigate shading substantially. In conclusion, through-plane distortion and related artifacts can be reduced significantly by the application of high-bandwidth RF pulses by local transmit coils at 3T. Parallel transmission offers an option to substantially reduce shading close to long metal structures aligned with the magnetic field. Effective techniques dedicated for metal implant imaging at 3T are introduced in this work.}, subject = {Kernspintomografie}, language = {en} } @phdthesis{Delto2015, author = {Delto, Carolyn Francesca}, title = {Structural and Biochemical Characterization of the GABA(A) Receptor Interacting Protein Muskelin}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115922}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {In a study from 2011, the protein muskelin was described as a central coordinator of the retrograde transport of GABA(A) receptors in neurons. As muskelin governs the transport along actin filaments as well as microtubules, it might be the first representative of a novel class of regulators, which coordinate cargo transport across the borders of these two independent systems of transport paths and their associated motorproteins. To establish a basis for understanding the mode of operation of muskelin, the aim of this thesis was an in-depth biochemical and structural characterization of muskelin and its interaction with the GABA(A) receptor. One focus of the work was the analysis of the oligomerization of muskelin. As could be demonstrated, the oligomerization is based on two independent interactions mediated by different domains of the protein: a known interaction of the N-terminal discoidin domain with the C-terminal portion, termed head-to-tail interaction, and a dimerization of the LisH motif in muskelin that was so far neglected in the literature. For the detailed studies of both binding events, the solution of a crystal structure of a fragment of muskelin, comprising the Discoidin domain and the LisH motif, was an important basis. The fragment crystallized as a dimer, with dimerization being mediated solely by the LisH motif. Biochemical analysis corroborated that the LisH motif in muskelin serves as a dimerization element, and, moreover, showed that the C-terminal domain of the protein substantially stabilizes this dimerization. In addition, the crystal structure revealed the molecular composition of the surface of the head in the head-to-tail interaction, namely the discoidin domain. This information enabled to map the amino acids contributing to binding, which showed that the binding site of the head-to-tail interaction coincides with the generic ligand binding site of the discoidin domain. As part of the analyses, residues that are critical for LisH-dimerization and the head-to-tail binding, respectively, were identified, whose mutation specifically interfered with each of the interactions separately. These mutations allowed to investigate the interplay of these interactions during oligomerization. It could be shown that recombinant muskelin assembles into a tetramer to which both interactions, the LisH-dimerization and the head-to-tail binding, contribute independently. When one of the two interactions was disturbed, only a dimer mediated via the respective other interaction could be formed; when both interactions were disturbed, the protein was present as monomer. Furthermore, Frank Heisler in the group of Matthias Kneussel was able to show the drastic impact of an impaired LisH-dimerization on muskelin in cells using these mutations. Disturbing the LisH-dimerization led to a complete redistribution of the originally cytoplasmic muskelin to the nucleus which was accompanied by a severe impairment of its function during GABA(A) receptor transport. Following up on these results in an analysis of muskelin variants, for which alterations of the subcellular localization had been published earlier, the crucial influence of LisH-dimerization to the subcellular localization and thereby the role of muskelin in the cell was confirmed. The biochemical studies of the interaction of muskelin and the alpha1 subunit of the GABA(A) receptor demonstrated a direct binding with an affinity in the low micromolar range, which is mediated primarily by the kelch repeat domain in muskelin. For the binding site on the GABA(A) receptor, it was confirmed that the thirteen most C-terminal residues of the intracellular domain are critical for the binding of muskelin. In accordance with the strong conservation of these residues among the alpha subunits of the GABA(A) receptor, it could be shown that an interaction with muskelin in vitro is also possible for the alpha2 and alpha5 subunits. Based on the comparison of the binding sites between the homologous subunits, tentative conclusions can be drawn about the details of the binding, which may serve as a starting point for follow-up studies. This thesis thereby makes valuable contributions to the understanding of muskelin, in particular the significance of its oligomerization. It furthermore provides an experimental framework for future studies that address related topics, such as the characterization of other muskelin interaction partners, or the questions raised in this work.}, subject = {Oligomerisation}, language = {en} } @phdthesis{Kaethner2015, author = {K{\"a}thner, Ivo R. J.}, title = {Auditory and visual brain-computer interfaces as communication aids for persons with severe paralysis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135477}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Brain-computer interfaces (BCIs) could provide a muscle-independent communication channel to persons with severe paralysis by translating brain activity into device commands. As a means of communication, in particular BCIs based on event-related potentials (ERPs) as control signal have been researched. Most of these BCIs rely on visual stimulation and have been investigated with healthy participants in controlled laboratory environments. In proof-of-principle studies targeted end users gained control over BCI systems; however, these systems are not yet established as an assistive technology for persons who would most benefit from them. The main aim of this thesis is to advance the usability of ERP-BCIs for target users. To this end, five studies with BCIs have been conducted that enabled users to communicate by focusing their attention on external stimuli. Two studies were conducted in order to demonstrate the advantages and to further improve the practical application of visual BCIs. In the first study, mental workload was experimentally manipulated during prolonged BCI operation. The study showed the robustness of the visual ERP-BCI since users maintained a satisfactory level of control despite constant distraction in the form of background noise. Moreover, neurophysiological markers that could potentially serve as indicators of high mental workload or fatigue were revealed. This is a first step towards future applications in which the BCI could adapt to the mental state of the user (e.g. pauses if high mental workload is detected to prevent false selections). In the second study, a head-mounted display (HMD), which assures that stimuli are presented in the field of view of the user, was evaluated. High accuracies and information transfer rates, similar to a conventional display, were achieved by healthy participants during a spelling task. Furthermore, a person in the locked-in state (LIS) gained control over the BCI using the HMD. The HMD might be particularly suited for initial communication attempts with persons in the LIS in situations, where mounting a conventional monitor is difficult or not feasible. Visual ERP-BCIs could prove valuable for persons with residual control over eye muscles and sufficient vision. However, since a substantial number of target users have limited control over eye movements and/or visual impairments, BCIs based on non-visual modalities are required. Therefore, a main aspect of this thesis was to improve an auditory paradigm that should enable motor impaired users to spell by focusing attention on different tones. The two conducted studies revealed that healthy participants were able to achieve high spelling performance with the BCI already in the first session and stress the importance of the choice of the stimulus material. The employed natural tones resulted in an increase in performance compared to a previous study that used artificial tones as stimuli. Furthermore, three out of five users with a varying degree of motor impairments could gain control over the system within the five conducted sessions. Their performance increased significantly from the first to the fifth session - an effect not previously observed for visual ERP-BCIs. Hence, training is particularly important when testing auditory multiclass BCIs with potential users. A prerequisite for user satisfaction is that the BCI technology matches user requirements. In this context, it is important to compare BCIs with already established assistive technology. Thus, the fifth study of this dissertation evaluated gaze dependent methods (EOG, eye tracking) as possible control signals for assistive technology and a binary auditory BCI with a person in the locked-in state. The study participant gained control over all tested systems and rated the ease of use of the BCI as the highest among the tested alternatives, but also rated it as the most tiring due to the high amount of attention that was needed for a simple selection. Further efforts are necessary to simplify operation of the BCI. The involvement of end users in all steps of the design and development process of BCIs will increase the likelihood that they can eventually be used as assistive technology in daily life. The work presented in this thesis is a substantial contribution towards the goal of re-enabling communication to users who cannot rely on motor activity to convey their thoughts.}, subject = {Gehirn-Computer Schnittstelle}, language = {en} } @phdthesis{Scholl2015, author = {Scholl, Christina}, title = {Cellular and molecular mechanisms contributing to behavioral transitions and learning in the honeybee}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115527}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The honeybee Apis mellifera is a social insect well known for its complex behavior and the ability to learn tasks associated with central place foraging, such as visual navigation or to learn and remember odor-reward associations. Although its brain is smaller than 1mm² with only 8.2 x 105 neurons compared to ~ 20 x 109 in humans, bees still show amazing social, cognitive and learning skills. They express an age - related division of labor with nurse bees staying inside the hive and performing tasks like caring for the brood or cleaning, and foragers who collect food and water outside the hive. This challenges foragers with new responsibilities like sophisticated navigation skills to find and remember food sources, drastic changes in the sensory environment and to communicate new information to other bees. Associated with this plasticity of the behavior, the brain and especially the mushroom bodies (MBs) - sensory integration and association centers involved in learning and memory formation - undergo massive structural and functional neuronal alterations. Related to this background my thesis on one hand focuses on neuronal plasticity and underlying molecular mechanisms in the MBs that accompany the nurse - forager transition. In the first part I investigated an endogenous and an internal factor that may contribute to the nurse - forager phenotype plasticity and the correlating changes in neuronal network in the MBs: sensory exposure (light) and juvenile hormone (JH). Young bees were precociously exposed to light and subsequently synaptic complexes (microglomeruli, MG) in the MBs or respectively hemolymph juvenile hormone (JH) levels were quantified. The results show that light input indeed triggered a significant decrease in MG density, and mass spectrometry JH detection revealed an increase in JH titer. Interestingly light stimulation in young bees (presumably nurse bees) triggered changes in MG density and JH levels comparable to natural foragers. This indicates that both sensory stimuli as well as the endocrine system may play a part in preparing bees for the behavioral transition to foraging. Considering a connection between the JH levels and synaptic remodeling I used gene knockdown to disturb JH pathways and artificially increase the JH level. Even though the knockdown was successful, the results show that MG densities remained unchanged, showing no direct effect of JH on synaptic restructuring. To find a potential mediator of structural synaptic plasticity I focused on the calcium-calmodulin-dependent protein kinase II (CaMKII) in the second part of my thesis. CaMKII is a protein known to be involved in neuronal and behavioral plasticity and also plays an important part in structural plasticity reorganizing synapses. Therefore it is an interesting candidate for molecular mechanisms underlying MG reorganization in the MBs in the honeybee. Corresponding to the high abundance of CaMKII in the learning center in vertebrates (hippocampus), CaMKII was shown to be enriched in the MBs of the honeybee. Here I first investigated the function of CaMKII in learning and memory formation as from vertebrate work CaMKII is known to be associated with the strengthening of synaptic connections inducing long term potentiation and memory formation. The experimental approach included manipulating CaMKII function using 2 different inhibitors and a specific siRNA to create a CaMKII knockdown phenotype. Afterwards bees were subjected to classical olfactory conditioning which is known to induce stable long-term memory. All bees showed normal learning curves and an intact memory acquisition, short-term and mid-term memory (1 hour retention). However, in all cases long-term memory formation was significantly disrupted (24 and 72 hour retention). These results suggests the necessity of functional CaMKII in the MBs for the induction of both early and late phases of long-term memory in honeybees. The neuronal and molecular bases underlying long-term memory and the resulting plasticity in behavior is key to understanding higher brain function and phenotype plasticity. In this context CaMKII may be an important mediator inducing structural synaptic and neuronal changes in the MB synaptic network.}, subject = {Biene}, language = {en} } @phdthesis{Konrad2015, author = {Konrad, Tillmann}, title = {Governance of Protected Areas in West Africa - The case of the W-Arly-Pendjari (WAP) Complex in Benin and Burkina Faso}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115331}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Protected areas are the central strategy for preserving biodiversity in the face of overexploitation and global change. To ensure their long-term survival, however, these areas may not be regarded as last havens of wilderness, but as complex social-ecological systems. Modern approaches of protected area (PA) management support this view by balancing conservation and development issues in a sustainable way and adapted to the local context. However, success of these strategies in achieving their aims so far remains limited. This study therefore aimed at analysing processes and outcomes of PA co-management approaches implemented in a large transfrontier conservation area in West Africa. The W-Arly-Pendjari (WAP) complex spans over more than 30.000 square km in Benin, Burkina Faso and Niger and is composed of approximately 20 subunits. Due to national legal and administrative variety as well as a high diversity of local (project) implementation approaches, the general setting resembled a quasi-experimental design facilitating comparative studies. A mix of quantitative (e.g. survey of 549 households) and qualitative (e.g. expert interviews, literature review) methods was used to evaluate the institutional and organisational differences of PA management approaches implemented in the different parts of WAP belonging to Benin and Burkina Faso. I included an analysis of contextual factors (e.g. land-cover-change) and ecological data, but concentrated on the role of local resource users within the co-management arrangements and the effectiveness of governance regimes to deliver positive socio-economic outputs. Exploring the question whether promotion of development in PA surroundings indeed stipulates conservation success (and vice versa) remained challenging: the lack of sound ecological data, a general mismatch of spatial scale in existing data sets, as well as the high complexity of realities on the ground made me refrain from using simplified proxy indicators and (statistical) modelling approaches. I found that the Sudano-Sahelian context is a very difficult one for the implementation of effective participation approaches in the short-term. Political, demographic, socio-economic as well as ecological factors generated a very dynamic situation characterized by limited financial and natural resources as well as weak institutional and organisational settings. Arenas of interaction were often marked rather by a high degree of distrust and competition than by cooperation among actors. Amid all rhetoric, participation in most cases was hence limited to the transfer of (sparse) information, regulated resource access and financial funds. Options for participation of local resource users in decision-making arenas were generally scarce. Underlying processes were dominated by opacity and often low accountability of actors on all levels. Negative, but also positive affection of local residents by PA existence and management hence was high. Governance regimes of the complex performed very differently with regard to their ability of effectively empowering local village participatory bodies (vpb), generating and distributing benefits to individuals and village communities as well as providing mechanisms of conflict resolution. People around Pendjari enjoyed a relative wealth of high value benefits, while negative impacts caused by human-wildlife conflicts were widespread around the complex. Autochthonous farmers usually were better integrated in incentive schemes than were newcomers or herders. While there was functional separation of actors' roles in all parts of WAP, these roles differed significantly between blocks. Existence and functioning of village participatory bodies ameliorated the situation for local resource users fundamentally, as they acted as cut-points between different networks (governmental hierarchies, private concessionaires and local resource users). Vpbs in the Pendjari region proved to be most advanced in their capacity to push resource users' claims in action arenas on the micro-level. Via their union, these associations also managed to impact arenas on the meso- and the macro scale. Project interventions often had catalyst functions to empower local resource users and their vbps. However, they also contributed to social imbalance and intra-organisational competition. My results represent a snapshot of an ongoing process to establish effective co-governance regimes in the WAP-area. Though I identified a large scope of shortcomings, there were also very promising initiatives underway. This work is therefore meant to foster future research and further positive development by giving guidance scholars and decision-makers form the local to the global level alike.}, subject = {Gesch{\"u}tzte Natur}, language = {en} } @phdthesis{Reinthaler2015, author = {Reinthaler, Rolf Walter}, title = {Charge and Spin Transport in Topological Insulator Heterojunctions}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135611}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Over the last decade, the field of topological insulators has become one of the most vivid areas in solid state physics. This novel class of materials is characterized by an insulating bulk gap, which, in two-dimensional, time-reversal symmetric systems, is closed by helical edge states. The latter make topological insulators promising candidates for applications in high fidelity spintronics and topological quantum computing. This thesis contributes to bringing these fascinating concepts to life by analyzing transport through heterostructures formed by two-dimensional topological insulators in contact with metals or superconductors. To this end, analytical and numerical calculations are employed. Especially, a generalized wave matching approach is used to describe the edge and bulk states in finite size tunneling junctions on the same footing. The numerical study of non-superconducting systems focuses on two-terminal metal/topological insulator/metal junctions. Unexpectedly, the conductance signals originating from the bulk and the edge contributions are not additive. While for a long junction, the transport is determined purely by edge states, for a short junction, the conductance signal is built from both bulk and edge states in a ratio, which depends on the width of the sample. Further, short junctions show a non-monotonic conductance as a function of the sample length, which distinguishes the topologically non-trivial regime from the trivial one. Surprisingly, the non-monotonic conductance of the topological insulator can be traced to the formation of an effectively propagating solution, which is robust against scalar disorder. The analysis of the competition of edge and bulk contributions in nanostructures is extended to transport through topological insulator/superconductor/topological insulator tunneling junctions. If the dimensions of the superconductor are small enough, its evanescent bulk modes can couple edge states at opposite sample borders, generating significant and tunable crossed Andreev reflection. In experiments, the latter process is normally disguised by simultaneous electron transmission. However, the helical edge states enforce a spatial separation of both competing processes for each Kramers' partner, allowing to propose an all-electrical measurement of crossed Andreev reflection. Further, an analytical study of the hybrid system of helical edge states and conventional superconductors in finite magnetic fields leads to the novel superconducting quantum spin Hall effect. It is characterized by edge states. Both the helicity and the protection against scalar disorder of these edge states are unaffected by an in-plane magnetic field. At the same time its superconducting gap and its magnetotransport signals can be tuned in weak magnetic fields, because the combination of helical edge states and superconductivity results in a giant g-factor. This is manifested in a non-monotonic excess current and peak splitting of the dI/dV characteristics as a function of the magnetic field. In consequence, the superconducting quantum spin Hall effect is an effective generator and detector for spin currents. The research presented here deepens the understanding of the competition of bulk and edge transport in heterostructures based on topological insulators. Moreover it proposes feasible experiments to all-electrically measure crossed Andreev reflection and to test the spin polarization of helical edge states.}, subject = {Topologischer Isolator}, language = {en} } @phdthesis{Heidinger2015, author = {Heidinger, Ina M. M.}, title = {Beyond metapopulation theory: Determinants of the dispersal capacity of bush crickets and grasshoppers}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-135068}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Habitat fragmentation and destruction due to anthropogenic land use are the major causes of the increasing extinction risk of many species and have a detrimental impact on animal populations in numerous ways. The long-term survival and stability of spatially structured populations in fragmented landscapes largely depends on the colonisation of habitat patches and the exchange of individuals and genes between patches. The degree of inter-patch dispersal, in turn, depends on the dispersal ability of a species (i.e. the combination of physiological and morphological factors that facilitate dispersal) and the landscape structure (i.e. the nature of the landscape matrix or the spatial configuration of habitat patches). As fragmentation of landscapes is increasing and the number of species is continuously declining, a thorough understanding of the causes and consequences of dispersal is essential for managing natural populations and developing effective conservation strategies. In the context of animal dispersal, movement behaviour is intensively investigated with capture-mark-recapture studies. For the analysis of such experiments, the influence of marking technique, handling and translocation of marked animals on movement pattern is of crucial importance since it may mask the effects of the main research question. Chapter 2 of this thesis presents a capture-mark-recapture study investigating the effect of translocation on the movement behaviour of the blue-winged grasshopper Oedipoda caerulescens. Transferring individuals of this grasshopper species to suitable but unfamilliar sites has a significant influence on their movement behaviour. Translocated individuals moved longer distances, showed smaller daily turning angles, and thus their movements were more directed than those of resident individuals. The effect of translocation was most pronounced on the first day of the experiment, but may persist for longer. On average, daily moved distances of translocated individuals were about 50 \% longer than that of resident individuals because they have been transferred to an unfamiliar habitat patch. Depending on experiment duration, this leads to considerable differences in net displacement between translocated and resident individuals. In summary, the results presented in chapter 2 clearly point out that translocation effects should not be disregarded in future studies on arthropod movement, respectively dispersal. Studies not controlling for possible translocation effects may result in false predictions of dispersal behaviour, habitat detection capability or habitat preferences. Beside direct field observations via capture-mark-recapture methods, genetic markers can be used to investigate animal dispersal. Chapter 3 presents data on the genetic structure of populations of Metrioptera bicolor, a wing-dimorphic bush cricket, in a spatially structured landscape with patches of suitable habitat distributed within a diverse matrix of different habitat types. Using microsatellite markers, the effects of geographic distance and different matrix types on the genetic differentiation among 24 local populations was assessed. The results of this study clearly indicate that for M. bicolor the isolation of local populations severely depends on the type of surrounding matrix. The presence of forest and a river running through the study area was positively correlated with the extent of genetic differentiation between populations. This indicates that both matrix types severely impede gene flow and the exchange of individuals between local populations of this bush cricket. In addition, for a subsample of populations which were separated only by arable land or settlements, a significant positive correlation between pairwise genetic and geographic distances exists. For the complete data set, this correlation could not be found. This is most probably due to the adverse effect of forest and river on gene flow which dominates the effect of geographic distance in the limited set of patches investigated in this study. The analyses in chapter 3 clearly emphasize the differential resistance of different habitat types on dispersal and the importance of a more detailed view on matrix 'quality' in metapopulation studies. Studies that focus on the specific dispersal resistance of different matrix types may provide much more detailed information on the dispersal capacity of species than a mere analysis of isolation by distance. Such information is needed to improve landscape oriented models for species conservation. In addition to direct effects on realised dispersal (see chapter 3), landscape structure on its own is known to act as an evolutionary selection agent because it determines the costs and benefits of dispersal. Both morphological and behavioural traits of individuals and the degree to which a certain genotype responds to environmental variation have heritable components, and are therefore expected to be able to respond to selection pressures. Chapter 4 analyses the influence of patch size, patch connectivity (isolation of populations) and sand dynamics (stability of habitat) on thorax- and wing length as proxies for dispersal ability of O. caerulescens in coastal grey dunes. This study revealed clear and sex-specific effects of landscape dynamics and patch configuration on dispersal-related morphology. Males of this grasshopper species were smaller and had shorter wings if patches were larger and less connected. In addition, both sexes were larger in habitat patches with high sand dynamics compared to those in patches with lower dynamics. The investments in wing length were only larger in connected populations when sand dynamics were low, indicating that both landscape and patch-related environmental factors are of importance. These results are congruent with theoretical predictions on the evolution of dispersal in metapopulations. They add to the evidence that dispersal-related morphology varies and is selected upon in recently structured populations even at small spatial scales. Dispersal involves different individual fitness costs like increased predation risk, energy expenditure, costs of developing dispersal-related traits, failure to find new suitable habitat as well as reproductive costs. Therefore, the decision to disperse should not be random but depend on the developmental stage or the physiological condition of an individual just as on actual environmental conditions (context-dependent dispersal, e.g. sex- and wing morph-biased dispersal). Biased dispersal is often investigated by comparing the morphology, physiology and behaviour of females and males or sedentary and dispersive individuals. Studies of biased dispersal in terms of capture-mark-recapture experiments, investigating real dispersal and not routine movements, and genetic proofs of biased dispersal are still rare for certain taxa, especially for orthopterans. However, information on biased dispersal is of great importance as for example, undetected biased dispersal may lead to false conclusions from genetic data. In chapter 5 of this thesis, a combined approach of morphological and genetic analyses was used to investigate biased dispersal of M. bicolor. The presented results not only show that macropterous individuals are predestined for dispersal due to their morphology, the genetic data also indicate that macropters are more dispersive than micropters. Furthermore, even within the group of macropterous individuals, males are supposed to be more dispersive than females. To get an idea of the flight ability of M. bicolor, the morphological data were compared with that of Locusta migratoria and Schistocerca gregaria, which are proved to be very good flyers. Based on the morphological data presented here, one can assume a good flight ability for macropters of M. bicolor, although flying individuals of this species are seldom observed in natural populations.}, subject = {Heuschrecken <{\"U}berfamilie>}, language = {en} } @phdthesis{Bieker2015, author = {Bieker, Steffen}, title = {Time and Spatially Resolved Photoluminescence Spectroscopy of Hot Excitons in Gallium Arsenide}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-134419}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The present thesis investigates the impact of hot exciton effects on the low-temperature time and spatially resolved photoluminescence (PL) response of free excitons in high-purity gallium arsenide (GaAs). The work at hand extends available studies of hot carrier effects, which in bulk GaAs have up to now focused on hot electron populations. In crucial distinction from previous work, we extensively study the free exciton second LO-phonon replica. The benefit of this approach is twofold. First, the two LO phonon-assisted radiative recombination allows to circumvent the inherent interpretation ambiguities of the previously investigated free exciton zero-phonon line. Second, the recombination line shape of the second LO-phonon replica provides direct experimental access to the exciton temperature, thereby enabling the quantitative assessment of hot exciton effects. In the first part of the thesis, we address the influence of transient cooling on the time evolution of an initially hot photocarrier ensemble. To this end, we investigate time-resolved photoluminescence (TRPL) signals detected on the free exciton second LO-phonon replica. Settling a long-standing question, we show by comparison with TRPL transients of the free exciton zero-phonon line that the slow free exciton photoluminescence rise following pulsed optical excitation is dominated by the slow buildup of a free exciton population and not by the relaxation of large K-vector excitons to the Brillouin zone center. To establish a quantitative picture of the delayed photoluminescence onset, we determine the cooling dynamics of the initially hot photocarrier cloud from a time-resolved line shape analysis of the second LO-phonon replica. We demonstrate that the Saha equation, which fundamentally describes the thermodynamic population balance between free excitons and the uncorrelated electron-hole plasma, directly translates the experimentally derived cooling curves into the time-dependent conversion of unbound electron-hole pairs into free excitons. In the second part of the thesis, we establish the impact of hot exciton effects on low-temperature spatially resolved photoluminescence (SRPL) studies. Such experiments are widely used to investigate charge carrier and free exciton diffusion in semiconductors and semiconductor nanostructures. By SRPL spectroscopy of the second LO-phonon replica, we show that above-band gap focused laser excitation inevitably causes local heating in the carrier system, which crucially affects the diffusive expansion of a locally excited exciton packet. Undistorted free exciton diffusion profiles, which are correctly described by the commonly used formulation of the photocarrier diffusion equation, are only observed in the absence of spatial temperature gradients. At low sample temperatures, the reliable determination of free exciton diffusion coefficients from both continuous-wave and time-resolved SRPL spectroscopy requires strictly resonant optical excitation. Using resonant laser excitation, we observe the dimensional crossover of free exciton diffusion in etched wire structures of a thin, effectively two-dimensional GaAs epilayer. When the lateral wire width falls below the diffusion length, the sample geometry becomes effectively one-dimensional. The exciton diffusion profile along the wire stripe is then consistently reproduced by the steady-state solution to the one-dimensional diffusion equation. Finally, we demonstrate the formation of macroscopic free and bound exciton photoluminescence rings in bulk GaAs around a focused laser excitation spot. Both ring formation effects are due to pump-induced local heating in the exciton system. For a quantitative assessment of the mechanism underlying the free exciton ring formation, we directly determine the exciton temperature gradient from a spatially resolved line shape analysis of the free exciton second LO-phonon replica. We demonstrate that a pump-induced hot spot locally modifies the thermodynamic population balance between free excitons and unbound electron-hole pairs described by the Saha equation, which naturally explains the emergence of macroscopic free exciton ring structures. In summary, we demonstrate that quantitative consideration of hot exciton effects provides a coherent picture both of the time-domain free exciton luminescence kinetics and of the distinct spatially resolved photoluminescence patterns developing under the influence of spatial photocarrier diffusion.}, subject = {Exziton}, language = {en} } @phdthesis{Schlichting2015, author = {Schlichting, Matthias}, title = {Light entrainment of the circadian clock: the importance of the visual system for adjusting Drosophila melanogaster´s activity pattern}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-114457}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The change of day and night is one of the challenges all organisms are exposed to, as they have to adjust their physiology and behavior in an appropriate way. Therefore so called circadian clocks have evolved, which allow the organism to predict these cyclic changes of day and night. The underlying molecular mechanism is oscillating with its endogenous period of approximately 24 hours in constant conditions, but as soon as external stimuli, so called Zeitgebers, are present, the clocks adjust their period to exactly 24h, which is called entrainment. Studies in several species, including humans, animals and plants, showed that light is the most important Zeitgeber synchronizing physiology and behavior to the changes of day and night. Nevertheless also other stimuli, like changes in temperature, humidity or social interactions, are powerful Zeitgebers for entraining the clock. This thesis will focus on the question, how light influences the locomotor behavior of the fly in general, including a particular interest on the entrainment of the circadian clock. As a model organism Drosophila melanogaster was used. During the last years several research groups investigated the effect of light on the circadian clock and their results showed that several light input pathways to the clock contribute to wild-type behavior. Most of the studies focused on the photopigment Cryptochrome (CRY) which is expressed in about half of the 150 clock neurons in the fly. CRY is activated by light, degrades the clock protein Timeless (TIM) and hence entrains the clock to the light-dark (LD)-cycle resulting from changes of day and night. However, also flies lacking CRY are still able to entrain their clock mechanism as well as their activity-rest-rhythm to LD-cycles, clearly showing that the visual system of the fly also contributes to clock synchronization. The mechanism how light information from the visual system is transferred to the clock is so far still unknown. This is also true for so-called masking-effects which are changes in the behavior of the animal that are directly initiated by external stimuli and therefore independent of the circadian clock. These effects complement the behavior of the animals as they enable the fly to react quickly to changes in the environment even during the clock-controlled rest state. Both of these behavioral features were analyzed in more detail in this study. On the one hand, we investigated the influence of the compound eyes on the entrainment of the clock neurons and on the other hand, we tried to separate clock-controlled behavior from masking. To do so "nature-like" light conditions were simulated allowing the investigation of masking and entrainment within one experiment. The simulation of moonlight and twilight conditions caused significant changes in the locomotor behavior. Moonlit nights increased nocturnal activity levels and shifted the morning (M) and evening (E) activity bouts into the night. The opposite was true for the investigation of twilight, as the activity bouts were shifted into the day. The simulation of twilight and moonlight within the same experiment further showed that twilight appears to dominate over moonlight, which is in accordance to the assumption that twilight in nature is one of the key signals to synchronize the clock as the light intensity during early dawn rises similarly in every season. By investigating different mutants with impaired visual system we showed that the compound eyes are essential for the observed behavioral adaptations. The inner receptor cells (R7 and R8) are important for synchronizing the endogenous clock mechanism to the changes of day and night. In terms of masking, a complex interaction of all receptor cells seems to adjust the behavioral pattern, as only flies lacking photopigments in inner and outer receptor cells lacked all masking effects. However, not only the compound eyes seem to contribute to rhythmic activity in moonlit nights. CRY-mutant flies shift their E activity bout even more into the night than wild-type flies do. By applying Drosophila genetics we were able to narrow down this effect to only four CRY expressing clock neurons per hemisphere. This implies that the compound eyes and CRY in the clock neurons have antagonistic effects on the timing of the E activity bout. CRY advances activity into the day, whereas the compound eyes delay it. Therefore, wild-type behavior combines both effects and the two light inputs might enable the fly to time its activity to the appropriate time of day. But CRY expression is not restricted to the clock neurons as a previous study showed a rather broad distribution within the compound eyes. In order to investigate its function in the eyes we collaborated with Prof. Rodolfo Costa (University of Padova). In our first study we were able to show that CRY interacts with the phototransduction cascade and thereby influences visual behavior like phototaxis and optomotor response. Our second study showed that CRY in the eyes affects locomotor activity rhythms. It appears to contribute to light sensation without being a photopigment per se. Our results rather indicate that CRY keeps the components of the phototransduction cascade close to the cytoskeleton, as we identified a CRY-Actin interaction in vitro. It might therefore facilitate the transformation of light energy into electric signals. In a further collaboration with Prof. Orie Shafer (University of Michigan) we were able to shed light on the significance of the extraretinal Hofbauer-Buchner eyelet for clock synchronization. Excitation of the eyelet leads to Ca2+ and cAMP increases in specific clock neurons, consequently resulting in a shift of the flies´ rhythmic activity. Taken together, the experiments conducted in this thesis revealed new functions of different eye structures and CRY for fly behavior. We were furthermore able to show that masking complements the rhythmic behavior of the fly, which might help to adapt to natural conditions.}, subject = {Taufliege}, language = {en} } @phdthesis{FirdessaFite2015, author = {Firdessa Fite, Rebuma}, title = {Use of polyhexanide and nanomedicine approach for effective treatments of cutaneous leishmaniasis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-115072}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Despite huge suffering caused by cutaneous leishmaniasis (CL), there is no effective and affordable treatment strategy against CL and no licensed vaccines. The current treatments show limited efficacy and high toxicity. Improved therapies through discovery of novel drugs and/or an alternative treatment approaches are/is urgently needed. We aimed at identifying a novel antileishmanial agent and developing an innovative nanoparticle (NP) based platform for safe and effective treatments against CL. We discovered that polyhexanide (PHMB), a widely used antimicrobial polymer and wound antisepsis, shows an inherent antileishmanial activity at submicromolar concentrations. PHMB appears to kill L. major parasites via a dual mechanism involving disruption of membrane integrity and selective chromosome condensation. However, host chromosomes binding appear to be limited by exclusion from mammalian cell nuclei. Moreover, we attempted to establish effective drug delivery systems that overcome the various shortcomings in the present treatment of CL. In this scenario, we initially studied the cellular interactions of NPs and their uptake mechanisms into mammalian cells before applying them in drug delivery system. We obtained clear evidence for the involvement of multiple endocytic routes to internalize NPs. Physicochemical properties of NPs, cell type, temperature and pathogenesis of the target diseases were shown to be determinant factors. Thereafter, a mechanism based host- and pathogen-directed combination therapy comprising PHMB and CpG ODN immunomodulator was established for overall synergistic effect against CL. It simultaneously targets the pathogen and the host immunity with effective delivery system. The results show that PHMB binds to CpG ODN and form stable nanopolyplexes for efficient cell entry and therapy. The nanopolyplexes displayed enhanced cellular uptake and antileishmanial potency while drastically reducing the toxicity against mammalian cells. In conclusion, our findings clearly indicate that PHMB can be used as effective candidate drug against CL and as non-viral delivery of immunomodulatorynucleic acids. Moreover, our proof-of concept study showed nanomedicine approaches are effective strategy to challenge CL and other human diseases.}, subject = {Leishmaniose}, language = {en} } @phdthesis{MontalbandelBarrio2015, author = {Montalb{\´a}n del Barrio, Itsaso}, title = {Immunosuppressive role of adenosine produced by ectonucleotidases CD39 and CD73 in ovarian cancer, tumor associated macrophages and the host immune system}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133268}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Eierstockkrebs ist der Tumor mit der schlechtesten Heilungsprognose unter allen gyn{\"a}kologischen Malignomen. Allein in Deutschland verursacht er {\"u}ber 6000 Tote pro Jahr. Patienten mit Ovarialkarzinom zeigen erst in einem sehr fortgeschrittenen Stadium charakteristische Symptome. Die einzig m{\"o}glichen Behandlungsmethoden sind dann die operative Tumorentfernung und die Verabreichung von platinbasierter Chemotherapien sowie von Anthrazyklinen. Da die aktuelle 5-Jahres-{\"U}berlebensrate lediglich 20-40\% betr{\"a}gt, besteht ein dringender Bedarf an neuen therapeutischen Optionen. Seit herausgefunden wurde, dass immunologische Parameter das {\"U}berleben der Patienten beeinflussen, ist Immuntherapie zu einer der vielversprechendsten Behandlungsarten des Eierstockkrebs geworden. Das Ziel unserer Forschung ist die {\"U}berwindung der Immunevasion des Tumors durch ein Verhindern der immun-unterdr{\"u}ckenden Mechanismen des Tumors. Im Speziellen befasst sich diese Arbeit mit dem Einfluss von Adenosin, das durch die Ectonukleotidasen CD39 und CD73 in der Mikroumgebung des Tumors gebildet wird. Die CD39- und CD73-Expression der Zellen f{\"u}hrt zu Immunosuppression da diese Ectonukleotidasen immun-stimulierendes, extrazellul{\"a}res ATP in immunsuppressives Adenosin umwandeln. Dies wurde zuerst als Effektormechanismus f{\"u}r regulatorische T-Zellen beschrieben, kann aber auch im Tumormikromilieu von Bedeutung sein. Mit dem Wissen, dass Tumorzellen von Eierstockkrebs-Patientinnen große Mengen der ATP-unterdr{\"u}ckenden Ectonukleotidasen CD39 und CD73 bilden, analysierten wir die adenosinvermittelte Unterdr{\"u}ckendung von Immunantwortenin der Mikroumgebung der Tumorzellen. Im Vergleich zu regulatorischen T Zellen konnten wir bei Eierstockkrebs-Zelllinien und bei aus Aszites gewonnenen Krebszellen eine 30- bis 60-fache Adenosinproduktion messen. Um diesen mutmaßlichen Immunevasions-Mechanismus zu best{\"a}tigen, untersuchten wir seine Auswirkungen auf mehrere Immunzellenpopulationen. CSFE-basierte Experimente zeigten zum Beispiel eine Hemmung der CD4+ T-Zell-Proliferation durch Adenosin, welches von Eierstockkrebs-Zellen produziert wurde. In diesem Zusammenhang haben wir auch eine in-vitro Methode entwickelt, mit der wir die Beeinflussung von Makrophagen durch Eierstockkrebszellen analysieren und modulieren konnten. Neben seiner suppressiven Wirkung {\"u}bt Adenosin auch chemotaktische Effekte auf menschliche Monozyten aus und lockt wahrscheinlich myeloide Vorl{\"a}uferzellen zum Tumorgewebe. Anschließend differenzieren sich menschliche Monozyten in einer von Eierstockkrebszellen geformten Mikroumgebung zu M2 Makrophagen oder tumor-assoziierten Makrophagen (TAMs), die ihrerseits erhebliche Mengen der Adenosin-produzierenden Ectonukleotidasen CD39 und CD73 bilden. W{\"a}hrend wir die Regulierung der Ectonukleotidasen-Expression untersuchten, entdeckten wir auch, dass klinisch genutzte Techniken zur Behandlung von Eierstockkrebs (zum Beispiel die Anwendung von Doxorubicin oder Bestrahlung) in vitro das CD73- und CD39-Level von Eierstockkrebs- und Immunzellen beeinflussen. In dieser Studie zeigen wir, wie dieser behandlungsbedingte Wechsel des ATP/Adenosine-Verh{\"a}ltnisses die Effektorfunktion verschiedener Immunzellen moduliert. Dar{\"u}ber hinaus untersuchen wir den potentiellen Vorteil von klinisch verf{\"u}gbaren, niedermolekularen Inhibitoren f{\"u}r CD39 und CD73, die die Immunsuppression in der Mikroumgebung des Tumors partiell aufheben k{\"o}nnten, und die vor allem in Kombination mit g{\"a}ngigen Behandlungsschemata von großem Interesse sein k{\"o}nnten.}, subject = {Eierstockkrebs}, language = {en} } @phdthesis{Rest2015, author = {Rest, Christina}, title = {Self-assembly of amphiphilic oligo(phenylene ethynylene)-based (bi)pyridine ligands and their Pt(II) and Pd(II) complexes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133248}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {The presented work in the field of supramolecular chemistry describes the synthesis and detailed investigation of (bi)pyridine-based oligo(phenylene ethynylene) (OPE) amphiphiles, decorated with terminal glycol chains. The metal-ligating property of these molecules could be exploited to coordinate to Pd(II) and Pt(II) metal ions, respectively, resulting in the creation of novel metallosupramolecular π-amphiphiles of square-planar geometry. The focus of the presented studies is on the self-assembly behaviour of the OPE ligands and their corresponding metal complexes in polar and aqueous environment. In this way, the underlying aggregation mechanism (isodesmic or cooperative) is revealed and the influence of various factors on the self-assembly process in supramolecular systems is elucidated. In this regard, the effect of the molecular design of the ligand, the coordination to a metal centre as well as the surrounding medium, the pH value and temperature is investigated.}, subject = {Supramolekulare Chemie}, language = {en} } @phdthesis{Fender2015, author = {Fender, Hendrik Eike}, title = {NFATc1 as a Therapeutic Target in Burkitt's Lymphoma}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-133098}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Burkitt's lymphoma (BL) is a very aggressive, germinal center-derived B cell lymphoma. It mostly occurs in children from equatorial Africa who carry both the Epstein-Barr virus and the pathogens for malaria. Aside from this endemic form, there are also sporadic and immunosuppressive forms of BL. The most important characteristics are both the "starry sky" macrophages - from a histological point of view - and the translocation of MYC to one of the immunoglobulin enhancers at the molecular level. In addition to MYC overexpression several mutations, e.g. in p53 or cyclin D3, or constitutive active PI3-kinase signaling contribute to lymphoma genesis. Furthermore, NFAT factors seem also to play a crucial role. In human BL cell lines and murine Myc-driven tumors, the pro survival factor NFATc1 is highly expressed and present in the nuclei. To interfere with the NFAT pathway in lymphoma formation, I tested the "classical" way by inhibition of calcineurin (CN) with CsA, FK506 or VIVIT. Surprisingly, CN inhibition was not sufficient to induce a complete cytoplasmic translocation of NFATc1. Furthermore, CN inhibitors affected cellular survival and proliferation only at atypical high concentrations. Investigation of other pathways, like the PI3-kinase or JAK3, excluded the possibility that they promote NFATc1 activity. Finally, I treated NFATc1 over-expressing BL and pancreatic cancer cell lines with gallium nitrate that turned out to be a very potent inhibitor of cell survival. Gallium nitrate suppressed NFATc1 and MYC transcription though protein stability was not affected. Regarding the regulation of NFATc1 by MYC-overexpression, the data obtained in my work suggested that (1) NFATc1 mRNA level is down-regulated in murine cells, (2) NFATc1 protein level is up-regulated in both human and murine cells, and (3) MYC supports NFATc1's nuclear residence. Finally, I discovered Myc-driven tumor cells as potential "starry sky" macrophages. Under certain conditions, mainly concerning calcium signaling, they change their outward appearance, surface marker expression, and gain the ability for phagocytosis. For the future, the discovery that gallium acts through NFATc1 in BL and probably numerous other cancer types opens up new strategies for therapeutic interventions.}, subject = {Burkitt}, language = {en} } @phdthesis{Ramachandran2015, author = {Ramachandran, Sarada Devi}, title = {Development Of Three-Dimensional Liver Models For Drug Development And Therapeutical Applications}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-113155}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Primary human liver cells such as hepatocytes when isolated and cultured in 2D monolayers, de-differentiate and lose their phenotypic characteristics. In order to maintain the typical polygonal shape of the hepatocytes and their polarization with respect to the neighbouring cells and extra cellular matrix (ECM), it is essential to culture the cells in a three-dimensional (3D) environment. There are numerous culturing techniques available to retain the 3D organization including culturing hepatocytes between two layers of collagen and/or MatrigelTM (Moghe et al. 1997) or in 3D scaffolds (Burkard et al. 2012). In this thesis, three different 3D hepatic models were investigated. 1. To reflect the in vivo situation, the hepatocytes were cultured in 3D synthetic scaffolds called Mimetix®. These were generated using an electrospinning technique using biodegradable polymers. The scaffolds were modified to increase the pore size to achieve an optimal cell function and penetration into the scaffolds, which is needed for good cell-cell contact and to retain long-term phenotypic functions. Different fibre diameters, and scaffold thicknesses were analyzed using upcyte® hepatocytes. The performance of upcyte® hepatocytes in 3D scaffolds was determined by measuring metabolic functions such as cytochrome P450 3A4 (CYP3A4) and MTS metabolism. 2. Apart from maintaining the hepatocytes in 3D orientation, co-culturing the hepatocytes with other non-parenchymal cell types, such as liver sinusoidal endothelial cells (LSECs) and mesenchymal stem cells (MSCs), better reflects the complexity of the liver. Three different upcyte® cell types namely, hepatocytes, LSECs and MSCs, were used to generated 3D liver organoids. The liver organoids were generated and cultured in static and dynamic conditions. Dynamic conditions using Quasi-vivo® chambers were used to reflect the in vivo blood flow. After culturing the cells for 10 days, the structural orientation of cells within the organoids was analyzed. Functional integrity was investigated by measuring CYP3A4 activities. The organoids were further characterized using in situ hybridization for the expression of functional genes, albumin and enzymes regulating glutamine and glucose levels. 3. An ex vivo bioreactor employing a decellularized organic scaffold called a "Biological Vascularized Scaffold" (BioVaSc) was established. Jejunum of the small intestine from pigs was chemically decellularized by retaining the vascular system. The vascular tree of the BioVaSc was repopulated with upcyte® microvascular endothelial cells (mvECs). The lumen of the BioVaSc was then used to culture the liver organoids generated using upcyte® hepatocytes, LSECs and MSCs. The structural organisation of the cells within the organoids was visualized using cell-specific immunohistochemical stainings. The performance of liver organoids in the BioVaSc was determined according to metabolic functions (CYP3A4 activities). This thesis also addresses how in vitro models can be optimized and then applied to drug development and therapy. A comprehensive evaluation was conducted to investigate the application of second-generation upcyte® hepatocytes from 4 donors for inhibition and induction assays, using a selection of reference inhibitors and inducers, under optimized culture conditions. CYP1A2, CYP2B6, CYP2C9 and CYP3A4 were reproducibly inhibited in a concentration-dependent manner and the calculated IC50 values for each compound correctly classified them as potent inhibitors. Upcyte® hepatocytes were responsive to prototypical CYP1A2, CYP2B6, CYP2C9 and CYP3A4 inducers, confirming that they have functional AhR, CAR and PXR mediated CYP regulation. A panel of 11 inducers classified as potent, moderate or non-inducers of CYP3A4 and CYP2B6 were tested. Three different predictive models for CYP3A4 induction, namely the Relative Induction Score (RIS), AUCu/F2 and Cmax,u/Ind50 were analyzed. In addition, PXR (rifampicin) and CAR-selective (carbamazepine and phenytoin) inducers of CYP3A4 and CYP2B6 induction, respectively, were also demonstrated. Haemophilia A occurs due to lack of functional Factor VIII (FVIII) protein in the blood. Different types of cells from hepatic and extrahepatic origin produce FVIII. Supernatants harvested from primary LSECs were evaluated for the presence of secreted functional FVIII. In order to increase the FVIII production, different upcyte® endothelial cells such as blood outgrowth endothelial cells (BOECs), LSECs and mvECs were transduced with lentiviral particles carrying a FVIII transgene. Also, to reflect a more native situation, primary mvECs were selected and modified by transducing them with FVIII lentivirus and investigated as a potential method for generating this coagulation factor.}, subject = {Leberepithelzelle}, language = {en} }