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Institute
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- Julius-von-Sachs-Institut für Biowissenschaften (25)
Sonstige beteiligte Institutionen
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- Rudolf Virchow Center for Integrative and Translational Bioimaging, University of Würzburg (2)
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- Biomedical Center Munich, Department of Physiological Chemistry, Ludwig-Maximilians-Universität München (1)
- CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - the development agency of the Brazilian Federal Government (1)
- CBIO, University of Cape Town, South Africa (1)
- Carl-Ludwig-Institut für Physiologie, Universität Leipzig (1)
- Chair of Experimental Biomedicine I (1)
There is evidence that pheromones are communicative signals in animals. However, the existence and function of human pheromones are still under discussion. During the last years several substances have been labeled as putative human pheromones and especially 4,16–androstadien-3-one (androstadienone), found in male and female sweat, became subject of intense investigation. In contrast to common odors androstadienone presumably modulates human physiological and psychological reactions. Data suggest that androstadienone might influence the processing of visual cues, specifically faces or affective stimuli, via projections from the fusiform gyrus and the amygdala. Moreover, attentional processes may be modulated, which is supported by explicit and implicit behavioral data. This thesis includes three experimental studies examining effects of androstadienone exposure on behavioral and cortical reactions to visual and emotional stimuli. The main hypotheses were that androstadienone might influence human behavior to and perception of visual cues. The first study sought to clarify androstadienone effects on attention-related reactions as well as on behavioral tendencies. Motoric approach-avoidance reactions in response to happy and angry facial expressions were investigated in 30 women and 32 men. Participants either inhaled androstadienone or a control solution, without knowing the real content, while performing the following task: they had to push away or to pull towards them a joystick as fast as possible in reaction to either an angry or a happy cartoon face, which was presented on a computer screen. Results showed that androstadienone modulated the participant´s task performance by accelerating the reaction speed compared to the control compound. Faster reactions were observed particularly when reacting to angry faces but not when reacting to happy faces. This might be explained by the finding that human body odors, the source of androstadienone, were found to activate the human fear system, i.e. modulating fear-related attentional processes. Therefore, the quicker reaction towards angry faces with exposure to androstadienone could be due to an enhanced allocation of attentional resources towards fear-related cues like angry faces. Results also showed that androstadienone enhanced men´s approach tendency towards faces independent of emotional expressions. This observation might be explained by androstadienone´s former shown ability to improve attractiveness ratings of other persons. In this regard, the endogenous odor might enhance evaluations of faces in men and, thus, might improve their willingness to approach social stimuli. In contrast to men, women already showed in the control condition higher approach tendency towards faces. Therefore, androstadienone might rather maintain than enhance the approach score in women. In the second study event-related brain potentials (ERPs) triggered by social and non-social visual stimuli were investigated by means of electroencephalography. In a double-blind between-subjects design 51 women participated. Twenty-eight women inhaled androstadienone, whereas 23 women inhaled a control solution. Four different picture categories, i.e. real faces, pictures with couples, pictures with social and non-social scenes, each including three different valence categories, i.e. positive, negative and neutral, should clarify the stimulus type or context androstadienone is acting on. The androstadienone compared to the control odor did not influence brain responses significantly. Explorative analyses, however, suggested that androstadienone influences the processing of faces. While in the control group angry faces elicited larger P300 amplitudes than happy faces, the androstadienone group showed similar P300 amplitudes concerning all emotional expressions. This observation tentatively indicates that the endogenous odor might indeed affect the neuronal responses to emotional facial stimuli, especially late components reflecting evaluative processes. However, this observation has to be verified and further investigated, in particular whether androstadienone caused reduced responses to angry faces or enhanced responses to happy faces. The third study investigated androstadienone effects on face processing especially in men. ERPs elicited by happy, angry and neutral cartoon faces, which were presented on a computer screen, were measured while 16 men, not knowing the applicated odor, inhaled either androstadienone or a control solution. Exposure to androstadienone significantly increased later neuronal responses, the P300 amplitude. This belated component of the ERP reflects attention allocation and evaluative processes towards important stimuli. Therefore, androstadienone might facilitate central nervous face processing by enhancing attention towards these stimuli. In sum, the current results corroborate the notion of androstadienone as an active social chemosignal. In minute amounts and not detectable as an odor it influenced cortical and motoric reactions. Therefore, it might be concluded that androstadienone indeed affects cognitive functions like attentional processes and in turn affects our behavior. The current results further support the notion that androstadienone acts like a human modulator pheromone, namely modulating ongoing behavior or a psychological reaction to a particular context, changing stimulus sensitivity, salience and sensory-motor integration. However, these conclusions remain tentative until further replication takes place, best in ecologically valid environments. Furthermore, one has to keep in mind that the current studies could not replicate several previous findings and could not verify some hypotheses assuming communicative effects of androstadienone. Thus, the main assumption of this thesis that androstadienone is an active chemosignal is still challenged. Also, whether the term “pheromone” is indeed suitable to label androstadienone remains open.
ATP dependent chromatin remodeling complexes are multifactorial complexes that utilize the energy of ATP to rearrange the chromatin structure. The changes in chromatin structure lead to either increased or decreased DNA accessibility. SWI/SNF is one of such complex. The SWI/SNF complex is involved in both transcription activation and transcription repression. The ATPase subunit of SWI/SNF is called SWI2/SNF2 in yeast and Brahma, Brm, in Drosophila melanogaster. In mammals there are two paralogs of the ATPase subunit, Brm and Brg1. Recent studies have shown that the human Brm is involved in the regulation of alternative splicing. The aim of this study was to investigate the role of Brm in pre-mRNA processing. The model systems used were Chironomus tentans, well suited for in situ studies and D. melanogaster, known for its full genome information. Immunofluorescent staining of the polytene chromosome indicated that Brm protein of C. tentans, ctBrm, is associated with several gene loci including the Balbiani ring (BR) puffs. Mapping the distribution of ctBrm along the BR genes by both immuno-electron microscopy and chromatin immunoprecipitation showed that ctBrm is widely distributed along the BR genes. The results also show that a fraction of ctBrm is associated with the nascent BR pre-mRNP. Biochemical fractionation experiments confirmed the association of Brm with the RNP fractions, not only in C. tentans but also in D. melanogaster and in HeLa cells. Microarray hybridization experiments performed on S2 cells depleted of either dBrm or other SWI/SNF subunits show that Brm affects alternative splicing and 3´ end formation. These results indicated that BRM affects pre-mRNA processing as a component of SWI/SNF complexes. 1
In cultured motoneurons of a mouse model for the motoneuron disease spinal muscular atrophy (SMA), reduced levels of the protein SMN (survival of motoneurons) cause defects in axonal growth. This correlates with reduced β-actin mRNA and protein in growth cones, indicating that anterograde transport and local translation of β-actin mRNA are crucial for motoneuron function. However, direct evidence that indeed local translation is a physiological phenomenon in growth cones of motoneurons was missing. Here, a lentiviral GFP-based reporter construct was established to monitor local protein synthesis of β-actin mRNA. Time-lapse imaging of fluorescence recovery after photobleaching (FRAP) in living motoneurons revealed that β-actin is locally translated in the growth cones of embryonic motoneurons. Interestingly, local translation of the β-actin reporter construct was differentially regulated by different laminin isoforms, indicating that laminins provide extracellular cues for the regulation of local translation in growth cones. Notably, local translation of β-actin mRNA was deregulated when motoneurons of a mouse model for type I SMA (Smn-/-; SMN2) were analyzed. In situ hybridization revealed reduced levels of β-actin mRNA in the axons of Smn-/-; SMN2 motoneurons. The distribution of the β-actin mRNA was not modified by different laminin isoforms as revealed by in situ hybridization against the mRNA of the eGFP encoding element of the β-actin reporter. In case of the mRNA of α-actin and γ-actin isoforms, the endogenous mRNA did not localize to the axons and the localization pattern was not affected by the SMN levels expressed in the cell. Taken together our findings suggest that regulation of local translation of β-actin in growth cones of motoneurons critically depends on laminin signaling and the amount of SMN protein. Embryonic stem cell (ESC)-derived motoneurons are an excellent in vitro system to sort out biochemical and cellular pathways which are defective in neurodegenerative diseases like SMA. Here, a protocol for the differentiation and antibody-mediated enrichment of ESC-derived motoneurons is presented, which was optimized during the course of this study. Notably, this study contributes the production and purification of highly active recombinant sonic hedgehog (Shh), which was needed for the efficient differentiation of mouse ESCs to motoneurons. ESC-derived motoneurons will now offer high amounts of cellular material to allow the biochemical identification of disease-relevant molecular components involved in regulated local protein synthesis in axons and growth cones of motoneurons.
While beneficial sponge-microbe associations have received much attention in recent years, less effort has been undertaken to investigate the interactions of sponges with potentially pathogenic microorganisms. Thus, the aim of this study was to examine two selected Caribbean disease conditions, termed “Sponge Orange Band” and “Sponge White Patch”, via ecological and molecular methods. Sponge Orange Band (SOB) disease affects the prominent Caribbean barrel sponge Xestospongia muta that is counted among the high-microbial-abundance (HMA) sponges, whereas Sponge White Patch (SWP) disease affects the abundant rope sponge Amphimedon compressa that belongs to the low-microbial-abundance (LMA) sponges. I have documented for both Caribbean sponge diseases a disease progression going along with massive tissue destruction as well as loss of the characteristic microbial signatures. Even though new bacteria were shown to colonize the bleached areas, the infection trials revealed in both cases no indication for the involvement of a microbial pathogen as an etiologic agent of disease leaving us still in the dark about the cause of Sponge Orange Band as well as Sponge White Patch disease.
Streptococcus pneumoniae (Pneumococcus) is one of the leading causes of childhood meningitis,pneumonia and sepsis. Despite the availability of childhood vaccination programs and antimicrobial agents, childhood pneumococcal meningitis is still a devastating illness with mortality rates among the highest of any cause of bacterial meningitis. Especially in low-income countries, where medical care is less accessible, mortality rates up to 50 % have been reported. In surviving patients, neurological sequelae, including hearing loss, focal neurological deficits and cognitive impairment, is reported in 30 to 50 %. Growing resistance of pneumococci towards conventional antibiotics emphasize the need for effective therapies and development of effective vaccines against Streptococcus pneumoniae. One major virulence factor of Streptococcus pneumoniae is the protein toxin Pneumolysin (PLY). PLY belongs to a family of structurally related toxins, the so-called cholesterol-dependent cytolysins (CDCs). Pneumolysin is produced by almost all clinical isolates of the bacterium. It is expressed during the late log phase of bacterial growth and gets released mainly through spontaneous autolysis of the bacterial cell. After binding to cholesterol in the host cell membranes, oligomerization of up to 50 toxin monomers and rearrangement of the protein structure, PLY forms large pores, leading to cell lysis in higher toxin concentrations. At sub-lytic concentrations, however, PLY mediates several other effects, such as activation of the classic complement pathway and the induction of apoptosis. First experiments with pneumococcal strains, deficient in pneumolysin, showed a reduced virulence of the organism, which emphasizes the contribution of this toxin to the course of bacterial meningitis and the urgent need for the understanding of the multiple mechanisms leading to invasive pneumococcal disease. The aim of this thesis was to shed light on the contribution of pneumolysin to the course of the disease as well as to the mental illness patients are suffering from after recovery from pneumococcal meningitis. Therefore, we firstly investigated the effects of sub-lytic pneumolysin concentrations onto primary mouse neurons, transfected with a GFP construct and imaged with the help of laser scanning confocal microscopy. We discovered two major morphological changes in the dendrites of primary mouse neurons: The formation of focal swellings along the dendrites (so-called varicosities) and the reduction of dendritic spines. To study these effects in a more complex system, closer to the in vivo situation, we established a reproducible method for acute brain slice culturing. With the help of this culturing method, we were able to discover the same morphological changes in dendrites upon challenge with sub-lytic concentrations of pneumolysin. We were able to reverse the seen alterations in dendritic structure with the help of two antagonists of the NMDA receptor, connecting the toxin´s mode of action to a non-physiological stimulation of this subtype of glutamate receptors. The loss of dendritic spines (representing the postsynapse) in our brain slice model could be verified with the help of brain slices from adult mice, suffering from pneumococcal meningitis. By immunohistochemical staining with an antibody against synapsin I, serving as a presynaptic marker, we were able to identify a reduction of synapsin I in the cortex of mice, infected with a pneumococcal strain which is capable of producing pneumolysin. The reduction of synapsin I was higher in these brain slices compared to mice infected with a pneumococcal strain which is not capable of producing pneumolysin, illustrating a clear role for the toxin in the reduction of dendritic spines. The fact that the seen effects weren´t abolished under calcium free conditions clarifies that not only the influx of calcium through the pneumolysin-pore is responsible for the alterations. These findings were further supported by calcium imaging experiments, where an inhibitor of the NMDA receptor was capable of delaying the time point, when the maximum of calcium influx upon PLY challenge was reached. Additionally, we were able to observe the dendritic beadings with the help of immunohistochemistry with an antibody against MAP2, a neuron-specific cytoskeletal protein. These observations also connect pneumolysin´s mode of action to excitotoxicity, as several studies mention the aggregation of MAP2 in dendritic beadings in response to excitotoxic stimuli. All in all, this is the first study connecting pneumolysin to excitotoxic events, which might be a novel chance to tie in other options of treatment for patients suffering from pneumococcal meningitis.
The probiotic Escherichia coli strain Nissle 1917 (EcN) is one of the few probiotics licensed as a medication in several countries. Best documented is its effectiveness in keeping patients suffering from ulcerative colitis (UC) in remission. This might be due to its ability to induce the production of human beta defensin 2 (HBD2) in a flagellin-dependent way in intestinal epithelial cells. In contrast to ulcerative colitis, for Crohn´s disease (CD) convincing evidence is lacking that EcN might be clinically effective, most likely due to the genetically based inability of sufficient defensin production in CD patients. As a first step in the development of an alternative approach for the treatment of CD patients, EcN strains were constructed which were able to produce human alpha-defensin 5 (HD5) or beta-defensin 2 (HBD2). For that purpose codon-optimized defensin genes encoding either the proform with the signal sequence or the mature form of human alpha defensin 5 (HD5) or the gene encoding HBD2 with or without the signal sequence were cloned in an expression vector plasmid under the control of the T7 promoter. Synthesis of the encoded defensins was shown by Western blots after induction of expression and lysis of the recombinant EcN strains. Recombinant mature HBD2 with an N-terminal His-tag could be purified by Ni-column chromatography and showed antimicrobial activity against E. coli, Salmonella enterica serovar Typhimurium and Listeria monocytogenes. In a second approach, that part of the HBD2-gene which encodes mature HBD2 was fused with yebF gene. The resulting fusion protein YebFMHBD2 was secreted from the encoding EcN mutant strain after induction of expression. Presence of YebFMHBD2 in the medium was not the result of leakage from the bacterial cells, as demonstrated in the spent culture supernatant by Western blots specific for ß-galactosidase and maltose-binding protein. The dialyzed and concentrated culture supernatant inhibited the growth of E. coli, Salmonella enterica serovar Typhimurium and Listeria monocytogenes in radial diffusion assays as well as in liquid coculture. This demonstrates EcN to be a suitable probiotic E. coli strain for the production of certain defensins.
Der Hefepilz Candida albicans gehört zu den fakultativ pathogenen Infektionserregern und ist Teil der natürlichen Mikroflora der Schleimhäute des Verdauungs- und Urogenitaltraktes der meisten gesunden Menschen. Ist das Gleichgewicht der Flora gestört, kann es zu oberflächlichen Mykosen kommen, wie z.B. der oropharyngealen Candidiasis (Mundsoor), die in der Regel durch die Gabe eines Antimykotikums in wenigen Tagen zu behandeln sind. In seltenen Fällen kann es auch zu schwerwiegenden Infektionsverläufen bis hin zu lebensbedrohlichen systemischen Mykosen kommen. Hauptsächlich immunsupprimierte Patienten, wie z.B. AIDS-Patienten oder Personen, die kürzlich einer Organ- oder Knochenmarkstransplantation unterzogen wurden, leiden häufig an oberflächlichen C. albicans-Infektionen. Insbesondere bei wiederkehrenden Infektionen ist der Pilz in der Lage, gegen das häufig verabreichte Medikament Fluconazol eine Resistenz zu entwickeln. Ein wichtiger Mechanismus dieser Resistenzentwicklung ist die Überexpression von Effluxpumpen, die das Medikament aus der Zelle heraustransportieren. Zwei Arten von Effluxpumpen, die eine Rolle in der Resistenzentwicklung in C. albicans spielen, konnten bisher identifiziert werden, die ABC (ATP binding cassette)-Transporter Cdr1 und Cdr2 sowie der MFS (major facilitator superfamily)-Transporter Mdr1. Der Zinc-Cluster Transkriptionsfaktor Mrr1 spielt eine wichtige Rolle in der Regulation der MDR1-E¬ffluxpumpe. Er kontrolliert die MDR1-Expression in Anwesenheit induzierender Substanzen und sogenannte "gain-of-function" Mutationen in MRR1 konnten als die Ursache der konstitutiven MDR1-Hochregulierung und der "Multidrug-Resistance" in C. albicans identifiziert werden. In dieser Arbeit konnte ein Ortholog zu MRR1 aus C. albicans in Candida dubliniensis, einer zu C. albicans nahe verwandten Hefe, identifiziert werden. Es wurde gezeigt, dass in den untersuchten klinischen und in vitro generierten Fluconazol-resistenten C. dubliniensis-Stämmen ebenfalls gain-of-funcion Mutationen in MRR1 die MDR1-Überexpression und eine Resistenz bewirken. Die Ergebnisse demonstrieren, dass der Transkriptionsfaktor Mrr1 eine wichtige Rolle in der Entwicklung der Resistenz in diesen humanpathogenen Pilzen spielt. Bisher ist nicht bekannt, wie der Zinc-Cluster Transkriptionsfaktor MRR1 durch induzierende Substanzen oder gain-of-function Mutationen aktiviert wird. Um zu verstehen, wie die Mrr1- Aktivität reguliert wird, wurden in dieser Arbeit durch Deletionsstudien funktionelle Domänen des Transkriptionsfaktors identifiziert. Um einen besseren Einblick in die Regulation der MDR1-vermittelten Resistenz in C. albicans zu bekommen, wurde in dieser Arbeit die gegenseitige Abhängigkeit von Mrr1 und Cap1 bzw. Upc2 in Bezug auf die MDR1-Expression untersucht. Es wurden ChIP-on-chip Analysen und Transkriptionsprofile mit aktiviertem Mrr1 durchgeführt, um direkte Targets von Mrr1 zu identifizieren. Mit der vorliegenden Arbeit wurde ein wichtiger Beitrag zum Verständnis der Entwicklung der Multidrug-Resistenz in C. albicans geleistet. E¬ffluxpumpen und deren Regulatoren stellen in der Bekämpfung von C. albicans-Infektionen ein interessantes Angriffsziel für die Entwicklung neuer Medikamente und die Weiterentwicklung bereits vorhandender Antimykotika dar.
Malaria and HIV are among the most important global health problems of our time and together are responsible for approximately 3 million deaths annually. These two diseases overlap in many regions of the world including sub-Saharan Africa, Southeast Asia and South America, leading to a higher risk of co-infection. In this study, we generated and characterized hybrid molecules to target P. falciparum and HIV simultaneously for a potential HIV/malaria combination therapy. Hybrid molecules were synthesized by covalent fusion between azidothymidine (AZT) and dihydroartemisinin (DHA), tetraoxane or chloroquine (CQ); and a small library was generated and tested for antiviral and antimalarial activity. Our data suggest that dihyate is the most potent molecule in vitro, with antiplasmodial activity comparable to that of DHA (IC50 = 26 nM, SI > 3000), a moderate activity against HIV (IC50 = 2.9 µM; SI > 35) and safe to HeLa cells at concentrations used in the assay (CC50 > 100 µM). Pharmacokinetic studies further revealed that dihyate is metabolically unstable and is cleaved following an O-dealkylation once in contact with cytochrome P450 enzymes. The later further explains the uneffectiveness of dihyate against the CQ-sensitive P. berghei N strain in mice when administered by oral route at 20 mg/kg. Here, we report on a first approach to develop antimalarial/anti-HIV hybrid molecules and future optimization efforts will aim at producing second generation hybrid molecules to improve activity against HIV as well as compound bioavailability. With the emergence of resistant parasites against all the counterpart drugs of artemisinin derivatives used in artemisinin based combination therapies (ACTs), the introduction of antibiotics in the treatment of malaria has renewed interest on the identification of antibiotics with potent antimalarial properties. In this study we also investigated the antiplasmodial potential of thiostrepton and derivatives, synthesized using combinations of tail truncation, oxidation, and addition of lipophilic thiols to the terminal dehydroamino acid. We showed that derivatives SS231 and SS234 exhibit a better antiplasmodial activity (IC50 = 1 µM SI > 59 and SI > 77 respectively) than thiostrepton (IC50 = 8.95 µM, SI = 1.7). The antiplasmodial activity of these derivatives was observed at concentrations which are not hemolytic and non-toxic to human cell lines. Thiostrepton and derivatives appeared to exhibit transmission blocking properties when administered at their IC50 or IC90 concentrations and our data also showed that they attenuate proteasome activity of Plasmodium, which resulted in an accumulation of ubiquitinated proteins after incubation with their IC80 concentrations. Our results indicate that the parasite’s proteasome could be an attractive target for therapeutic intervention. In this regard, thiostrepton derivatives are promising candidates by dually acting on two independent targets, the proteasome and the apicoplast, with the capacity to eliminate both intraerythrocytic asexual and transmission stages of the parasite. To further support our findings, we evaluated the activity of a new class of antimalarial and proteasome inhibitors namely peptidyl sulfonyl fluorides on gametocyte maturation and analogues AJ34 and AJ38 were able to completely suppress gametocytogenesis at IC50 concentrations (0.23 µM and 0.17 µM respectively) suggesting a strong transmission blocking potential. The proteasome, a major proteolytic complex, responsible for the degradation and re-cycling of non-functional proteins has been studied only indirectly in P. falciparum. In addition, an apparent proteasome-like protein with similarity to bacterial ClpQ/hslV threonine-peptidases was predicted in the parasite. Antibodies were generated against the proteasome subunits alpha type 5 (α5-SU), beta type 5 (β5-SU) and pfhslV in mice and we showed that the proteasome is expressed in both sexual and asexual blood stages of P. falciparum, where they localize in the nucleus and in the cytoplasm. However, expression of PfhslV was only observed in trophozoites and shizonts. The trafficking of the studied proteasome subunits was further investigated by generating parasites expressing GFP tagged proteins. The expression of α5-SU-GFP in transgenic parasite appeared to localize abundantly in the cytoplasm of all blood stages, and no additional information was obtained from this parasite line. In conclusion, our data highlight two new tools towards combination therapy. Hybrid molecules represent promising tools for the cure of co-infected individuals, while very potent antibiotics with a wide scope of activities could be useful in ACTs by eliminating resistant parasites and limiting transmission of both, resistances and disease.
SUMMARY Mast cell activation in allergic and inflammatory disease causes increased vascular permeability and edema. This thesis identifies a paracrine mechanism, by which heparin released from intracellular granules, is involved in mast cell-evoked alteration of endothelial barrier function in vivo. Negatively charged heparin initiated factor XII-driven contact activation. Activated factor XII triggered the formation of the inflammatory mediator bradykinin in plasma. Congenital deficiency and pharmacological targeting of factor XII and kinin B2 receptor provided protection from mast cell-heparin-induced leukocyte-endothelial adhesion and hypotension in rats and mice. Intravital laser scanning microscopy and tracer measurements showed that heparin increased leakage with fluid extravasation in skin microvessels in mice. Deficiency in factor XII or kinin B2 receptor conferred resistance to heparin-induced skin edema and largely protected mice from endothelial barrier dysfunction, caused by allergen-induced mast cell activation and anaphylactic reactions. In contrast, heparin and mast cell activation caused excessive edema formation in mice, deficient in the major inhibitor of factor XII, C1 esterase inhibitor. Hereditary angioedema patients, lacking C1 esterase inhibitor, suffered from allergeninduced edema. The data indicate that mast cell-heparin-initiated bradykinin formation plays a fundamental role in defective barrier function of pathological mast cell-mediated inflammation, hypotension and edema formation.
Urinary tract infection (UTI) is one of the most serious health problems worldwide. It accounts for a million hospital visits annually in the United States. Among the many uropathogenic bacteria, uropathogenic Escherichia coli (UPEC) is the most common causative agent of UTI. However, not all E. coli that inhabit the urinary tract can cause UTI. Some of them thrive for long periods of time in the urinary bladder without causing overt symptoms of infection. This carrier state is called asymptomatic bacteriuria (ABU). E. coli ABU isolates can live in the host without inducing host response due to deletions, insertions and point mutations in the genome leading to the attenuation of virulence genes. They therefore behave in the same way as commensals. Since bacteria that inhabit the urinary tract are said to originate from the lower intestinal tract and ABU behave in a similar way as commensals, this study compared various phenotypic and genotypic characteristics of ABU and commensal E. coli fecal isolates. The two groups did not show a strict clustering with regards to phylogenetic lineage since there appears to be overlaps in their distribution in some clonal complexes. In addition, it was observed that the UPEC virulence genes were more frequently inactivated in ABU than in fecal isolates. Hence, ABU tend to have less functional virulence traits compared to the fecal isolates. The ABU model organism E. coli 83972 which is known not only for its commensal behavior in the urinary bladder but its ability to outcompete other bacteria in the urinary tract is currently being used as prophylactic treatment in patients who have recurrent episodes of UTI at the University Hospital in Lund, Sweden. The pilot studies showed that upon deliberate long-term colonization of the patients with E. coli 83972, they become protected from symptomatic UTI. In this study, the phenotypic and genotypic characteristics of eight re-isolates taken from initially asymptomatically colonized patients enrolled in the deliberate colonization study who reported an episode of symptoms during the colonization period were investigated. Two out of the eight re-isolates were proven to be a result of super infection by another uropathogen. Six re-isolates, on the other hand, were E. coli 83972. The urine re-isolates confirmed to be E. coli 83972 were phenotypically heterogeneous in that they varied in colony size as well as in swarming motility. Four of these re-isolates were morphologically homogenous and similar to the parent isolate E. coli 83972 whereas one of them appeared phenotypically heterogenous as a mixture of smaller and normal-sized colonies. Still another re-isolate phenotypically resembled small colony variants. Meanwhile, three of the six re-isolates did not differ from the parent isolate with regards to motility. On the other hand, three exhibited a markedly increased motility compared to the parent isolate. Transcriptome analysis demonstrated the upregulation of a cascade of genes involved in flagellar expression and biosynthesis in one of the three motile re-isolates. However, upon further investigation, it was found out that the expression of flagella had no effect on bacterial adhesion to host cells in vitro as well as to the induction of host inflammatory markers. Thus, this implies that the increased motility in the re-isolates is used by the bacteria as a fitness factor for its benefit and not as a virulence factor. In addition, among the various deregulated genes, it was observed that gene regulation tends to be host-specific in that there is no common pattern as to which genes are deregulated in the re-isolates. Taken together, results of this study therefore suggest that the use of E. coli 83972 for prophylactic treatment of symptomatic UTI remains to be very promising.
In this thesis I studied psychological aspects in the behaviour of Drosophila, and especially Drosophila larvae. After an introduction where I present the general scientific context and describe the mechanisms of olfactory perception as well as of classical and operant conditioning, I present the different experiments that I realised during my PhD. Perception The second chapter deals with the way adult Drosophila generalise between single odours and binary mixtures of odours. I found that flies perceive a mixture of two odours as equally similar to the two elements composing it; and that the intensity as well as the physico-chemical nature of the elements composing a mixture affect the degree of generalisation between this mixture and one of its elements. These findings now call for further investigation on the physiological level, using functional imaging. Memory The third chapter presents a series of experiments in Drosophila larvae in order to define some characteristics of a new protocol for classical aversive learning which involves associating odours with mechanical disturbance as a punishment. The protocol and the first results should open new doors for the study of classical conditioning in Drosophila larvae, by allowing the comparison between two types of aversive memory (gustatory vs. mechanical reinforcement), including a comparison of their neurogenetic bases. It will also allow enquiries into the question whether these respective memories are specific for the kind of reinforcer used. Agency The fourth chapter documents our attempts to establish operant memory in Drosophila larvae. By analysing the first moments of the test, I could reveal that the larvae modified their behaviour according to their previous operant training. However, this memory seems to be quickly extinguished during the course of the test. We now aim at repeating these results and improving the protocol, in order to be able to systematically study the mechanisms allowing and underlying operant learning in Drosophila larvae. In the fifth chapter, I use the methods developed in chapter four for an analysis of larval locomotion. I determine whether larval locomotion in terms of speed or angular speed is affected by a treatment with the “cognitive enhancer” Rhodiola rosea, or by mutations in the Synapsin or SAP47 genes which are involved in the formation of olfactory memory. I also characterize the modifications induced by the presence of gustatory stimuli in the substrate on which the larvae are crawling. This thesis thus brings new elements to the current knowledge of Drosophila
Der Fluoreszenz-Resonanz-Energie-Transfer ist ein Phänomen, welches erstmals 1948 von Theodor Förster beschrieben wurde. Mit der Entwicklung von Fluoreszenzproteinen konnten in Kombination mit Mikroskopietechniken Einblicke in zellbiologische Vorgänge gewonnen werden, die durch biochemische oder physiologische Experimente nicht möglich sind. Dabei spielt die hohe zeitliche und räumliche Auflösung eine wichtige Rolle. Auf dem Forschungsgebiet der GPCR, welche die größte Gruppe von Membranproteinen bei den Säugetieren darstellen, wurden insbesondere Erkenntnisse über Konformationsänderungen der Rezeptoren, die Kinetik der Rezeptoraktivierung und die Interaktion mit intrazellulären Signalproteinen gewonnen. Der µ-Opioidrezeptor gehört zur Familie der GPCR und stellt aufgrund seiner analgetischen Wirkungen eine wichtige pharmakologische Zielstruktur dar. Das Ziel dieser Arbeit war sowohl den Rezeptor als auch seine Signalwege mittels FRET-Mikroskopie zu untersuchen. Zunächst sollte ein intramolekularer FRET-Sensor des µ-Opioidrezeptors entwickelt werden, dazu wurden basierend auf den Kenntnissen über die Tertiärstruktur und dem Aufbau bereits bekannter GPCR-Sensoren verschiedene Rezeptorkonstrukte kloniert. Bei den Konstrukten wurden entweder zwei Fluoreszenzproteine oder ein Fluoreszenzprotein und ein Fluorophor-bindendes Tetracysteinmotiv kombiniert. Auch die Positionen der eingefügten Sequenzen wurden in den intrazellulären Domänen variiert, da der Rezeptor auf die Modifikationen mit beeinträchtigter Membranlokalisation reagierte. Durch die Optimierung wurden Rezeptoren konstruiert, die an der Zellmembran lokalisiert waren. Jedoch zeigte keines der Rezeptorkonstrukte Funktionalität im Hinblick auf die Rezeptoraktivierung. Im zweiten Teil wurden die pharmakologischen Effekte der Metabolite von Morphin am humanen µ-Opioidrezeptor systematisch analysiert. Dazu wurde die Fähigkeit der Metabolite, Gi-Proteine zu aktivieren und β-Arrestin2 zu rekrutieren, mittels FRET-basierter Messungen an lebenden Zellen untersucht. Außerdem wurde die Affinität der Metabolite zum humanen µ Opioidrezeptor anhand der Verdrängung eines radioaktiven Liganden analysiert. Meine Experimente identifizierten eine Gruppe mit stark agonistischen und eine mit schwach agonistischen Eigenschaften. Die starken Partialagonisten aktivieren den Rezeptor bereits bei nanomolaren Konzentrationen, während die schwachen Metabolite den Rezeptor erst bei Konzentrationen im mikromolaren Bereich aktivieren. Die Metabolite Normorphin, Morphin-6-Glucuronid und 6-Acetylmorphin zeigen geringere Potenz als Morphin bei der Gi-Aktivierung aber überraschenderweise höhere Potenz und Effizienz für die β-Arrestin-Rekrutierung. Dies deutet auf eine bevorzugte Aktivierung von β-Arrestin2 hin. Die aus diesen Studien gewonnenen Ergebnisse liefern Hinweise darauf, welche Metabolite bei der Signalverarbeitung am µ Opioidrezeptor in vivo beteiligt sind.
Pneumolysin, a protein toxin, represents one of the major virulence factors of Streptococcus pneumoniae. This pathogen causes bacterial meningitis with especially high disease rates in young children, elderly people and immunosuppressed patients. The protein toxin belongs to the family of cholesterol-dependent cytolysins, which require membrane cholesterol in order to bind and to be activated. Upon activation, monomers assemble in a circle and undergo conformational change. This conformational change leads to the formation of a pore, which eventually leads to cell lysis. This knowledge was obtained by studies that used a higher concentration compared to the concentration of pneumolysin found in the cerebrospinal fluid of meningitis patients. Thus, a much lower concentration of pneumolysin was used in this work in order to investigate effects of this toxin on primary mouse astrocytes. Previously, a small GTPase activation, possibly leading to cytoskeletal changes, was found in a human neuroblastoma cell line. This led to the hypothesis that pneumolysin can lead to similar cytoskeletal changes in primary cells. The aim of this work was to investigate and characterise the effects of pneumolysin on primary mouse astrocytes in terms of a possible pore formation, cellular trafficking and immunological responses. Firstly, the importance of pore-formation on cytoskeletal changes was to be investigated. In order to tackle this question, wild-type pneumolysin and two mutant variants were used. One variant was generated by exchanging one amino acid in the cholesterol recognising region, the second variant was generated by deleting two amino acids in a protein domain that is essential for oligomerisation. These variants should be incapable of forming a pore and were compared to the wild-type in terms of lytic capacities, membrane binding, membrane depolarisation, pore-formation in artificial membranes (planar lipid bilayer) and effects on the cytoskeleton. These investigations resulted in the finding that the pore-formation is required for inducing cell lysis, membrane depolarisation and cytoskeletal changes in astrocytes. The variants were not able to form a pore in planar lipid bilayer and did not cause cell lysis and membrane depolarisation. However, they bound to the cell membrane to the same extent as the wild-type toxin. Thus, the pore-formation, but not the membrane binding was the cause for these changes. Secondly, the effect of pneumolysin on cellular trafficking was investigated. Here, the variants showed no effect, but the wild-type led to an increase in overall endocytotic events and was itself internalised into the cell. In order to characterise a possible mechanism for internalisation, a GFP-tagged version of pneumolysin was used. Several fluorescence-labelled markers for different endocytotic pathways were used in a co-staining approach with pneumolysin. Furthermore, inhibitors for two key-players in classical endocytotic pathways, dynamin and myosin II, were used in order to investigate classical endocytotic pathways and their possible involvement in toxin internalisation. The second finding of this work is that pneumolysin is taken up into the cell via dynamin- and caveolin-independent pinocytosis, which could transfer the toxin to caveosomes. From there, the fate of the toxin remains unknown. Additionally, pneumolysin leads to an overall increase in endocytotic events. This observation led to the third aim of this work. If the toxin increases the overall rate of endocytosis, the question arises whether toxin internalisation favours bacterial tissue penetration of the host or whether it serves as a defence mechanism of the cell in order to degrade the protein. Thus, several proinflammatory cytokines were investigated, as previous studies describe an effect of pneumolysin on cytokine production. Surprisingly, only interleukin 6-production was increased after toxin-treatment and no effect of endocytotic inhibitors on the interleukin 6-production was observed. The conclusion from this finding is that pneumolysin leads to an increase of interleukin 6, which would not depend on the endocytotic uptake of pneumolysin. The production of interleukin 6 would enhance the production of acute phase proteins, T-cell activation, growth and differentiation. On the one hand, this activation could serve pathogen clearance from infected tissue. On the other hand, the production of interleukin 6 could promote a further penetration of pathogen into host tissue. This question should be further investigated.
Streptococcus pneumoniae is one of the major causes of bacterial meningitis, which mainly affects young infants in the developing countries of Africa, Asia (esp. India) and South America, and which has case fatality rates up to 50% in those regions. Bacterial meningitis comprises an infection of the meninges and the sub-meningeal cortex tissue of the brain, whereat the presence of pneumolysin (PLY), a major virulence factor of the pneumococcus, is prerequisite for the development of a severe outcome of the infection and associated tissue damage (e. g. apoptosis, brain edema, and ischemia). Pneumolysin belongs to the family of pore forming, cholesterol-dependent cytolysins (CDCs), bacterial protein toxins, which basically use membrane-cholesterol as receptor and oligomerize to big aggregates, which induce cell lysis and cell death by disturbance of membrane integrity. Multiple recent studies, including this work, have revealed a new picture of pneumolysin, whose cell-related properties go far beyond membrane binding, pore formation and the induction of cell death and inflammatory responses. For a long time, it has been known that bacteria harm the tissues of their hosts in order to promote their own survival and proliferation. Many bacterial toxins aim to rather hijack cells than to kill them, by interacting with cellular components, such as the cytoskeleton or other endogenous proteins. This study was able to uncover a novel capacity of pneumolysin to interact with components of the actin machinery and to promote rapid, actin-dependent cell shape changes in primary astrocytes. The toxin was applied in disease-relevant concentrations, which were verified to be sub-lytic. These amounts of toxin induced a rapid actin cortex collapse in horizontal direction towards the cell core, whereat membrane integrity was preserved, indicating an actin severing function of pneumolysin, and being consistent with cell shrinkage, displacement, and blebbing observed in live cell imaging experiments. In contrast to neuroblastoma cells, in which pneumolysin led to cytoskeleton remodeling and simultaneously to activation of Rac1 and RhoA, in primary astrocytes the cell shape changes were seen to be primarily independent of small GTPases. The level of activated Rac1 and RhoA did not increase at the early time points after toxin application, when the initial shape changes have been observed, but at later time points when the actin-dependent displacement of cells was slower and less severe, probably presenting the cell’s attempt to re-establish proper cytoskeleton function. A GUV (giant unilamellar vesicle) approach provided insight into the effects of pneumolysin in a biomimetic system, an environment, which is strictly biochemical, but still comprises cellular components, limited to the factors of interest (actin, Arp2/3, ATP, and Mg2+ on one side, and PLY on the other side). This approach was able to show that the wildtype-toxin, but not the Δ6 mutant (mutated in the unfolding domain, and thus non-porous), had the capacity to exhibit its functions through a membrane bilayer, meaning it was able to aggregate actin, which was located on the other side of the membrane, either via direct interaction with actin or in an Arp2/3 activating manner. Taking a closer look at these two factors with the help of several different imaging and biochemical approaches, this work unveiled the capacity of pneumolysin to bind and interact both with actin and Arp2 of the Arp2/3 complex. Pneumolysin was capable to slightly stabilize actin in an actin-pyrene polymerization assay. The same experimental setup was applied to show that the toxin had the capacity to lead to actin polymerization through activation of the Arp2/3 complex. This effect was additionally confirmed with the help of fluorescent microscopy of rhodamine (TRITC)-tagged actin. Strongest Arp2/3 activation, and actin nucleation/polymerization is achieved by the VCA domain of the WASP family proteins. However, addition of PLY to the Arp2/3–VCA system led to an enhanced actin nucleation, suggesting a synergistic activation function of pneumolysin. Hence, two different effects of pneumolysin on the actin cytoskeleton were observed. On the one hand an actin severing property, and on the other hand an actin stabilization property, both of which do not necessarily exclude each other. Actin remodeling is a common feature of bacterial virulence strategies. This is the first time, however, that these properties were assigned to a toxin of the CDC family. Cytoskeletal dysfunction in astrocytes leads to dysfunction and unregulated movement of these cells, which, in context of bacterial meningitis, can favor bacterial penetration and spreading in the brain tissue, and thus comprises an additional role of pneumolysin as a virulence factor of Streptococcus pneumonia in the context of brain infection.
Melanoma arises from the malignant transformation of melanocytes and is one of the most aggressive forms of human cancer. In fish of the genus Xiphophorus, melanoma development, although very rarely, happens spontaneously in nature and can be induced by interspecific crossing. The oncogenic receptor tyrosine kinase, Xmrk, is responsible for melanoma formation in these fishes. Since Xiphophorus are live-bearing fishes and therefore not compatible with embryonic manipulation and transgenesis, the Xmrk melanoma model was brought to the medaka (Oryzias latipes) system. Xmrk expression under the control of the pigment cell specific mitf promoter leads to melanoma formation with 100% penetrance in medaka. Xmrk is an orthologue of the human epidermal growth factor receptor (EGFR) and activates several downstream signaling pathways. Examples of these pathways are the direct phosphorylation of BRAF and Stat5, as well as the enhanced transcription of C-myc. BRAF is a serine-threonine kinase which is found mutated at high frequencies in malignant melanomas. Stat5 is a transcription factor known to be constitutively activated in fish melanoma. C-myc is a transcription factor that is thought to regulate the expression of approximately 15% of all human genes and is involved in cancer progression of a large number of different tumors. To gain new in vivo information on candidate factors known to be involved in melanoma progression, I identified and analysed BRAF, Stat5 and C-myc in the laboratory fish model system medaka. BRAF protein motifs are highly conserved among vertebrates and the results of this work indicate that its function in the MAPK signaling is maintained in medaka. Transgenic medaka lines carrying a constitutive active version of BRAF (V614E) showed more pigmented skin when compared to wild type. Also, some transiently expressing BRAF V614E fishes showed a disrupted eye phenotype. In addition, I was able to identify two Stat5 copies in medaka, named Stat5ab/a and Stat5ab/b. Sequence analysis revealed a higher similarity between both Stat5 sequences when compared to either human Stat5a or Stat5b. This suggests that the two Stat5 copies in medaka arose by an independent duplication processes. I cloned these two Stat5 present in medaka, produced constitutive active and dominant negative gene versions and successfully established transgenic lines carrying each version under the control of the MITF promoter. These lines will help to elucidate questions that are still remaining in Stat5 biology and its function in melanoma progression, like the role of Stat5 phosphorylation on tumor invasiveness. In a third project during my PhD work, I analysed medaka C-myc function and indentified two copies of this gene in medaka, named c-myc17 and c-myc20, according to the chromosome where they are located. I produced conditional transgenic medaka lines carrying the c-myc17 gene coupled to the hormone binding domain of the estrogen receptor to enable specific transgene activation at a given time point. Comparable to human C-myc, medaka C-myc17 is able to induce proliferation and apoptosis in vivo after induction. Besides that, C-myc17 long-term activation led to liver hyperplasia. In summary, the medaka models generated in this work will be important to bring new in vivo information on genes involved in cancer development. Also, the generated transgenic lines can be easily crossed to the melanoma developing Xmrk medaka lines, thereby opening up the possibility to investigate their function in melanoma progression. Besides that, the generated medaka fishes make it possible to follow the whole development of melanocytes, since the embryos are transparent and can be used for high throughput chemical screens.
Growth factor induced signaling cascades are key regulatory elements in tissue development, maintenance and regeneration. Deregulation of the cascades has severe consequences, leading to developmental disorders and neoplastic diseases. As a major function in signal transduction, activating mutations in RAF family kinases are the cause of many human cancers. In the first project described in this thesis we focused on B-RAF V600E that has been identified as the most prevalent B-RAF mutant in human cancer. In order to address the oncogenic function of B-RAF V600E, we have generated transgenic mice expressing the activated oncogene specifically in lung alveolar epithelial type II cells. Constitutive expression of B-RAF V600E caused abnormalities in alveolar epithelium formation that led to airspace enlargements. These lung lesions showed signs of tissue remodeling and were often associated with chronic inflammation and low incidence of lung tumors. Inflammatory cell infiltration did not precede the formation of emphysema-like lesions but was rather accompanied with late tumor development. These data support a model where the continuous regenerative process initiated by oncogenic B-RAF-driven alveolar disruption provides a tumor-promoting environment associated with chronic inflammation. In the second project we focused on wild type B-RAF and its role in an oncogenic-C-RAF driven mouse lung tumor model. Toward this aim we have generated compound mice in which we could conditionally deplete B-RAF in oncogenic-C-RAF driven lung tumors. Conditional elimination of B-RAF did not block lung tumor formation however led to reduced tumor growth. The diminished tumor growth was not caused by increased cell death instead was a consequence of reduced cell proliferation. Moreover, B-RAF ablation caused a reduction in the amplitude of the mitogenic signalling cascade. These data indicate that in vivo B-RAF is dispensable for the oncogenic potential of active C-RAF; however it cooperates with oncogenic C-RAF in the activation of the mitogenic cascade.
Die Therapie von bakteriellen Infektionen beruht heutzutage zum Großteil auf dem Einsatz von Antibiotika. Die schnelle Entwicklung und rasche Verbreitung von resistenten Stämmen mancher Erreger gegen diese Antibiotika stellt ein enormes Problem für das Gesundheitswesen dar. Da momentan zur Antibiotikatherapie keine Alternativen bestehen, kommt der Erforschung neuer potenzieller Wirkstoffe eine sehr große Bedeutung zu. In einem Screening-Verfahren lagen die minimalen Hemmkonzentrationen einiger bisquartärer Bisnaphthalimide gegen Staphylococcus aureus und S. epidermidis im Bereich von 0,6 bis 2,5 µg/ml. Die Substanz mit den geringsten minimalen Hemmkonzentrationen war MT02. Daraufhin wurde das Wirkungsspektrum von MT02 gegen Bakterien detaillierter untersucht und gefunden, dass die Substanz vorwiegend gegen Gram-positive Erreger und nicht gegen Gram-negative Bakterien wirksam ist. Zytotoxizitätstests ergaben eine geringe bis nicht nachweisbare Toxizität gegen verschiedene Zelllinien im Bereich von 73 bis mehr als 150 µg/ml. Um die Wirkungsweise von MT02 genauer zu untersuchen wurden zunächst DNA-Microarray-Untersuchungen an S. aureus durchgeführt. Deren Ergebnisse ließen einen Einfluss der Substanz auf viele Gene des DNA-Metabolismus erkennen. Inkorporationsstudien mittels radioaktiver Ganzzellmarkierung bestätigten die Auswirkung von MT02 auf den DNA-Stoffwechsel. Durch kompetitive Inkubation wurde festgestellt, dass MT02 in der Lage ist Ethidiumbromid von DNA zu verdrängen bzw. dessen Bindung zu verhindern. Genauere Untersuchungen mittels Oberflächen-Plasmon-Resonanz ergaben, dass MT02 konzentrationsabhängig, reversibel und sequenzunspezifisch an DNA bindet. Die thermodynamischen Dissoziationskonstanten lagen im Mittel bei ca. 4 x 10-8 mol/l und beschrieben somit eine relativ starke Bindung von MT02 an DNA. Neben diesem primären Wirkungsmechanismus der DNA-Bindung gaben mehrere Befunde Hinweise auf einen sekundären Wirkmechanismus, der die Zellwand-Struktur bzw. Zellwand-Biosynthese beinhaltet. Eine MT02-resistente Mutante von S. aureus HG001 konnte durch vielfaches Passagieren in MT02-haltigem Medium generiert werden. Diese erzeugte bei Wachstum mit hohen Konzentrationen an MT02 einen roten Phänotyp. Die Natur dieses roten Farbstoffes konnte bislang nicht aufgeklärt werden, jedoch gibt es Hinweise, dass dieser auf Abbauprodukte von MT02 zurückzuführen ist. In einem weiteren Projekt wurde mittels Transkriptionsstudien die Auswirkung von verschiedenen bekannten Antibiotika sowie von neuen Wirkstoffen auf das Transkriptom von S. epidermidis untersucht. Die Ergebnisse dieser Studien können durch vergleichende Analysen als Grundlage für die Einordnung des Wirkmechanismus neuer Substanzen dienen.
The Nucleotide Excision Repair (NER) pathway is able to remove a vast diversity of structurally unrelated DNA lesions and is the only repair mechanism in humans responsible for the excision of UV induced DNA damages. The NER mechanism raises two fundamental questions: 1) How is DNA damage recognition achieved discriminating damaged from non damaged DNA? 2) How is DNA incision regulated preventing endonucleases to cleave DNA non specifically but induce and ensure dual incision of damaged DNA? Thus, the aim of this work was to investigate the mechanisms leading from recognition to incision of damaged DNA. To decipher the underlying process of damage recognition in a prokaryotic model system, the intention of the first part of this work was to co crystallize the helicase UvrB form Bacillus caldotenax together with a DNA substrate comprising a fluorescein adducted thymine as an NER substrate. Incision assays were performed to address the question whether UvrB in complex with the endonuclease UvrC is able to specifically incise damaged DNA employing DNA substrates with unpaired regions at different positions with respect to the DNA lesion. The results presented here indicate that the formation of a specific pre incision complex is independent of the damage sensor UvrA. The preference for 5’ bubble substrate suggests that UvrB is able to slide along the DNA favorably in a 5’ → 3’ direction until it directly encounters a DNA damage on the translocating strand to then recruit the endonuclease UvrC. In the second part of this work, the novel endonuclease Bax1 from Thermoplasma acidophilum was characterized. Due to its close association to archaeal XPB, a potential involvement of Bax1 in archaeal NER has been postulated. Bax1 was shown to be a Mg2+ dependent, structure specific endonuclease incising 3’ overhang substrates in the single stranded region close to the ssDNA/dsDNA junction. Site directed mutagenesis of conserved amino acids was employed to identify putative active site residues of Bax1. In complex with the helicase XPB, however, incision activity of Bax1 is altered regarding substrate specificity. The presence of two distinct XPB/Bax1 complexes with different endonuclease activities indicates that XPB regulates Bax1 incision activity providing insights into the physical and functional interactions of XPB and Bax1.
In this study I investigate the role of Schwann cell and axon-derived trophic signals as modifiers of axonal integrity and sprouting in motoneuron disease and diabetic neuropathy (DNP). The first part of this thesis focuses on the role of the Schwann-cell-derived ciliary neurotrophic factor (CNTF) for compensatory sprouting in a mouse model for mild spinal muscular atrophy (SMA). In the second part, the role of the insulin-like growth factor 1 (IGF-1) and its binding protein 5 (IGFBP-5) is examined in the peripheral nerves of patients with DNP and in two corresponding mouse models. Proximal SMA is caused by homozygous loss or mutation of the SMN1 gene on human chromosome 5. The different forms of SMA can be divided into four groups, depending on the levels of SMN protein produced from a second SMN gene (SMN2) and the severity of the disease. Patients with milder forms of the disease, type III and type IV SMA, normally reach adulthood and regularly show enlargement of motor units, signifying the reinnervation of denervated muscle fibers. However, the underlying mechanisms are not understood. Smn+/- mice, a model of type III/IV SMA, are phenotypically normal, but they reveal progressive loss of motor neurons and denervation of motor endplates starting at 4 weeks of age. The progressive loss of spinal motor neurons reaches 50% at 12 months but muscle strength is not reduced. The first evidence for axonal sprouting as a compensatory mechanism in these animals was the more than 2-fold increase in amplitude of single motor unit action potentials (SMUAP) in the gastrocnemius muscle. Confocal analysis confirmed pronounced sprouting of innervating motor axons. As CNTF is highly expressed in Schwann cells and known to be involved in sprouting, its role for this compensatory sprouting response and the maintenance of muscle strength in Smn+/- mice was investigated. Deletion of CNTF in this mouse model results in reduced sprouting and decline of muscle strength in Smn+/- Cntf-/- mice. These findings indicate that CNTF is necessary for a sprouting response and thus enhances the size of motor units in skeletal muscles of Smn+/- mice. DNP afflicting motor and sensory nerve fibers is a major complication in diabetes mellitus. The underlying cellular mechanisms of motor axon degeneration are poorly understood. IGFBP-5, an inhibitory binding protein for IGF-1, is highly upregulated in peripheral nerves in patients with DNP. The study investigates the pathogenic relevance of this finding in transgenic mice overexpressing IGFBP-5 in motor axons. These mice develop motor axonopathy similar to that seen in DNP. Motor axon degeneration is also observed in mice in which the IGF-1 receptor (IGF-1R) was conditionally depleted in motoneurons, indicating that reduced activity of IGF-1 on IGF-1R in motoneurons is responsible for the observed effect. These data provide evidence that elevated expression of IGFBP-5 in diabetic nerves reduces the availability of IGF-1 for IGF-1R on motor axons leading to progressive neurodegeneration, and thus offers novel treatment strategies.
In recent years high-throughput experiments provided a vast amount of data from all areas of molecular biology, including genomics, transcriptomics, proteomics and metabolomics. Its analysis using bioinformatics methods has developed accordingly, towards a systematic approach to understand how genes and their resulting proteins give rise to biological form and function. They interact with each other and with other molecules in highly complex structures, which are explored in network biology. The in-depth knowledge of genes and proteins obtained from high-throughput experiments can be complemented by the architecture of molecular networks to gain a deeper understanding of biological processes. This thesis provides methods and statistical analyses for the integration of molecular data into biological networks and the identification of functional modules, as well as its application to distinct biological data. The integrated network approach is implemented as a software package, termed BioNet, for the statistical language R. The package includes the statistics for the integration of transcriptomic and functional data with biological networks, the scoring of nodes and edges of these networks as well as methods for subnetwork search and visualisation. The exact algorithm is extensively tested in a simulation study and outperforms existing heuristic methods for the calculation of this NP-hard problem in accuracy and robustness. The variability of the resulting solutions is assessed on perturbed data, mimicking random or biased factors that obscure the biological signal, generated for the integrated data and the network. An optimal, robust module can be calculated using a consensus approach, based on a resampling method. It summarizes optimally an ensemble of solutions in a robust consensus module with the estimated variability indicated by confidence values for the nodes and edges. The approach is subsequently applied to two gene expression data sets. The first application analyses gene expression data for acute lymphoblastic leukaemia (ALL) and differences between the subgroups with and without an oncogenic BCR/ABL gene fusion. In a second application gene expression and survival data from diffuse large B-cell lymphomas are examined. The identified modules include and extend already existing gene lists and signatures by further significant genes and their interactions. The most important novelty is that these genes are determined and visualised in the context of their interactions as a functional module and not as a list of independent and unrelated transcripts. In a third application the integrative network approach is used to trace changes in tardigrade metabolism to identify pathways responsible for their extreme resistance to environmental changes and endurance in an inactive tun state. For the first time a metabolic network approach is proposed to detect shifts in metabolic pathways, integrating transcriptome and metabolite data. Concluding, the presented integrated network approach is an adequate technique to unite high-throughput experimental data for single molecules and their intermolecular dependencies. It is flexible to apply on diverse data, ranging from gene expression changes over metabolite abundances to protein modifications in a combination with a suitable molecular network. The exact algorithm is accurate and robust in comparison to heuristic approaches and delivers an optimal, robust solution in form of a consensus module with confidence values. By the integration of diverse sources of information and a simultaneous inspection of a molecular event from different points of view, new and exhaustive insights into biological processes can be acquired.
There is such vast amount of visual information in our surroundings at any time that filtering out the important information for further processing is a basic requirement for any visual system. This is accomplished by deploying attention to focus on one source of sensory inputs to the exclusion of others (Luck and Mangun 2009). Attention has been studied extensively in humans and non human primates (NHPs). In Drosophila, visual attention was first demonstrated in 1980 (Wolf and Heisenberg 1980) but this field remained largely unexplored until recently. Lately, however, studies have emerged that hypothesize the role of attention in several behaviors but do not specify the characteristic properties of attention. So, the aim of this research was to characterize the phenomenon of visual attention in wild-type Drosophila, including both externally cued and covert attention using tethered flight at a torque meter. Development of systematic quantifiable behavioral tests was a key aspect for this which was not only important for analyzing the behavior of a population of wild-type flies but also for comparing the wild-type flies with mutant flies. The latter would help understand the molecular, genetic, and neuronal bases of attention. Since Drosophila provides handy genetic tools, a model of attention in Drosophila will serve to the greater questions about the neuronal circuitry and mechanisms involved which might be analogous to those in primates. Such a model might later be used in research involving disorders of attention. Attention can be guided to a certain location in the visual field by the use of external cues. Here, using visual cues the attention of the fly was directed to one or the other of the two visual half-fields. A simple yet robust paradigm was designed with which the results were easily quantifiable. This paradigm helped discover several interesting properties of the cued attention, the most substantial one being that this kind of external guidance of attention is restricted to the lower part of the fly’s visual field. The guiding cue had an after-effect, i.e. it could occur at least up to 2 seconds before the test and still bias it. The cue could also be spatially separated from the test by at least 20° and yet attract the attention although the extent of the focus of attention (FoA) was smaller than one lower visual half-field. These observations excluded the possibility of any kind of interference between the test and the cue stimuli. Another interesting observation was the essentiality of continuous visibility of the test stimulus but not the cue for effective cuing. When the contrast of the visual scene was inverted, differences in response frequencies and cuing effects were observed. Syndirectional yaw torque responses became more frequent than the antidirectional responses and cuing was no longer effective in the lower visual field with inverted contrast. Interestingly, the test stimulus with simultaneous displacement of two stripes not only effectuated a phasic yaw torque response but also a landing response. A 50 landing response was produced in more than half of the cases whenever a yaw torque response was produced. Elucidation of the neuronal correlates of the cued attention was commenced. Pilot experiments with hydroxyurea (HU) treated flies showed that mushroom bodies were not required for the kind of guidance of attention tested in this study. Dopamine mutants were also tested for the guidance of attention in the lower visual field. Surprisingly, TH-Gal4/UAS-shits1 flies flew like wild-type flies and also showed normal optomotor response during the initial calibration phase of the experiment but did not show any phasic yaw torque or landing response at 18 °C, 25 °C or 30 °C. dumb2 flies that have almost no D1 dopamine receptor dDA1 expression in the mushroom bodies and the central complex (Kim et al. 2007) were also tested and like THGal4/ UAS-shits1 flies did not show any phasic yaw torque or landing response. Since the dopamine mutants did not show the basic yaw torque response for the test the role of dopamine in attention could not be deduced. A different paradigm would be needed to test these mutants. Not only can attention be guided through external cues, it can also be shifted endogenously (covert attention). Experiments with the windows having oscillating stripes nicely demonstrated the phenomenon of covert attention due to the production of a characteristic yaw torque pattern by the flies. However, the results were not easily quantifiable and reproducible thereby calling for a more systematic approach. Experiments with simultaneous opposing displacements of two stripes provide a promising avenue as the results from these experiments showed that the flies had a higher tendency to deliver one type of response than when the responses would be produced stochastically suggesting that attention increased this tendency. Further experiments and analysis of such experiments could shed more light on the mechanisms of covert attention in flies.
The acquired immunodeficiency syndrome (AIDS) is currently the most infectious disease worldwide. It is caused by the human immunodeficiency virus (HIV). At the moment there are ~33.3 million people infected with HIV. Sub-Saharan Africa, with ~22.5 million people infected accounts for 68% of the global burden. In most African countries antiretroviral therapy (ART) is administered in limited-resource settings with standardised first- and second-line ART regimens. During this study I analysed the therapy-naïve population of Cape Town, South Africa and Mwanza, Tanzania for any resistance associated mutations (RAMs) against protease inhibitors, nucleoside reverse transcriptase inhibitors and non-nucleoside reverse transcriptase inhibitors. My results indicate that HIV-1 subtype C accounts for ~95% of all circulating strains in Cape Town, South Africa. I could show that ~3.6% of the patient derived viruses had RAMs, despite patients being therapy-naïve. In Mwanza, Tanzania the HIV drug resistance (HIVDR) prevalence in the therapy-naïve population was 14.8% and significantly higher in the older population, >25 years. Therefore, the current WHO transmitted HIVDR (tHIVDR) survey that is solely focused on the transmission of HIVDR and that excludes patients over 25 years of age may result in substantial underestimation of the prevalence of HIVDR in the therapy-naïve population. Based on the prevalence rates of tHIVDR in the study populations it is recommended that all HIV-1 positive individuals undergo a genotyping resistance test before starting ART. I also characterized vif sequences from HIV-1 infected patients from Cape Town, South Africa as the Vif protein has been shown to counteract the antiretroviral activity of the cellular APOBEC3G/F cytidine deaminases. There is no selective pressure on the HIV-1 Vif protein from current ART regimens and vif sequences was used as an evolutionary control. As the majority of phenotypic resistance assays are still based on HIV-1 subtype B, I wanted to design an infectious HIV-1 subtype C proviral molecular clone that can be used for in vitro assays based on circulating strains in South Africa. Therefore, I characterized an early primary HIV-1 subtype C isolate from Cape Town, South Africa and created a new infectious subtype C proviral molecular clone (pZAC). The new pZAC virus has a significantly higher transient viral titer after transfection and replication rate than the previously published HIV-1 subtype C virus from Botswana. The optimized proviral molecular clone, pZAC could be used in future cell culture and phenotypic HIV resistance assays regarding HIV-1 subtype C.
Die Amygdala ist ein Kernkomplex, der dicht von serotonergen Afferenzen innerviert wird. Sowohl bei Tieren als auch beim Menschen spielen Interaktionen zwischen dem serotonergen System und der Amygdala bei der Verarbeitung von Reizen, die mit Angst oder Stress assoziiert sind, eine zentrale Rolle. Genetische Variationen im serotonergen System und/oder dauerhafter Stress können dazu führen, dass diese Verarbeitungsprozesse fehlerhaft ablaufen, wodurch Verhaltensanormalitäten bzw. die Entstehung psychiatrischer Erkrankungen begünstigt werden. Die Zielneurone der serotonergen Transmission in der Amygdala, die molekularen Mechanismen möglicher Interaktionen und strukturelle Konsequenzen der Störungen dieser Interaktionen sind jedoch bis zum heutigen Zeitpunkt noch nicht vollständig bekannt. Daher bestand ein Ziel der vorliegenden Arbeit darin, den Einfluss eines Ungleichgewichts im serotonergen System (5-Htt KO) sowie von wiederholtem, sozialem Stress auf die neuronale Morphologie der Amygdala zu analysieren und Zielneurone serotonerger Afferenzen zu identifizieren und zu charakterisieren, um die neuronalen Netzwerke der Emotionsverarbeitung besser verstehen zu können. Um vom 5-Htt–Genotyp abhängige und stressbedingte neuromorphologische Veränderungen zu untersuchen, wurden dreidimensionale Rekonstruktionen von Neuronen der laterobasalen Amygdala von männlichen, adulten Wildtyp (WT)- und 5-Htt KO-Mäusen angefertigt und bezüglich verschiedener morphologischer Parameter ausgewertet. An den Pyramidenzellen wurden nur geringfügige Veränderungen der dendritischen Komplexität, jedoch, im Vergleich zu WT-Mäusen, eine wesentliche Erhöhung der Dornendichte an spezifischen dendritischen Kompartimenten bei gestressten WT-Mäusen, sowie nicht gestressten und gestressten 5-Htt KO-Mäusen nachgewiesen. Im Vergleich zu nicht gestressten WT–Mäusen war die dendritische Dornendichte aller anderen Gruppen gleichermaßen erhöht. Die Sternzelle, zeigten bezüglich der untersuchten Parameter keine morphologischen Veränderungen auf. Eine besondere Subpopulation der Interneurone stellen die NeuropeptidY (NPY)–Neurone der laterobasalen Amygdala dar, da sie in diesen Nuclei anxiolytisch wirken. Es gibt nur wenige Anhaltspunkte darüber, durch welche Systeme NPY–Neurone moduliert werden. Da sowohl NPY–Neurone in der laterobasalen Amygdala als auch das serotonerge System an angstregulierenden Prozessen beteiligt sind, sollte im zweiten Teil der vorliegenden Arbeit untersucht werden, ob es sich bei diesen Neuronen um Zielstrukturen des serotonergen Systems handelt. Mittels licht- und elektronenmikroskopischer Analysen wurden synaptische Kontakte zwischen serotonergen Afferenzen und NPY-immunreaktiven Neuronen in der laterobasalen Amygdala von Ratten verifiziert. Da der funktionelle Einfluss der serotonergen Innervation auf diese Zielneurone von deren Serotoninrezeptor (5-HTR)-Ausstattung abhängt, wurden Koexpressionsanalysen von NPY mRNA mit den mRNAs verschiedener 5-HTR durchgeführt. Die Analysen ergaben, dass NPY mRNA–reaktive Neurone in der laterobasalen Amygdala 5-HT1A und 5-HT2C, jedoch nicht 5-HT3 mRNA koexprimieren. Die in der vorliegenden Arbeit erzielten Resultate liefern neue Erkenntnisse über den Einfluss des serotonergen Systems auf die laterobasale Amygdala von Mäusen und Ratten. Bei den Veränderungen der dendritischen Dornendichte nach sozialen Stresserfahrungen könnte es sich um neuroadaptive bzw. kompensatorische Mechanismen der Pyramidenzellen handeln, die WT-Mäusen eine Anpassung an sich ändernde, negative Umweltbedingungen ermöglicht. Die erhöhte Dornendichte könnte dabei die Ausbildung eines „emotionalen Gedächtnisses“ repräsentieren, das eine flexible Verhaltensantwort auf ein erneutes Auftauchen von Gefahr erlaubt. Eine solche Modulation der Erregbarkeit der laterobasalen Amygdala könnte beispielsweise über eine situationsentsprechende Hemmung des Outputs der Pyramidenzellen durch differentiell aktive inhibitorische Netzwerke erfolgen. Eine differentielle Aktivierung kann z. B. über unterschiedliche Rezeptorausstattungen, wie es in der Subpopulation der NPY–Neurone in der vorliegenden Arbeit nachgewiesen wurde, erfolgen. Das erhöhte angstähnliche Verhalten der 5-Htt KO-Mäuse nach wiederholtem Stress könnte mit der Unfähigkeit zusammenhängen, in entsprechenden Situationen durch Neubildung von Dornen zu reagieren, da die Dornendichte bei diesen Tieren schon unter stressarmen Umweltbedingungen ihr Maximum erreicht hat. Sowohl Fehlfunktionen der neuronalen Plastizität als auch mögliche Fehlfunktionen der differentiellen Inhibierung der Pyramidenzellen durch Interneurone, die durch genetische Variationen und/oder Stress bedingt sein können, könnten eine „offene Tür“ repräsentieren, die zu manifesten Auffälligkeiten im Verhalten bei Tieren führt bzw. auch zur Entstehung bestimmter psychiatrischer Erkrankungen beim Menschen beiträgt.
Attention-deficit/hyperactivity disorder (ADHD) is a genetically complex childhood onset neurodevelopmental disorder which is highly persistent into adulthood. Several chromo-somal regions associated with this disorder were identified previously in genome-wide linkage scans, association (GWA) and copy number variation (CNV) studies. In this work the results of case-control and family-based association studies using a can-didate gene approach are presented. For this purpose, possible candidate genes for ADHD have been finemapped using mass array-based SNP genotyping. The genes KCNIP4, CDH13 and DIRAS2 have been found to be associated with ADHD and, in addition, with cluster B and cluster C personality disorders (PD) which are known to be related to ADHD. Most of the associations found in this work would not withstand correction for multiple testing. However, a replication in several independent populations has been achieved and in conjunction with previous evidence from linkage, GWA and CNV studies, it is assumed that there are true associations between those genes and ADHD. Further investigation of DIRAS2 by quantitative real-time PCR (qPCR) revealed expression in the hippocampus, cerebral cortex and cerebellum of the human brain and a significant increase in Diras2 expression in the mouse brain during early development. In situ hybrid-izations on murine brain slices confirmed the results gained by qPCR in the human brain. Moreover, Diras2 is expressed in the basolateral amygdala, structures of the olfactory system and several other brain regions which have been implicated in the psychopatholo-gy of ADHD. In conclusion, the results of this work provide further support to the existence of a strong genetic component in the pathophysiology of ADHD and related disorders. KCNIP4, CDH13 and DIRAS2 are promising candidates and need to be further examined to get more knowledge about the neurobiological basis of this common disease. This knowledge is essential for understanding the molecular mechanisms underlying the emergence of this disorder and for the development of new treatment strategies.
For a large fraction of the proteins expressed in the human brain only the primary structure is known from the genome project. Proteins conserved in evolution can be studied in genetic models such as Drosophila. In this doctoral thesis monoclonal antibodies (mAbs) from the Wuerzburg Hybridoma library are produced and characterized with the aim to identify the target antigen. The mAb ab52 was found to be an IgM which recognized a cytosolic protein of Mr ~110 kDa on Western blots. The antigen was resolved by two-dimensional gel electrophoresis (2DE) as a single distinct spot. Mass spectrometric analysis of this spot revealed EPS-15 (epidermal growth factor receptor pathway substrate clone 15) to be a strong candidate. Another mAb from the library, aa2, was already found to recognize EPS-15, and comparison of the signal of both mAbs on Western blots of 1D and 2D electrophoretic separations revealed similar patterns, hence indicating that both antigens could represent the same protein. Finally absence of the wild-type signal in homozygous Eps15 mutants in a Western blot with ab52 confirmed the ab52 antigen to be EPS-15. Thus both the mAbs aa2 and ab52 recognize the Drosophila homologue of EPS-15. The mAb aa2, being an IgG, is more suitable for applications like immunoprecipitation (IP). It has already been submitted to the Developmental Studies Hybridoma Bank (DSHB) to be easily available for the entire research community. The mAb na21 was also found to be an IgM. It recognizes a membrane associated antigen of Mr ~10 kDa on Western blots. Due to the membrane associated nature of the protein, it was not possible to resolve it by 2DE and due to the IgM nature of the mAb it was not possible to enrich the antigen by IP. Preliminary attempts to biochemically purify the endogenously expressed protein from the tissue, gave promising results but could not be completed due to lack of time. Thus biochemical purification of the protein seems possible in order to facilitate its identification by mass spectrometry. Several other mAbs were studied for their staining pattern on cryosections and whole mounts of Drosophila brains. However, many of these mAbs stained very few structures in the brain, which indicated that only a very limited amount of protein would be available as starting material. Because these antibodies did not produce signals on Western blots, which made it impossible to enrich the antigens by electrophoretic methods, we did not attempt their purification. However, the specific localization of these proteins makes them highly interesting and calls for their further characterization, as they may play a highly specialized role in the development and/or function of the neural circuits they are present in. The purification and identification of such low expression proteins would need novel methods of enrichment of the stained structures.
Die chronische Herzinsuffizienz stellt nach wie vor eine der häufigsten Todesursachen weltweit dar. Trotz intensiver Forschung ist es bisher nicht möglich die pathophysiologischen Prozesse aufzuhalten. Es wird nach neuen Strategien gesucht, hier therapeutisch eingreifen zu können. Kleine nicht-kodierende RNAs, sogenannte microRNAs (miRNAs), wurden als wichtige Faktoren bei verschiedenen Herzkrankheiten beschrieben. Die Mehrzahl der bisherigen Studien fokussierte sich dabei auf die am stärksten deregulierten miRNAs im erkrankten Herz. In einer automatisierten Analyse im 96 Well-Format untersuchten wir 230 miRNAs auf ihr Potential, in das Größenwachstum von primären Kardiomyozyten einzugreifen. Aus den miRNAs mit den größten Effekten selektierten wir diejenigen, die eine hohe endogene Expression aufwiesen, und unterzogen sie einem Validierungsprozess. Hier konnten wir die Effekte aller pro- (miR-22, miR-30c, miR-30d, miR-212, miR-365) und anti-hypertrophen (miR-27a, miR-27b, miR-133a) miRNAs bestätigen. Die Mehrzahl dieser miRNAs wurde hiermit erstmalig beschrieben, dass sie eine wichtige Rolle beim Größenwachstum von Kardiomyozyten spielen. Sie wären daher interessante Kandidaten für detaillierte funktionelle Studien mit dem Ziel ihr therapeutisches Potential zu evaluieren. In einem früheren genetischen Screen zur Identifizierung von kardialen, sezernierten Faktoren wurde der Protease Inhibitor 16 (PI16) entdeckt, der sich im insuffizienten Herz durch eine starke Akkumulation auszeichnet. Gegenstand des zweiten Teils dieser Arbeit war es, eine Mauslinie zu generieren, in der PI16 global oder konditionell mit Hilfe des Cre/LoxP-Systems ausgeschaltet werden kann. Nach Elektroporation des Pi16floxneo Targeting Vektors in embryonale Stammzellen und Blastozysteninjektion erhielten wir eine Mauslinie, die Träger der zielgerichteten Modifikation des Pi16 Allels war. Mit der globalen genetischen Deletion des LoxP-flankierten Abschnitts von Exon 3 bis 4 konnten wir die Expression des Pi16 Gens komplett unterbinden. Die PI16 Defizienz führte weder im Herz noch in anderen Organen per se zu pathologischen Veränderungen. Zudem war unbekannt, dass PI16 in der gesunden Maus in der kardialen Fibroblastenfraktion enthalten sowie in den Zilien der Epididymis und der Trachea und im Lumen der Schilddrüse lokalisiert ist. Im insuffizienten Herz bestätigten wir eine Akkumulation von PI16, die sich vor allem auf die fibrotischen Bereiche beschränkte. Das lässt Grund zur Annahme, dass die kardiale Funktion von PI16 erst dann offensichtlich wird, wenn man die defizienten Mäuse zukünftig entsprechenden Stressmodellen aussetzt. Das wird zu einem umfassenden Verständnis der kardialen Funktion von PI16 und dessen Potential als therapeutisches Zielmolekül führen.
Type 1 diabetes affects around 0.5% of the population in developed countries and the incidence rates have been rising over the years. The destruction of beta cells is irreversible and the current therapy available to patients only manages the symptoms and does not prevent the associated pathological manifestations. The patients need lifelong therapy and intensive research is being carried out to identify ways to eliminate autoimmune responses directed against pancreatic beta cells and to replace or regenerate beta cells. The work presented herein aimed at analyzing the role of the Th17 T cell subset, characterized by secretion of the pro- inflammatory cytokine IL-17A, in autoimmune diabetes and also at generating a beta cell reporter mouse line in the NOD background, the most widely- used mouse model for type 1 diabetes. We generated IL- 17A knockdown (KD) NOD mice, using RNAi in combination with lentiviral transgenesis. We analyzed diabetes frequency in IL-17A deficient mice and found that the loss of IL-17A did not protect the transgenic mice from diabetes. Based on these observations, we believe that Th17 cells do not play a critical role in type 1 diabetes through the IL-17A pathway, though they might still be involved in the disease process through alternate pathways. We also generated NOD and NOD-SCID mice with a transgene that drives the beta cell specific expression of a luciferase reporter gene. We used a lentiviral construct, which combined a luciferase sequence and a short- hairpin RNA (shRNA) expression cassette, allowing gene- knockdown under the beta cell specific rat insulin promoter (RIP). These mice will be of use in studying beta cell phenotypes resulting from the knockdown of target genes, using non- invasive bioimaging. We believe that the generation of these reporter mouse lines for diabetes studies will prove valuable in future investigations. Furthermore, the demonstration that the loss of IL-17A does not alter susceptibility to type 1 diabetes should help clarify the controversial involvement of Th17 cells in this disease.
According to a changing environment it is crucial for animals to make experience and learn about it. Sensing, integrating and learning to associate different kinds of modalities enables animals to expect future events and to adjust behavior in the way, expected as the most profitable. Complex processes as memory formation and storage make it necessary to investigate learning and memory on different levels. In this context Drosophila melanogaster represents a powerful model organism. As the adult brain of the fly is still quite complex, I chose the third instar larva as model - the more simple the system, the easier to isolate single, fundamental principles of learning. In this thesis I addressed several kinds of questions on different mechanism of olfactory associative and synaptic plasiticity in Drosophila larvae. I focused on short-term memory throughout my thesis. First, investigating larval learning on behavioral level, I developed a one-odor paradigm for olfactory associative conditioning. This enables to estimate the learnability of single odors, reduces the complexity of the task and simplify analyses of "learning mutants". It further allows to balance learnability of odors for generalization-type experiments to describe the olfactory "coding space". Furthermore I could show that innate attractiveness and learnability can be dissociated and found finally that paired presentation of a given odor with reward increase performance, whereas unpaired presentations of these two stimuli decrease performance, indicating that larva are able to learn about the presence as well as about the absence of a reward. Second, on behavioral level, together with Thomas Niewalda and colleagues we focussed on salt processing in the context of choice, feeding and learning. Salt is required in several physiological processes, but can neither be synthesized nor stored. Various salt concentrations shift the valence from attraction to repulsion in reflexive behaviour. Interestingly, the reinforcing effect of salt in learning is shifted by more than one order of magnitude toward higher concentrations. Thus, the input pathways for gustatory behavior appear to be more sensitive than the ones supporting gustatory reinforcement, which is may be due to the dissociation of the reflexive and the reinforcing signalling pathways of salt. Third, in cooperation with Michael Schleyer we performed a series of behavioral gustatory, olfactory preference tests and larval learning experiments. Based on the available neuroanatomical and behavioral data we propose a model regarding chemosensory processing, odor-tastant memory trace formation and the 'decision' like process. It incorporates putative sites of interaction between olfactory and gustatory pathways during the establishment as well as behavioral expression of odor-tastant memory. We claim that innate olfactory behavior is responsive in nature and suggest that associative conditioned behavior is not a simple substitution like process, but driven more likely by the expectation of its outcome. Fourth, together with Birgit Michels and colleagues we investigated the cellular site and molecular mode of Synapsin, an evolutionarily conserved, presynaptic vesicular phosphoprotein and its action in larval learning. We confirmed a previously described learning impairment upon loss of Synapsin. We localized this Synapsin dependent memory trace in the mushroom bodies, a third-order "cortical" brain region, and could further show on molecular level, that Synapsin is as a downstream element of the AC-cAMP-PKA signalling cascade. This study provides a comprehensive chain of explanation from the molecular level to an associative behavioral change. Fifth, in the main part of my thesis I focused on molecular level on another synaptic protein, the Synapse associated protein of 47kDa (Sap47) and its role in larval behavior. As a member of a phylogenetically conserved gene family of hitherto unknown function. It is localized throughout the whole neuropil of larval brains and associated with presynaptic vesicles. Upon loss of Sap47 larvae exhibit normal sensory detection of the to-be-associated stimuli as well as normal motor performance and basic synaptic transmission. Interestingly, short-term plasticity is distorted and odorant–tastant associative learning ability is reduced. This defect in associative function could be rescued by restoring Sap47 expression. Therefore, this report is the first to suggest a function for Sap47 and specifically argues that Sap47 is required for synaptic as well as for behavioral plasticity in Drosophila larva. This prompts the question whether its homologs are required for synaptic and behavioral plasticity also in other species. Further in the last part of my thesis I contributed to the study of Ayse Yarali. Her central topic was the role of the White protein in punishment and relief learning in adult flies. Whereas stimuli that precede shock during training are subsequently avoided as predictors for punishment, stimuli that follow shock during training are later on approached, as they predict relief. Concerning the loss of White we report that pain-relief learning as well as punishment learning is changed. My contribution was a comparison between wild type and the white1118 mutant larvae in odor-reward learning. It turned out that a loss of White has no effect on larval odorant-tastant learning. This study, regarding painrelief learning provides the very first hints concerning the genetic determinants of this form of learning.
Honeybees (Apis mellifera) forage on a great variety of plant species, navigate over large distances to crucial resources, and return to communicate the locations of food sources and potential new nest sites to nest mates using a symbolic dance language. In order to achieve this, honeybees have evolved a rich repertoire of adaptive behaviours, some of which were earlier believed to be restricted to vertebrates. In this thesis, I explore the mechanisms involved in honeybee learning, memory, numerical competence and navigation. The findings acquired in this thesis show that honeybees are not the simple reflex automats they were once believed to be. The level of sophistication I found in the bees’ memory, their learning ability, their time sense, their numerical competence and their navigational abilities are surprisingly similar to the results obtained in comparable experiments with vertebrates. Thus, we should reconsider the notion that a bigger brain automatically indicates higher intelligence.
The present work investigated the neural mechanisms underlying cognitive inhibition/thought suppression in Anderson’s and Green’s Think/No-Think paradigm (TNT), as well as different variables influencing these mechanisms at the cognitive, the neurophysiological, the electrophysiological and the molecular level. Neurophysiological data collected with fNIRS and fMRI have added up to the existing evidence of a fronto-hippocampal network interacting during the inhibition of unwanted thoughts. Some evidence has been presented suggesting that by means of external stimulation of the right dlPFC through iTBS thought suppression might be improved, providing further evidence for an implication of this region in the TNT. A combination of fNIRS with ERP has delivered evidence of a dissociation of early condition-independent attentional and later suppression-specific processes within the dlPFC, both contributing to suppression performance. Due to inconsistencies in the previous literature it was considered how stimulus valence would influence thought suppression by manipulating the emotional content of the to-be-suppressed stimuli. Findings of the current work regarding the ability to suppress negative word or picture stimuli have, however, been inconclusive as well. It has been hypothesized that performance in the TNT might depend on the combination of valence conditions included in the paradigm. Alternatively, it has been suggested that inconsistent findings regarding the suppression of negative stimuli or suppression at all might be due to certain personality traits and/or genetic variables, found in the present work to contribute to thought inhibition in the TNT. Rumination has been shown to be a valid predictor of thought suppression performance. Increased ruminative tendencies led to worse suppression performance which, in the present work, has been linked to less effective recruitment of the dlPFC and in turn less effective down-regulation of hippocampal activity during suppression trials. Trait anxiety has also been shown to interrupt thought suppression despite higher, however, inefficient recruitment of the dlPFC. Complementing the findings regarding ruminative tendencies and decreased thought inhibition a functional polymorphism in the KCNJ6 gene, encompassing a G-to-A transition, has been shown to disrupt thought suppression despite increased activation of the dlPFC. Through the investigation of thought suppression at different levels, the current work adds further evidence to the idea that the TNT reflects an executive control mechanism, which is sensitive to alterations in stimulus valence to some extent, neurophysiological functioning as indicated by its sensitivity to iTBS, functional modulations at the molecular level and personality traits, such as rumination and trait anxiety.
Ziel der vorliegenden Arbeit war es, zu untersuchen, ob nichtionisierende elektromagnetische Strahlung verschiedener Frequenzbereiche Genomschaden hervorrufen kann. Im Rahmen der vorliegenden Arbeit wurde eine Biomonitoring-Studie zu dieser Thematik konzipiert und durchgeführt. Es wurden 131 Probanden detailliert zu ihrer Mobilfunknutzung befragt. Anschließend wurden Mundschleimhautzellen entnommen und für eine mikroskopische Untersuchung aufbereitet und angefärbt. In den Zellen wurden Mikrokerne und andere Kernanomalien quantifiziert. Es zeigte sich keine Erhöhung der Mikrokernfrequenz in Abhängigkeit von der Dauer der Mobiltelefonnutzung. Auch die anderen abgefragten Parameter hatten keinen Einfluss auf die Höhe des Genomschadens. Als Positivkontrollen wurden vier Patienten, die eine lokale Strahlentherapie (ionisierende Strahlung) erhielten, eingeschlossen. Hier zeigte sich eine deutliche Erhöhung der Mikrokernfrequenz. Um festzustellen, ob die Mikrokerninduktion erst bei höheren Leistungsflussdichten als denen, die beim Mobilfunk verwendet werden, auftritt, wurden in-vitro-Versuche durchgeführt, bei denen verschiedene Zelllinien einer Strahlung von 900 MHz ausgesetzt wurden. Nach Exposition und einer Postinkubationsperiode wurden die Zellen fixiert und die Mikrokernfrequenz bestimmt. Neben den Leistungen wurden hier auch die Expositionszeiten und die Postinkubationsperioden variiert. In keinem Fall konnte eine Erhöhung der Mikrokernfrequenz festgestellt werden. Insgesamt konnte ein Einfluss elektromagnetischer Strahlung auf das Genom weder am Menschen im Rahmen einer Biomonitoring-Studie noch an verschiedenen Zelllinien im Rahmen von in-vitro-Versuchen festgestellt werden. Terahertzstrahlung ist elektromagnetische Strahlung im Bereich von 0,1 bis 10 THz, d. h. sie liegt zwischen Mikrowellen und Infrarotlicht. Derzeit wird sie hauptsächlich für spektroskopische Untersuchungen und zur Qualitätskontrolle im Herstellungs-prozess verschiedener Produkte verwendet. Anwendungen in der Sicherheitstechnik (z. B. Ganzkörperscanner) und in der Medizintechnik (z. B. Bildgebung) stehen kurz vor der Markteinführung bzw. sind bereits etabliert. Diese Anwendungen bringen eine Exposition der betroffenen Menschen mit sich. Außerdem wird an weiteren Techniken wie etwa der Datenübertragung gearbeitet. Die Wirkungen auf biologische Systeme sind im Gegensatz zum Mobilfunkbereich bisher nur unzureichend untersucht. Da bisher keine vollständigen Literaturübersichten vorlagen, wurde eine umfassende Literaturrecherche durchgeführt. Ziel war es, alle bisher durchgeführten Studien zu diesem Thema aufzulisten. Um diese Datenbasis zu verbreitern wurden in-vitro-Versuche bei verschiedenen Frequenzen durchgeführt. Als Strahlungsquellen wurden eine Frequenzvervielfacherkaskade (0,106 THz), ein Rückwärtswellen-Oszillator (0,380 THz) und ein Ferninfrarot-Laser (2,520 THz) eingesetzt. Die Strahlung wurde in einen modifizierten Inkubator geführt, so dass die Expositionen bei definierter Temperatur und konstantem CO2-Gehalt durchgeführt werden konnten. Da Terahertzstrahlung durch Wasser sehr stark absorbiert wird, sind bei einer Exposition des Menschen primär die obersten Hautschichten betroffen. Aus diesem Grund wurden primäre Hautfibroblasten und HaCaT-Zellen, eine Keratinozyten-Zelllinie, als biologische Systeme verwendet. Die Zellen wurden für unterschiedliche Zeitperioden mit verschiedenen Leistungsflussdichten exponiert. Anschließend wurden die Zellen für den Comet Assay aufbereitet und analysiert. Der Comet Assay ist eine Methode zur Quantifizierung von Einzel- und Doppelstrangbrüchen der DNA. Weiterhin wurden die Zellen nach einer Postinkubationsperiode für den Mikrokerntest aufbereitet. Neben unbehandelten Kontrollen und Sham-Expositionen wurden auch Positivkontrollen durchgeführt. Es konnte keine Erhöhung der Anzahl der DNA-Strangbrüche bzw. der Mikrokernfrequenz festgestellt werden. Da bekannt war, dass im Mobilfunkbereich unter bestimmten Bedingungen Störungen der Mitose, nicht aber Erhöhungen der Mikrokernfrequenz, auftreten, wurden Mitosestörungen nach Exposition bei 0,106 THz untersucht. Hierzu wurden AL-Zellen für 30 Minuten exponiert und anschließend ohne Postinkubation direkt fixiert. Analysiert wurden Störungen in allen Phasen der Mitose. Es zeigte sich, dass die Frequenz der Störungen in der Pro- und Metaphase unverändert blieb. Die Störungen in der Ana- und Telophase nahmen dagegen mit steigender Leistungsflussdichte zu. Insgesamt konnte im Terahertzbereich unter den gewählten Expositionsbedingungen kein DNA-Schaden beobachtet werden. Bei 0,106 THz konnten Mitosestörungen als Folge der Exposition gezeigt werden. Der Zusammenhang zwischen diesen Mitosestörungen und DNA-Schäden, insbesondere der Mikrokerninduktion, konnte bisher nicht abschließend geklärt werden und bleibt Gegenstand weiterer Untersuchungen.
Ceramide sind biologisch aktive Sphingolipide, die verschiedene zelluläre Signalwege regulieren, meist im Zusammenhang mit der Induktion von Apoptose oder der Regulation des Zellzyklus. Darüber hinaus wurde in der Literatur beschrieben, dass Ceramide die Zytoskelettdynamik unterschiedlicher Zelltypen beeinflussen, die Bedeutung von Ceramiden für die Funktion von T-Zellen wurde allerdings bisher wenig untersucht. In der vorliegenden Arbeit konnte gezeigt werden, dass die exogene Akkumulation von Ceramiden ebenso wie die Generierung von Ceramiden durch bSMase die Adhärenz von T-Zellen an FN bzw. ICAM-1 beeinträchtigt. Des Weiteren konnte eine verminderte T-Zell-Polarisierung auf FN sowie eine reduzierte Chemotaxis und Motilität ceramidmodifizierter T-Zellen in Antwort auf SDF-1 nachgewiesen werden. In Übereinstimmung mit der Unfähigkeit ceramidmodifizierter Zellen morphologisch zu polarisieren wird ferner die Relokalisation von Oberflächenmolekülen und intrazellulärer Proteine durch die Akkumulation von Ceramiden gestört. Überdies konnte in dieser Arbeit gezeigt werden, dass Ceramide mit dem Aktivierungsstatus von Akt und ERM-Proteinen interferieren, da eine verminderte stimulationsabhängige Phosphorylierung von Akt und ERM-Proteinen in ceramidmodifizierten Zellen nachgewiesen wurde. Ein wesentlicher Schritt im Verlauf der T-Zell-Aktivierung ist die Ausbildung einer immunologischen Synapse mit dendritischen Zellen. In dieser Arbeit konnte gezeigt werden, dass, obwohl ceramidreiche Membrandomänen von der Kontaktstelle ausgeschlossen werden, Konjugatfrequenz und Architektur der IS durch die Induktion von Ceramiden nicht beeinflusst werden, da eine normale Verteilung von CD3 und des MTOC beobachtet wurde. Allerdings wird die Funktionalität der Konjugate durch die Induktion von Ceramiden beeinträchtigt. Ceramidmodifizierte Zellen waren nur eingeschränkt in der Lage Orai1 und Stim1 zur Kontaktfläche mit DCs zu translozieren. In Übereinstimmung mit diesen Befunden wurde auch ein verminderter Calcium-Einstrom sowie eine verminderte Proliferation infolge der Akkumulation von Ceramiden detektiert. Zusammenfassend konnte in dieser Arbeit gezeigt werden, dass Ceramide wesentliche Prozesse im Verlauf der T-Zell-Aktivierung beeinflussen, so dass die pathogeninduzierte Generierung von Ceramiden einen möglichen Mechanismus darstellt, die Funktion von T-Zellen zu beeinträchtigen.
Background: There is extensive evidence that explicit memory, which involves conscious recall of encoded information, can be modulated by emotions; emotions may influence encoding, consolidation or retrieval of information. However, less is known about the modulatory effects of emotions on procedural processes like motor memory, which do not depend upon conscious recall and are instead demonstrated through changes in behaviour. Experiment 1: The goal of the first experiment was to examine the influence of emotions on motor learning. Four groups of subjects completed a motor learning task performing brisk isometric abductions with their thumb. While performing the motor task, the subjects heard emotional sounds varying in arousal and valence: (1) valence negative / arousal low (V-/A-), (2) valence negative / arousal high (V-/A+), (3) valence positive / arousal low (V+/A-), and (4) valence positive / arousal high (V+/A+). Descriptive analysis of the complete data set showed best performances for motor learning in the V-/A- condition, but the differences between the conditions did not reach significance. Results suggest that the interaction between valence and arousal may modulate motor encoding processes. Since limitations of the study cannot be ruled out, future studies with different emotional stimuli have to test the assumption that exposure to low arousing negative stimuli during encoding has a facilitating effect on short term motor memory. Experiment 2: The purpose of the second experiment was to investigate the effects of emotional interference on consolidation of sequential learning. In different sessions, 6 groups of subjects were initially trained on a serial reaction time task (SRTT). To modulate consolidation of the newly learned skill, subjects were exposed, after the training, to 1 of 3 (positive, negative or neutral) different classes of emotional stimuli which consisted of a set of emotional pictures combined with congruent emotional musical pieces or neutral sound. Emotional intervention for each subject group was done in 2 different time intervals (either directly after the training session, or 6 h later). After a 72 h post-training interval, each group was retested on the SRTT. Re-test performance was evaluated in terms of response times and accuracy during performance of the target sequence. Emotional intervention did not influence either response times or accuracy of re-testing SRTT task performance. However, explicit awareness of sequence knowledge was enhanced by arousing negative stimuli applied at 0 h after training. These findings suggest that consolidation of explicit aspects of procedural learning may be more responsive toward emotional interference than are implicit aspects. Consolidation of different domains of skill acquisition may be governed by different mechanisms. Since skill performance did not correlate with explicit awareness we suggest that implicit and explicit modes of SRTT performance are not complementary. Experiment 3: The aim of the third experiment was to analyze if the left hemisphere preferentially controls flexion responses towards positive stimuli, while the right hemisphere is specialized towards extensor responses to negative pictures. To this end, right-handed subjects had to pull or push a joystick subsequent to seeing a positive or a negative stimulus in their left or right hemifield. Flexion responses were faster for positive stimuli, while negative stimuli were associated with faster extensions responses. Overall, performance was fastest when emotional stimuli were presented to the left visual hemifield. This right hemisphere superiority was especially clear for negative stimuli, while reaction times towards positive pictures showed no hemispheric difference. We did not find any interaction between hemifield and response type. Neither was there a triple interaction between valence, hemifield and response type. In our experimental context the interaction between valence and hemifield seems to be stronger than the interaction between valence and motor behaviour. From these results we suppose that under certain conditions a hierarchy scaling of the asymmetry patterns prevails, which might mask any other existing asymmetries.
Schlagwörter: Salmonella , Salmonella enterica , Salmonella typhimurium , Salmonellose , Escherichia coli , Shigella , Infektion , Bakterielle Infektion , Zellkultur , HeLa-Zelle , Apoptosis , Metabolismus , Stoffwechsel , Glucose , Glucosetransport , Glucosestoffwechsel , Katabolismus , Kohlenstoff , Kohlenstoffbedarf , Kohlenstoffhaushalt , Kohlenstoffstoffwechsel , Kohlenstoff-13 , Kohlenstoffisotop Salmonella Typhimurium und enteroinvasive E. coli (EIEC) sind fakultativ intrazelluläre Bakterien aus der Familie der Enterobacteriaceae. Während erstere sich nach der Internalisierung durch eukaryotische Zellen normalerweise in einem spezialisierten Phagosom, der Salmonella-enthaltenden Vakuole (SCV), vermehren, replizieren EIEC im Zytoplasma der Wirtszellen. In der vorliegenden Arbeit wurde zunächst durch Mikroinjektion die Fähigkeit von S. Typhimurium 14028s untersucht, ebenfalls im Zytoplasma von Caco-2-Zellen replizieren zu können. Dabei wurde festgestellt, daß ein früher als S. Typhimurium 14028s WT bezeichneter Stamm eine Insertion eines Desoxythymidins an Position 76 des offenen Leserasters von rfbP trägt, einem Gen, dessen Protein an der LPS-Synthese beteiligt ist. Weiterhin synthetisierte dieser Stamm ein rauhes LPS. Aufgrund von Agglutination konnte der Rauh-Stamm nur mit geringem Erfolg mikroinjiziert werden. Hingegen lag 5 h nach der Mikroinjektion einer nicht invasiven Mutante von Salmonella mit vollständigem LPS der Anteil an Caco-2-Zellen, die mehr als 32 Bakterien enthielten, bei etwa 30 %. Der Anteil war 2-3 mal höher als bei früheren Mikroinjektionen in HeLa-Zellen. Daher wurde das Verhalten von HeLa-Zellen nach einer Infektion durch S. Typhimurium ΔsifA - einer Mutante, die aus der SCV ins Zytoplasma entkommt - untersucht. Dabei wurde festgestellt, daß die sifA-Mutante 10 h nach der Infektion die Aktivität der Caspasen 9 und 3 in HeLa-Zellen, aber nicht in Caco-2-Zellen induziert. In weiteren Versuchen wurde die Bedeutung von Glukose, Glukose-6-phosphat und Mannose als Kohlenstoffquellen für die extra- und intrazelluläre Replikation zweier Isolate enteroinvasiver E. coli und eines S. Typhimurium Stammes analysiert. Zu diesem Zweck wurden zunächst definierte Mutanten in den beiden wichtigsten Phosphoenolpyruvat-abhängigen Phosphotransferasesystemen (PTS) für die Aufnahme von Glukose und Mannose, ptsG und manXYZ, sowie im Antiporter für die Aufnahme von Glukose-6-phosphat, uhpT, konstruiert. Bei Wachstum im Minimalmedium mit Glukose als einziger C-Quelle waren die Generationszeiten aller ΔptsG- und ΔptsG, manXYZ-Mutanten im Vergleich zu den Wildstämmen deutlich verlängert. Ebenso wuchsen ΔmanXYZ-Mutanten bzw. ΔuhpT-Mutanten deutlich langsamer auf Mannose bzw. Glukose-6-phosphat. Jedoch ergaben sich hierbei Stamm-spezifische Unterschiede. So erreichte EIEC 4608-58 ΔuhpT in der stationären Phase eine ähnliche Zelldichte wie der Wildstamm in Gegenwart von Glukose-6-phosphat und eine ΔptsG, manXYZ-Mutante von S. Typhimurium 14028s konnte immer noch effizient mit Glukose wachsen. Infektionsversuche mit Caco-2-Zellen zeigten weiterhin, daß die Deletion von ptsG zu einer signifikanten Erhöhung der Adhärenz und Invasivität von EIEC 4608-58 führt, während sich die intrazellulären Generationszeiten aller hier untersuchten Mutanten kaum veränderten. Selbst die ΔptsG, manXYZ, uhpT-Dreifachmutanten der drei hier verwendeten Enterobakterien und die ΔptsG, manXYZ, glk-Mutante von S. Typhimurium 14028s konnten immer noch in Caco-2-Zellen replizieren, wenn auch mit Stamm-spezifisch verringerten Geschwindigkeiten. 13C-Markierungsexperimente mit [U-13C6]-Glukose als Substrat ergaben jedoch, daß in der Tat alle hier untersuchten enterobakteriellen Wildstämme Glukose während der Replikation in Caco-2-Zellen unter Zellkulturbedingungen verwerten. Glukose-6-phosphat, Glukonat oder Fettsäuren konnten dagegen als wichtigste Kohlenstoffquellen für das intrazelluläre Wachstum ausgeschlossen werden. EIEC 4608-58 metabolisierte Glukose jedoch weniger effizient als EIEC HN280 und schien zudem noch zusätzlich C3-Substrate aus der Wirtszelle aufzunehmen. Das Markierungsmuster zeigte einen Stamm-spezifischen Kohlenstofffluß durch Glykolyse und/oder Entner-Doudoroff-Weg, Pentosephosphatzyklus, Citratzyklus und den anaplerotischen Reaktionen zwischen PEP und Oxalacetat. Mutanten mit Deletionen in ptsG und manXYZ konnten auf alternative C3-Substrate wechseln und glichen dies durch eine erhöhte Aufnahme von Aminosäuren aus den Wirtszellen aus.
The Nuclear Factors of Activated T cells (NFATs) are critical transcription factors playing major roles in the control of the cell cycle, apoptosis and, probably, also cancerogenesis. Of all the four genuine NFATc family members, NFATc1 has the unique induction property which appears to be essential for T and B cell development, along with its considerable role in cytokine gene expression and function in non-lymphoid tissues and during organ development (such as in the development of muscle and heart cells). A number of studies have proved the potential role of NFATc1 protein in development of lymphomas and leukemias and provided evidence of differential expression of the same gene in different tumours (Suppression in classical Hodgkin lymphomas but overexpression in T-ALLs). Although the most commonly accepted pathway is the dephosphorylation of NFAT by calcineurin upon a rise in intracellular Ca++ leading to nuclear translocation followed by transcription of Il2 gene and related cytokines, it is quite possible that signaling mechanisms other than (or in addition to) calcineurin activation lead to NFATc1 induction as well. One of the major isoforms of NFATc1, NFATc1/αA, is the short inducible factor, produced upon full T and B cell activation. Here we used two different conditional knock-out mice as our study model. Inactivation of the murine Nfatc1 gene in bone marrow (of Cd79a/mb-1-cre x Nfatc1flx/flx mice) and spleen (of Cd23-cre x Nfatc1flx/flx mice) resulted in complete ablation of NFATc1 expression in splenic B cells. Although no severe developmental defects were found for the generation of ‘conventional’ B2 cells, NFATc1 inactivation in bone marrow B-cells led to a strong decrease in the peritoneal B1a cell population. In-vitro studies showed a clear-cut decrease in proliferation and an increase in Activation Induced Cell Death (AICD) of NFATc1-/- splenic B cells upon BCR stimulation. While NFATc1 appears to control directly the AICD of peripheral B cells, further studies revealed an effect of NFATc1 on proliferation by a sustained differentiation program controlling Ca++ flux and calcineurin activity which are needed to maintain transcription and proliferation of primary B cells. Re-expression of NFATc1 at a low dose could protect cells against AICD, whereas at a higher dose it initiated AICD. These data suggest an important dual role of NFATc1 in controlling proliferation and apoptosis of peripheral B lymphocytes. NFATc1 ablation also impaired the Ig class switch to IgG3 by T cell-independent (TI) type II antigens and impaired IgG3+ plasmablast formation when studied in-vivo by NP-Ficoll immunization or in-vitro using an in-vitro class-switch model. Contrary to the immunizations with TI-type II antigen, no significant differences were documented in Ig class switch upon immunization with NP-KLH, a T-cell dependent (TD) antigen. Taken together, the data indicate NFATc1/αA as a crucial player in the activation and function of splenic B cells upon BCR stimulation. Missing or incomplete NFATc1/αA induction appears to be one reason for the generation of B cell unresponsiveness, whereas uncontrolled NFATc1/αA expression could lead to unbalanced immune reactions and autoimmune diseases.
BAD (Bcl-2 antagonist of cell death, Bcl-2 associated death promoter) is a pro-apoptotic member of the Bcl-2 protein family that is regulated by phosphorylation in response to survival factors. Although much attention has been devoted to the identification of phosphorylation sites in murine BAD (mBAD), little data are available with respect to phosphorylation of human BAD (hBAD) protein. In this work, we investigated the quantitative contribution of BAD targeting kinases in phosphorylating serines 75, 99 and 118 of hBAD (Chapter 3.1). Our results indicate that RAF kinases phosphorylate hBAD in vivo at these established serine residues. RAF-induced phosphorylation of hBAD was not prevented by MEK inhibitors but could be reduced to control levels by use of the RAF inhibitor Sorafenib (BAY 43-9006). Consistently, expression of active RAF suppressed apoptosis induced by hBAD and the inhibition of colony formation caused by hBAD could be prevented by RAF. In addition, using surface plasmon resonance technique we analyzed the direct consequences of hBAD phosphorylation by RAF with respect to complex formation of BAD with 14-3-3 proteins and Bcl-XL. Phosphorylation of hBAD by active RAF promotes 14-3-3 protein association, whereby the phosphoserine 99 represents the major binding site. Furthermore, we demonstrate in this work that hBAD forms channels in planar bilayer membranes in vitro. This pore-forming capacity is dependent on phosphorylation status and interaction with 14-3-3 proteins. Additionally, we show that hBAD pores possess a funnel-shaped geometry that can be entered by ions and non-charged molecules up to 200 Da (Chapter 3.2). Since both lipid binding domains of hBAD (LBD1 and LBD2) are located within the C-terminal region, we investigated this part of the protein with respect to its structural properties (Chapter 3.3). Our results demonstrate that the C-terminus of hBAD possesses an ordered β-sheet structure in aqueous solution that adopts helical disposition upon interaction with lipid membranes. Additionally, we show that the interaction of the C-terminal segment of hBAD with the BH3 domain results in the formation of permanently open pores, whereby the phosphorylation of serine 118 proved to be necessary for effective pore-formation. In contrast, phosphorylation of serine 99 in combination with 14-3-3 association suppresses formation of channels. These results indicate that the C-terminal part of hBAD controls hBAD function by structural transitions, lipid binding and phosphorylation. Using mass spectrometry we identified in this work, besides the established in vivo phosphorylation sites at serines 75, 99 and 118, several novel hBAD phosphorylation sites (serines 25, 32/34, 97, 124 and 134, Chapter 3.1). To further analyze the regulation of hBAD function, we investigated the role of these newly identified phosphorylation sites on BAD-mediated apoptosis. We found that in contrast to the N-terminal phosphorylation sites, the C-terminal serines 124 and 134 act in an anti-apoptotic manner (Chapter 3.4). Our results further indicate that RAF kinases and PAK1 effectively phosphorylate BAD at serine 134. Notably, in the presence of wild type hBAD, co-expression of survival kinases, such as RAF and PAK1, leads to a strongly increased proliferation, whereas substitution of serine 134 by alanine abolishes this process. Furthermore, we identified hBAD serine 134 to be strongly involved in survival signaling in B-RAF-V600E containing tumor cells and found phosphorylation of this residue to be crucial for efficient proliferation in these cells. Collectively, our findings provide new insights into the regulation of hBAD function by phosphorylation and its role in cancer signaling.
Development of novel Listeria monocytogenes strains as therapeutic agents for targeted tumor therapy
(2010)
Despite marked progress in development and improvement of cancer therapies the rate of cancer related death remained stable over the last years. Especially in treating metastases alternative approaches supporting current therapies are required. Bacterial and viral vectors have been advanced from crude tools into highly sophisticated therapeutic agents detecting and treating neoplastic leasions. They might be potent enough to fill in this therapeutic demand. In this thesis Listeria monocytogenes was investigated as carrier for targeted bacterial cancer therapy. One part of the study focussed on modification of a functional bacterial mRNA delivery system. Genomic integration of T7 RNA polymerase driving mRNA production allowed reduction to an one-plasmid-system and thereby partially relieved the growth retardation exerted by mRNA delivery. Importantly the integration allowed metabolic attenuation of the mRNA delivery mutant potentially enabling in vivo applications. Further expansion of the bacterial RNA delivery system for transfer of shRNAs was examined. Bacterial mutants producing high amounts of RNA containing shRNA sequences were constructed, however a functional proof of gene silencing on delivery in eukaryotic cell lines was not achieved. The second part of this thesis focussed on increasing tumor colonization by Listeria monocytogenes in vivo. Coating bacteria with antibodies against receptors overexpressed on distinct tumor cell lines enabled specific bacterial internalization into these cells in vitro. Optimization of the bacterial antibody coating process resulted in an up to 104-fold increase of intracellular bacteria. Combination of this antibody-mediated targeting with the delivery of prodrug-converting enzymes showed a cytotoxic effect in cell lines treated with the corresponding prodrug. Since incubation in murine serum completely abrogated antibodymediated bacterial internalization the antibodies were covalently linked to the bacteria for application in xenografted tumor mice. Bacteria coated and crosslinked in this manner showed enhanced tumor targeting in a murine tumor model demonstrating antibodymediated bacterial tumor targeting in vivo. Independent of antibody-mediated tumor targeting the intrinsic tumor colonization of different Listeria monocytogenes mutants was examined. Listeria monocytogenes ΔaroA ΔinlGHE colonized murine melanoma xenografts highly efficient, reaching up to 108 CFU per gram of tumor mass 7 days post infection. Taken together the presented data shows highly promising aspects for potential bacterial application in future tumor therapies. Combination of the delivery systems with antibodymediated- and intrinsic bacterial tumor targeting might open novel dimensions utilizing Listeria monocytogenes as therapeutic vector in targeted tumor therapy.
iNKT cells are a population of T cells with unique characteristics. In contrast to most αβ T cells which recognize peptides presented by highly polymorphic MHC molecules, iNKT cells are reactive to glycolipids presented by CD1d, a non-polymorphic MHC-I like molecule. Moreover, whereas MHC-restricted αβ T cells bear highly variable receptors (TCRs) formed after somatic recombination of the V(D)J gene segments, the TCR of iNKT cells is formed by an invariant α chain, which always contains the same gene segments: AV14 and AJ18; and a β chain of limited BV gene usage: BV8S2, BV7 or BV2, in the mouse. This invariant α chain is the reason for which these cells are named “i” and the NK part of their name refers to the expression of receptors typical of natural killer (NK) cells. iNKT cells recognize glycolipids of endogenous and microbial origin. After activation they secrete large amounts of very different cytokines such as IFN-γ and IL-4 and thus influence immune responses and pathological conditions. One of the most potent iNKT cell agonists, recognized by the semi-invariant TCR, is the synthetic glycolipid α-Galactosylceramide (α-Gal). iNKT cells can be visualized using CD1d-multimeric complexes loaded with α-Gal and flow cytometry, since this reagent has enough avidity to stain these cells. Interestingly, mouse iNKT cells can be stained with human α-Gal-loaded CD1d oligomers and human iNKT cells can also be visualized with mouse α-Gal-loaded CD1d oligomers, indicating a high degree of conservation of the recognition of α-Gal presented by CD1d through evolution. Previous studies showed that rats have the genes necessary to build semi-invariant TCRs: They have a CD1d homologue; one or two BV8S2 homologues and interestingly, up to ten AV14 gene segments, which are highly conserved when compared to the mouse genes. Importantly, it has been shown at least for two of these AV14 gene segments that they can produce invariant TCRα chains which, when coexpressed with BV8-containing β chains, react to α-Gal presented by rat CD1d. Furthermore, ex vivo stimulation of primary splenocytes with α-Gal results in the secretion of IL-4 and IFN-γ. Surprisingly, rat semi-invariant TCRs do not recognize α-Gal presented by mouse CD1d and accordingly, mouse α-Gal-loaded CD1d tetramers failed to stain a discrete population of rat iNKT cells. Taking all together, despite that strong evidence suggested that iNKT cells are present in the rat, the direct identification of such population and the analysis of CD1d-restricted immune responses were still pending for this species. Hence the work presented in this doctoral thesis was aimed to identify iNKT cells, to analyze their phenotype and also to study the distribution and function of CD1d in the rat. For these purposes, we produced essential reagents which were still lacking such as rat specific anti-CD1d monoclonal antibodies and rat CD1d oligomers. Importantly, two of three anti-rat CD1d monoclonal antibodies (all of them generated in our laboratory before this thesis was initiated) also recognized mouse CD1d and therefore allowed a direct comparison of CD1d expression between rat and mouse. Whereas CD1d distribution in the hematopoietic system was found to be extremely similar between these two species; in non-lymphatic tissues important differences were observed. Interestingly, CD1d protein was detected at not yet described sites such as the rat exocrine pancreas and rat and mouse Paneth cells. These monoclonal antibodies did not only allowed the analysis of CD1d expression, but also the first demonstration of the function of rat CD1d as an antigen presenting molecule, since cytokine release in response to α-Gal was blocked when they were added to ex vivo cultures of rat primary cells. Staining of primary rat iNKT cells (possible now with the newly generated rat CD1d oligomers) revealed interesting similarities with human iNKT cells. First, we observed that rat iNKT cells are only a minority among all NKR-P1A/B positive T cells. Human iNKT cells constitute also a very small proportion of NKR-P1A (CD161) expressing T cells, whereas in mice inbred strains which express NKR-P1C (NK1.1), most of NKRP1C expressing T cells are iNKT cells. Second, the majority of rat iNKT cells are either CD4 or DN and only a small proportion expresses CD8β. These findings are similar to humans and different to mice which lack CD8+ iNKT cells. Third, analysis of various inbred rat strains demonstrated different iNKT cell frequencies which correlated with cytokine secretion after α-Gal stimulation of primary cells. In comparison to mice, iNKT cell numbers are markedly reduced in rats. In F344 rats, inbred rat strain which released the highest cytokine amounts after α-Gal stimulation, approximately 0.25% and 0.1% of total liver and spleen lymphocytes, respectively, are iNKT cells. In contrast, in LEW rats iNKT cells were practically absent and neither IL-4 nor IFN-γ were detected after stimulation of primary cells with α-Gal. Once more, these frequencies are very close to those observed in humans. Last, as reported for human peripheral blood cells, rat iNKT cells could be easily expanded in vitro by adding α-Gal to cultures of intrahepatic lymphocytes, whereas the expansion of mouse iNKT cells was not possible using the same protocol. The presence of a multimember AV14 gene segment family in the rat is an intriguing characteristic. These AV14 gene segments are extremely homologous except in the CDR2α region. Based on the amino acid sequence of this region they have been divided into two different types: Type I and II. A specific tissue distribution of the different types was proposed in the first study where the presence of several AV14 gene segments was described. We also analyzed the AV14 gene segment usage in F344 and LEW inbred rat strains. In F344 rats we found no preferential usage of either AV14 gene segment type in the spleen and the liver but type II AV14 gene segments appeared more frequently in the thymus. In contrast, LEW rats show a preferential usage of type I AV14 gene segments in all three compartments analyzed: Thymus, spleen and liver. Taken all together, the usage of newly generated reagents allowed to gain novel insights into CD1d expression in the rat and in the mouse and to directly identify rat iNKT cells for the first time. The phenotypic and functional analysis of rat iNKT cells revealed numerous similarities with human iNKT cells. These are of special interest, since rats serve to investigate several pathological conditions including models for autoimmune diseases. The possibility now to analyze iNKT cells and CD1d-restricted T cell responses in the rat might help to understand the pathogenesis of such diseases. In addition, the uncomplicated in vitro expansion and culture of rat iNKT cells should facilitate the analysis of the immunomoldulatory capacities of these cells.
In dieser Arbeit wurde das PVM-Mausmodell verwendet, um die Bedeutung der Typ I und Typ III Interferonantwort für die Pathogenese einer pneumoviralen Infektion zu analysieren. Hierzu wurden zunächst mit Hilfe der reversen Genetik rekombinante PVM-Mutanten hergestellt, bei denen die Gene für die NS-Proteine, welche vermutlich als Interferonantagonisten fungieren, deletiert sind. Die Charakterisierung der Replikationsfähigkeit der rPVM dNS-Mutanten erfolgte in vitro in Interferon-kompetenten und Interferon-inkompetenten Zelllinien. Ein zentraler Schritt innerhalb dieser Charakterisierung war die Untersuchung der Induktion von Interferonen in vivo und in vitro nach Infektion mit den rPVM dNSMutanten, wobei nachgewiesen wurde, dass die NS-Proteine von PVM als Interferonantagonisten fungieren. In allen Interferon-kompetenten Zellkulturen wurde eine Attenuierung von rPVM dNS1, rPVM dNS2 und rPVM dNS1dNS2 bezogen auf rPVM beobachtet. In allen Interferon-inkompetenten Zellkulturen konnte die Attenuierung der rPVM dNS-Mutanten nahezu vollständig revertiert werden. Nach Infektion mit den rPVM dNS-Mutanten wurde in verschiedenen Zelllinien eine Induktion von Typ I und Typ III Interferonen betrachtet, wobei Unterschiede in der Stärke der Interferon-Induktion nach Infektion mit den rPVM dNS-Mutanten vorhanden waren. Zusammenfassend war es möglich, die NS1- und NS2-Proteine von PVM in Analogie zu RSV eindeutig als Antagonisten der Interferonantwort zu identifizieren. Die Untersuchung der protektiven Rolle von Typ I und Typ III Interferonen für die Replikation und Pathogenität von PVM bildete den zweiten Teil dieser Arbeit. Hierzu wurde die Replikationsfähigkeit und Pathogenität der rPVM dNS-Mutanten in verschiedenen Interferon-defizienten Mausstämmen getestet. Die Untersuchungen ergaben eine protektive Rolle von Typ I und Typ III Interferonen bei einer Infektion mit PVM, wobei den Typ I Interferonen ein effektiverer Einfluss zugeordnet werden konnte. Ein Vergleich von Replikation und Virulenz zwischen den verschiedenen Typ I oder Typ III oder Typ I/Typ III Interferonrezeptor-defizienten Mausstämmen belegte eine erhöhte Suszeptibilität der Typ I/Typ III Interferonrezeptor-defizienten Mäuse gegenüber einer Infektion mit den rPVM dNS-Mutanten. Eine vollständige Aufhebung der Attenuierung wurde auch in den Typ I/Typ III Interferonrezeptor-defizienten Mäusen nicht erlangt. Eine anti-apoptotische Funktion der NS-Proteine zusätzlich zu ihrer Wirkungsweise als Interferonantagonisten wurde aufgrund der unvollständigen Revertierung der Pathogenität der rPVM dNS-Mutanten in Typ I/Typ III Interferonrezeptor-defizienten Mäusen vermutet. Der abschließende Teil dieser Dissertation befasste sich mit der Frage, welche Zellen bei einer natürlichen pulmonalen Infektion Interferone in vivo produzieren. In vitro wurde beobachtet, dass überraschenderweise nur sehr wenige virusinfizierte oder uninfizierte Zellen Typ I Interferone bilden. Der Nachweis darüber, welche Zellen während einer pulmonalen Infektion hauptsächlich Interferone in vivo produzieren, war aufgrund der fehlenden Eignung der kommerziell erhältlichen Interferon-Antikörper für intrazelluläre Gewebefärbungen nicht möglich. Dennoch gelang es abschließend durch eine neue Nachweismethode erstmals Zellen mit rezeptorgebundenen Interferon zu identifizieren, wobei es sich um ziliierte Epithelzellen, Alveolarmakrophagen und vermutlich Clarazellen sowie Typ I und Typ II Pneumozyten handelte.
Cooperation is beneficial for social groups and is exemplified in its most sophisticated form in social insects. In particular, eusocial Hymenoptera, like ants and honey bees, exhibit a level of cooperation only rarely matched by other animals. To assure effective defense of group members, foes need to be recognized reliably. Ants use low-volatile, colony-specific profiles of cuticular hydrocarbons (colony odor) to discriminate colony members (nestmates) from foreign workers (non-nestmates). For colony recognition, it is assumed that multi-component colony odors are compared to a neuronal template, located in a so far unidentified part of the nervous system, where a mismatch results in aggression. Alternatively, a sensory filter in the periphery of the nervous system has been suggested to act as a template, causing specific anosmia to nestmate colony odor due to sensory adaptation and effectively blocking perception of nestmates. Colony odors are not stable, but change over time due to environmental influences. To adjust for this, the recognition system has to be constantly updated (template reformation). In this thesis, I provide evidence that template reformation can be induced artificially, by modifying the sensory experience of carpenter ants (Camponotus floridanus; Chapter 1). The results of the experiments showed that template reformation is a relatively slow process taking several hours and this contradicts the adaptation-based sensory filter hypothesis. This finding is supported by first in-vivo measurements describing the neuronal processes underlying template reformation (Chapter 5). Neurophysiological measurements were impeded at the beginning of this study by the lack of adequate technical means to present colony odors. In a behavioral assay, I showed that tactile interaction is not necessary for colony recognition, although colony odors are of very low volatility (Chapter 2). I developed a novel stimulation technique (dummy-delivered stimulation) and tested its suitability for neurophysiological experiments (Chapter 3). My experiments showed that dummy-delivered stimulation is especially advantageous for presentation of low-volatile odors. Colony odor concentration in headspace was further increased by moderately heating the dummies, and this allowed me to measure neuronal correlates of colony odors in the peripheral and the central nervous system using electroantennography and calcium imaging, respectively (Chapter 4). Nestmate and non-nestmate colony odor elicited strong neuronal responses in olfactory receptor neurons of the antenna and in the functional units of the first olfactory neuropile of the ant brain, the glomeruli of the antennal lobe (AL). My results show that ants are not anosmic to nestmate colony odor and this clearly invalidates the previously suggested sensory filter hypothesis. Advanced two-photon microscopy allowed me to investigate the neuronal representation of colony odors in different neuroanatomical compartments of the AL (Chapter 5). Although neuronal activity was distributed inhomogeneously, I did not find exclusive representation restricted to a single AL compartment. This result indicates that information about colony odors is processed in parallel, using the computational power of the whole AL network. In the AL, the patterns of glomerular activity (spatial activity patterns) were variable, even in response to repeated stimulation with the same colony odor (Chapter 4&5). This finding is surprising, as earlier studies indicated that spatial activity patterns in the AL reflect how an odor is perceived by an animal (odor quality). Under natural conditions, multi-component odors constitute varying and fluctuating stimuli, and most probably animals are generally faced with the problem that these elicit variable neuronal responses. Two-photon microscopy revealed that variability was higher in response to nestmate than to non-nestmate colony odor (Chapter 5), possibly reflecting plasticity of the AL network, which allows template reformation. Due to their high variability, spatial activity patterns in response to different colony odors were not sufficiently distinct to allow attribution of odor qualities like ‘friend’ or ‘foe’. This finding challenges our current notion of how odor quality of complex, multi-component odors is coded. Additional neuronal parameters, e.g. precise timing of neuronal activity, are most likely necessary to allow discrimination. The lower variability of activity patterns elicited by non-nestmate compared to nestmate colony odor might facilitate recognition of non-nestmates at the next level of the olfactory pathway. My research efforts made the colony recognition system accessible for direct neurophysiological investigations. My results show that ants can perceive their own nestmates. The neuronal representation of colony odors is distributed across AL compartments, indicating parallel processing. Surprisingly, the spatial activity patterns in response to colony are highly variable, raising the question how odor quality is coded in this system. The experimental advance presented in this thesis will be useful to gain further insights into how social insects discriminate friends and foes. Furthermore, my work will be beneficial for the research field of insect olfaction as colony recognition in social insects is an excellent model system to study the coding of odor quality and long-term memory mechanisms underlying recognition of complex, multi-component odors.
Das Ziel der vorliegenden Arbeit war die Untersuchung der Reaktionen von Migränepatientinnen mit episodischer (EM) und häufiger Migräne (HM) auf verschiedene Aspekte des Triggerfaktors „Negativer Affekt“ wie Stress und negative Emotionen. Die Ergebnisse der beiden Gruppen wurden mit denen gesunder Kontrollpersonen verglichen (KG). Zur Ermittlung des Aufmerksamkeitsverhaltens gegenüber emotionalen Reizen wurden zwei Emotionale Stroop Tests (EST) durchgeführt. Erwartet wurde ein Aufmerksamkeitsbias der Patientinnen hinsichtlich negativer emotionaler Reize. Im EST 1 wurden allgemeine affektive Wörter der Valenzen positiv, neutral und negativ verwendet. Die Probandinnen sollten auf die Wortfarbe mit Tastendruck reagieren und den Wortinhalt ignorieren. Im EST 2 wurden emotionale Gesichtsausdrücke (ärgerlich, freundlich, neutral) als Reize verwendet. Dabei sollte die Rahmenfarbe der Bilder per Tastendruck bestimmt werden und der Inhalt ignoriert werden. Zur Auswertung wurden Emotionale Stroop Interferenzen (ESI) zum Vergleich Reaktionszeitdifferenzen negativ-neutral und negativ-positiv berechnet. Der erwartete Aufmerksamkeitsbias der HM für negative emotionale Reize wurde dabei nicht gefunden. Dafür zeigten im EST 2 die KG einen Aufmerksamkeitsbias für ärgerliche Gesichter. Ein signifikanter Gruppenunterschied in EST 2 mit sehr niedrigen, im Vergleich negativ-positiv sogar negativen ESI der HM ließ auf ein Vermeidungsverhalten dieser Gruppe ärgerlichen Gesichtern gegenüber schließen. Dieses wurde als Vermeidung negativer sozialer Reize interpretiert und zum gelernten, möglicherweise dysfunktionalen Vermeidungsverhalten von Migränepatienten potentiellen Triggersituationen gegenüber in Bezug gesetzt. Weiterhin wurden die Probandinnen mit dem „Paradigma der Öffentlichen Rede“ psychosozialem Stress ausgesetzt, indem sie vor einer Videokamera unter Beobachtung eine Rede halten sowie eine Kopfrechenaufgabe lösen sollten. Vorher und nachher wurden insgesamt vier Speichelproben zur Bestimmung des Stresshormons Kortisol genommen. Zudem wurden die Druckschmerzschwellen vor und nach dem Experimentalteil gemessen. Die erwartete Kortisolreaktion als Antwort auf die psychosoziale Stressaufgabe blieb aus. Ursache dafür kann die Stichprobenzusammensetzung mit 98% Frauen sein, deren Kortisolreaktion auf Stress durch hormonelle Schwankungen im Experiment nur unzuverlässig stimulierbar ist. Bei der Berechnung der Gesamtkortisolausschüttung über die Zeit zeigte sich im Gegensatz zu dem erwarteten erhöhten Kortisolspiegel der Migränepatientinnen ein linearer Abfall des Spiegels von KG, über EM zu HM, mit den niedrigsten Werten der HM. Diese Ergebnisse könnten auf Veränderungen der Hypophysen-Nebennieren (HHN)-Achse im Sinne eines Hypokortisolismus bei Migränepatientinnen widerspiegeln, der weiterer Klärung bedarf, z.B. durch die Bestimmung eines Kortisoltagesprofils bei Patientinnen. Eine veränderte Funktion der HHN-Achse könnte außerdem zu einer inadäquaten Reaktion auf Stresssituationen beitragen. Die bei Patientinnen ausbleibende Veränderung der Druckschmerzschwelle in Reaktion auf Stress lässt ebenfalls auf eine ungenügende Stressreaktion der Patientinnen schließen. Am Ende der Untersuchung, nach einer Entspannungsphase von 50 Minuten, wurde den Probandinnen Blut abgenommen, in dem die mRNA- und Proteinkonzentrationen ausgewählter pro- und antiinflammatorischer Zytokine bestimmt wurden. Die Analyse der Zytokinkonzentrationen mit Luminex ergab für die Proteindaten aufgrund zu geringer verwertbarer Daten kein interpretierbares Bild. Die mittels Real Time Quantitativer PCR erhaltenen mRNA-Konzentrationen spiegelten die Schmerzfreiheit der Patienten wieder, mit im Vergleich zu KG verringerten proinflammatorischen Zytokinen (TNF-alpha, IL-1beta, IL-2, IL-6) und dem ebenfalls verringerten antiinflammatorischen Zytokin IL-10, sowie dem deutlich erhöhten antiinflammatorischen IL-4. Die im Vergleich zur KG überregulierten Zytokine im schmerzfreien Intervall weisen auf veränderte Regulierungsmechanismen des Immunsystems für die Schmerzmediatoren Zytokine hin. Weitere Schmerzmediatoren könnten ebenfalls verändert sein, was weiterer Klärung in nachfolgenden Studien bedarf. Alles in allem konnten verschiedene Veränderungen in den psychologischen und endokrinen Reaktionen der Migränepatientinnen auf Bestandteile des Triggers „Negativer Affekt“ sowie in der Schmerzregulierung gefunden werden, wobei die Veränderungen bei Patientinnen mit Häufiger Migräne stärker auftraten. Dies weist auf eine mögliche Rolle der einzelnen untersuchten Komponenten bei der Migränechronifizierung hin, was in weiteren Studien vertiefend untersucht werden sollte.
The saprophytic filamentous fungus Aspergillus fumigatus has been gaining importance as an opportunistic human pathogen over the past decades. Advances in modern medicine have created a growing group of patients susceptible to infection with A. fumigatus, often contracting potentially deadly invasive aspergillosis. The virulence of this pathogen appears to be a multifactorial trait, a combination of physiological characteristics that enables the fungus to infect immunocompromised humans. This work concentrates on the nitrogen metabolism of A. fumigatus, which is essential for meeting the nutritional needs inside the human host. Using DNA microarrays, the transcriptional response during growth on three different secondary nitrogen sources was examined, which revealed the metabolic versatility of A. fumigatus, especially when challenged with proteins as the sole source of nitrogen. In-depth transcriptional profiling of the eight-member oligopeptide transporter (OPT) gene family underlined the importance of oligopeptide transport for growth on complex nitrogen sources like BSA or collagen. Heterologous expression of the opt genes in Saccharomyces cerevisiae showed their functionality as oligopeptide transporters, and characterized their substrate specificity. Using a Cre/loxP based genetic tool, a complete deletion of all opt genes in A. fumigatus was achieved. The resultant strain exhibited diminished growth on medium where the oligopeptide GPGG was the sole nitrogen source, but did not show any other in vitro phenotype. The opt deletion strain was not attenuated in virulence in a murine model of pulmonary aspergillosis, suggesting that the OPT gene family is not necessary for successful infection. The connection of oligopeptide transport and extracellular proteolytic activity was investigated by deleting the genes encoding Dpp4 and Dpp5, two dipeptidyl peptidases, or PrtT, the transcriptional regulator of major secreted proteases, in the complete opt deletion background. In contrast to the deletion of dpp4 and dpp5, which did not result in any additional phenotype, the absence of prtT led to a drastic growth defect on porcine lung agar. This suggests a synergistic action of extracellular proteolytic digest of proteins and transport of oligopeptide degradation products into the cell. Finally, this work established the bacterial β-Rec/six site-specific recombination system as a novel genetic tool for targeted gene deletion in A. fumigatus.
Reactive oxygen species (ROS) are continuously generated in cells and are involved in physiological processes including signal transduction but also their damaging effects on biological molecules have been well described. A number of reports in the literature implicate excessive oxidative stress and/or inadequate antioxidant defense in the pathogenesis of cancer, atherosclerosis, chronic and age related disorders. Several studies have indicated that activation of the renin-angiotensin-aldosterone-system can lead to the formation of ROS. Epidemiological studies have revealed higher renal cell cancer incidences and also higher cancer mortalities in hypertensive individuals. Recently, our group has shown that perfusion of the isolated mouse kidney with Ang II or treatment of several cell lines with Ang II leads to formation of DNA damage and oxidative base modifications. Here, we tried to scrutinize the pathway involved in genotoxicity of Ang II. We confirmed the genotoxicity of Ang II in two kidney cell lines of human origin. Ang II treatment led to the production of superoxide anions which we could hinder when we used the membrane permeable superoxide dismutase (SOD) mimetic TEMPOL. One of the enzymes which is activated in the cells after Ang II treatment and is able to produce ROS is NADPH oxidase. We demonstrated the activation of NADPH oxidase in response to Ang II by upregulation of its p47 subunit using RT-PCR. Also, pPhosphorylation of p47 subunit of NADPH oxidase after Ang II treatment was enhanced. Using two inhibitors we showed that NADPH oxidase inhibition completely prevents DNA damage by Ang II treatment. To differentiate between Nox2 and Nox4 isoforms of NADPH oxidase subunits in the genotoxicity of Ang II, we performed siRNA inhibition and found a role only for Nox4, while Nox2 was not involved. Next, we investigated PKC as a potential activator of NADPH oxidase. We showed that PKC becomes phosphorylated after Ang II treatment and also that inhibition of PKC hinders Ang II from damaging the cells. Our results from using several inhibitors of different parts of the pathway revealed that PKC activation in this pathway is dependent on the action of PLC on membrane phospholipids and production of IP3. IP3 binds to its receptor at endoplasmic reticulum (ER), opening a channel which allows calcium efflux into the cytoplasm. In this manner, both ER calcium stores and extracellular calcium cooperate so that Ang II can exert its genotoxic effect. PLC is activated by AT1R stimulation. We could also show that the genotoxicity of Ang II is mediated via AT1R signaling using the AT1R antagonist candesartan. In conclusion, here we have shown that Ang II is able to damage genomic damage in cell lines of kidney origin. The observed damage is associated with production of ROS. A decrease in Ang II-induced DNA damage was observed after inhibition of G-proteins, PLC, PKC and NADPH oxidase and interfering with intra- as well as extracellular calcium signaling. This leads to the following preliminary model of signaling in Ang II-induced DNA damage: binding of Ang II to the AT1 receptor activates PLC via stimulation of G-proteins, resulting in the activation of PKC in a calcium dependent manner which in turn, activates NADPH oxidase. NADPH oxidase with involvement of its Nox4 subunit then produces reactive oxygen species which cause DNA damage. Dopamine content and metabolism in the peripheral lymphocytes of PD patients are influenced by L-Dopa administration. The PD patients receiving a high dose of L-Dopa show a significantly higher content of dopamine in their lymphocytes compared to PD patients who received a low dose of L-Dopa or the healthy control. Central to many of the processes involved in oxidative stress and oxidative damage in PD are the actions of monoamine oxidase (MAO), the enzyme which is responsible for the enzymatic oxidation of dopamine which leadsing to production of H2O2 as a by-product. We investigated whether dopamine oxidation can cause genotoxicity in lymphocytes of PD patents who were under high dose L-Dopa therapy and afterward questioned the occurrence of DNA damage after dopamine treatment in vitro and tried to reveal the mechanism by which dopamine exerts its genotoxic effect. The frequency of micronuclei in peripheral blood lymphocytes of the PD patients was not elevated compared to healthy age-matched individuals, although the formation of micronuclei revealed a positive correlation with the daily dose of L-Dopa administration in patients who received L-Dopa therapy together with dopamine receptor agonists. In vitro, we describe an induction of genomic damage detected as micronucleus formation by low micromolar concentrations in cell lines with of different tissue origins. The genotoxic effect of dopamine was reduced by addition of the antioxidants TEMPOL and dimethylthiourea which proved the involvement of ROS production in dopamine-induced DNA damage. To determine whether oxidation of dopamine by MAO is relevant in its genotoxicity, we inhibited MAO with two inhibitors, trans-2-phenylcyclopropylamine hydrochloride (PCPA) and Ro 16-6491 which both reduced the formation of micronuclei in PC-12 cells. We also studied the role of the dopamine transporter (DAT) and dopamine type 2 receptor (D2R) signaling in the genotoxicity of dopamine. Inhibitors of the DAT, GBR-12909 and nomifensine, hindered dopamine-induced genotoxicity. These results were confirmed by treatment of MDCK and MDCK-DAT cells, the latter containing the human DAT gene, with dopamine. Only MDCK-DAT cells showed elevated chromosomal damage and dopamine uptake. Although stimulation of D2R with quinpirole in the absence of dopamine did not induce genotoxicity in PC-12 cells, interference with D2R signaling using D2R antagonist and inhibition of G-proteins, phosphoinositide 3 kinase and extracellular signal-regulated kinases reduced dopamine-induced genotoxicity and affected the ability of DAT to take up dopamine. Furthermore, the D2R antagonist sulpiride inhibited the dopamine-induced migration of DAT from cytosol to cell membrane. Overall, the neurotransmitter dopamine causes DNA damage and oxidative stress in vitro. There are also indications that high dose L-Dopa therapy might lead to oxidative stress. Dopamine exerts its genotoxicity in vitro upon transport into the cells and oxidization oxidation by MAO. Transport of dopamine by DAT has the central role in this process. D2R signaling is involved in the genotoxicity of dopamine by affecting activation and cell surface expression of DAT and hence modulating dopamine uptake. We provided evidences for receptor-mediated genotoxicity of two compounds with different mechanism of actions. The involvement of these receptors in many human complications urges more investigations to reveal whether abnormalities in the endogenous compounds-mediated signaling can play a role in the initiation of new conditions like carcinogenesis.
The genus Borrelia belongs to the Spirochaetes phylum which is far related to Gram negative bacteria. This phylum possesses a characteristic long helically coiled shape with lengths that vary from 5 to 250 μm. Other pathogens as Treponema and Leptospira which cause syphilis and leptospirosis, also belong to the Spirochaetes. Borrelia itself is the causative agent of two human diseases, the Lyme disease and relapsing fever. Borreliae are pathogenic bacteria which cycle between their arthropod vector, in most cases a tick, and a mammal host, very often small rodents. This complex life cycle requires an extraordinary protein up- and down-regulation in order to survive in such different organisms and avoid their immunologic systems. Lyme disease is a multisystemic disease that can affect different organs like skin, joints and nervous system. A red rash with concentric rings, called erythema migrans is a distinctive manifestation that allows clinical diagnosis. It appears after the bite of an infected tick and spreads out to diameters that can reach 15 cm. Relapsing fever is characterized by sudden recurrent fever peaks accompanied with chills, headache, muscle and joint pain and nausea. Both diseases are easily treated with antibiotics in early infection stages. Borrelia species possess a small genome. Many of their genes are related with virulence and the adaptation to the different hosts. The absence of genes in Borrelia involved in the biosynthesis of amino acids, fatty acids or nucleotide is very remarkable. This metabolic deficiency makes Borrelia species dependent on substances produced by the host. The first step in nutrient uptake is accomplished by porins. Bacterial porins are water-filled channels that facilitate the transport of essential molecules through the outer membrane. Four porins have been described in Borrelia up to this point. P66, P13 and Oms28 have been found in Borrelia burgdorferi while Oms38 was discovered in relapsing fever spirochetes. P66 is a singular porin with an extremely high single channel conductance of 11 nS. P13 is a small protein with an α-helical secondary structure which does not fit into the general porin model. The function of Oms28 as a porin has been questioned recently due to its periplasmic membrane-associated location. Finally, Oms38 is a specific porin for dicarboxilates with homologues in Lyme disease species. The aim of this thesis was to broaden the knowledge of the P66 and P13 porins described in the genus Borrelia. Both differ in structure and size from the general Gram negative porin model and could be highly involved in specific tasks in the genus Borrelia. In the first project of this thesis, the presence and pore forming capacity of P66 was studied in several Borrelia species including members of the relapsing fever group. P66 is the best studied porin in Borrelia with a dual function as porin and adhesin. This knowledge is restricted to B. burgdorferi and little or nothing is known about homologues in other Borrelia species. Therefore, three Lyme disease and three relapsing fever species were chosen as representative agents of the genus and the pore forming activity of their P66 homologues was studied. Five out of the six homologues exhibited a similar single channel conductance in a range from 9 to 11 nS. All of them showed no selectivity for cations or anions, and they were voltage dependent starting at different voltages from 30 to 70 mV. Only in the case of the B. hermsii homologue no pore forming activity could be established. It remains unclear if the lack of activity was due to an evolutionary loss of its porin function or to a higher sensibility to the detergents used for purification. In another project, the controversial P66 pore diameter of B. burgdorferi was analyzed with an empirical method. In a former study, the diameter of the P66 channel was estimated to be 2.6 nm based on theoretical considerations. This diameter is rather large and could impair the outer membrane protective function. Different non-electrolytes were used to study the P66 pore diameter indicating a 1.8 nm entrance diameter and a 0.8 nm inner constriction. In addition, the blockage of the channel with some of those non-electrolytes disclosed an oligomeric organization formed by approximately eight independent channels. Such a structure has not been observed so far in any other living organism and could be exclusive of Borrelia or spirochetes. The third project of this thesis deal with the recombinant production of a B. burgdorferi protein with immunogenic potential. This protein might be used to develop new diagnosis tests and therapeutic treatments. P13 is an outer membrane protein present in LD and RF species and it does not have any other known bacterial homologue. These facts make of P13 a good candidate to be used as a therapeutic target. For such purpose, P13 was cloned in two organisms. First, in Escherichia coli were two different constructs were designed to establish the role of a periplasmic cleaved C-terminus. Second, in a virus based vector delivered by Agrobacterium tumefaciens into tobacco plant cells. The vector replicates inside the plant cells spreading the infection to adjacent cells and at the same time producing the recombinant protein. This second expression method should enable the production of large amounts of the recombinant protein reducing time and costs. The last project of this thesis looked into the outer membrane complexome of B. burgdorferi focusing on the P13 and P66 porin complexes. Blue Native Page and second dimension SDS Page were the technique chosen for this purpose. P66 could be shown to be the only protein involved in the formation of the 11 nS pore which complex is probably formed by eight monomers. It was also possible to divide this complex in two halves with approximately half the molecular weight and a conductance of 5.5 nS. In the case of the P13 complex, a possible association with the lipoprotein OspC was revealed. The gel extraction of the P13 complex and its test with the Back Lipid Bilayer assay exhibited a 0.6 nS activity. This is in high contrast with the 3.5 nS activity previously described for this protein. To sum up, P66 is a porin present in many Borrelia species including not only LD but also RF species and which homologues show similar biophysical properties. The diameter of this pore is smaller than previously thought and it has molecular weight sieving properties. In the case of P13, its recombinant procurement will allow the use of P13 as a diagnostic and therapeutic target. The possible association with OspC could facilitate to unravel in future experiments the function of this intriguing protein.
Semaphorin receptors in the immunological synapse: regulation and measles virus-driven modulation
(2010)
Measles virus (MV) infection causes approximately 164,000 deaths per year worldwide (WHO, 2008). The main cause of death is MV-induced immunosuppression but the underlying mechanisms are not fully understood. It has been suggested that MV renders T cells dysfunctional by disrupting the integrity of actin dynamics while MV infection of dendritic cells results in their inability to sustain T cell activation. During neuronal development, semaphorins (SEMAs), especially SEMA3A, induce a collapse of growing dendrites via the binding to plexin-A1 (plexA1) and its coreceptor neuropilin-1 (NP-1). The collapse results from a disruption of actin dynamics. In this study, the roles of these three molecules were investigated in human immune cells and their possible role in MV induced immunosuppression. The present data have shown that plexA1 is an important component of human immunological synapse (IS). It translocated transiently to the surface of T cells after CD3/28 ligation and accumulated at the stimulatory interface between T cells and DCs (or CD3/28 coated beads). When plexA1 expression was inhibited (RNAi) or its function was disrupted (exogenous blocking or dominant negative expression), T cell expansion was reduced. Upon MV exposure, translocation of plexA1 and NP-1, another important component of IS, towards the stimulatory interface in T cells was abrogated. Moreover, MV infection interfered with plexA1/NP-1 turnover in maturing DCs and promoted early and substantial release of SEMA3A from these cells, particularly in the presence of allogenic T cells. As revealed by scanning electron microscopy, the release of SEMA3A caused a transient loss of actin-based protrusions on T cells. SEMA3A affected chemotactic migration of T cells and DCs, and reduced formation of allogenic DC/T cell conjugates. In conclusion, MV targeted SEMA receptor function both by disrupting their recruitment to the IS and by promoting a premature release of their repulsive ligand, SEMA3A. Both of which could contribute to MV-induced immunosuppression.
Stem cells with the particular potential to self renew and to differentiate into multiple cell lineages are fascinating cell types for basic and applied research. Pluripotent embryonic stem (ES) cells are derived from the inner cell mass (ICM) of preimplantation embryos. Upon differentiation ES cells can give rise to cells of ecto-, meso- and endoderm including germ cells. In contrast, multipotent adult stem cells are more restricted in their differentiation outcomes,they differentiate into cells of their tissue of origin. For example, hematopoietic stem cells (HSCs) that reside in hemogenic tissues such as the bone marrow (BM) differentiate into hemato-/lymphoid cell lineages. Upon differentiation of stem cells not the genome, but the epigenetic regulation changes. Differentiation-associated epigenetic changes generate cell types with distinct phenotypes and functions. For stem cell-based therapies it is important to deeper understand the relation between epigenome and cellular function. In the scope of this thesis I aimed to analyze cultures of differentiating stem cells with respect to gene expression, chromatin regulation and differentiation potential. For the analysis of global histone modification levels, which represent one mechanism for epigenetic regulation, fow cytometric protocols were established that allow single cell measurements. By applying this methodology decreased histone acetylation levels were shown in differentiated ES cell populations. In contrast, comparable histone acetylation levels were observed in differentiated and undifferentiated BM cells. In addition, I investigated effects of the histone deacetylase (HDAC) inhibitor trichostatin A (TSA) on murine BM cells, comprising also HSCs. Upon TSA treatment the frequency of cells with in vitro and in vivo hematopoietic activity was increased, while lineage committed cells underwent apoptosis. Next, the loss of pluripotency was assessed in differentiating ES cell cultures. Using short-term in vitro differentiation protocols marker-based analyses and functional assays were performed.Functionally pluripotency was diminished after 2 days of differentiation as assessed by colony formation, embryoid body (EB) formation and cardiomyogenic differentiation approaches. In contrast, pluripotency marker expression was reduced at later time points. Further, the application of distinct differentiation systems (aggregation EB, clonal EB or monolayer (ML) culture) had an impact on the progression and homogeneity of differentiation cultures. To further study the end of pluripotency, differentiated ES cells were placed under ES cell culture conditions. The data suggest that 3 days differentiated ES cells had passed a point of no return and failed to regain Oct4-eGFP expression and that HDAC inhibitor treatment selectively killed differentiated ES cells. Finally, I aimed to study the effect of EED - a core subunit of the histone methylating Polycomb repressive complex 2 (PRC2) - on ES cell chromatin and function. ES cells lacking EED showed loss of histone H3 lysine 27 trimethylation (H3K27me3) accompanied by increased histone acetylation and reduced H3K9me3 levels. Despite typical ES cell morphology and pluripotency marker expression, EED knockout (KO) ES cells exhibited altered nuclear heterochromatin organization, delayed chromatin mobility and a failure in proper differentiation. Conclusively, my data provide insights into the epigenetic regulation of stem cells. Particularly, the results suggest that HDAC inhibitor treatment was detrimental for differentiated BM as well as for differentiated ES cells and that ES cells after 3 days of differentiation had lost pluripotency. Further, the data demonstrate that EED KO ES cells self renewed, exhibited morphology and pluripotency marker expression similar to wild type ES cells, but failed to differentiate. This indicates an important role of EED not only for undifferentiated but also for differentiating ES cells.
Malaria stellt mit einer Mortalität von über einer Million Menschen pro Jahr die bedeutsamste Tropenkrankheit für den Menschen dar. Wachsende Resistenzen der Malariaerreger gegenüber den verfügbaren Medikamenten erhöhen mehr denn je den Druck, neue Therapiemöglichkeiten sowie einen Impfstoff gegen diese Krankheit zu entwickeln. Eine Unterbrechung des sexuellen Fortpflanzungszyklus im Laufe der Transmission von Mensch zu Stechmücke würde zu einem Verbreitungsstopp des Erregers führen. Sowohl die Identifizierung von molekularen Wechselwirkungen als auch die Erforschung von an Fertilisationsereignissen beteiligten Prozessen sind wichtige Schritte, um die Sexualphase des Erregers aufzuklären und neue Angriffspunkte für Medikamente oder Vakzine zu entwickeln. Dem Genom von P. falciparum konnten 92 putative Proteasen zugeordnet werden, von denen nur ein geringer Bruchteil charakterisiert worden ist. Unter Anwendung von Protease-Inhibitoren konnte in dieser Arbeit gezeigt werden, dass die Exflagellation der männlichen Gameten die Beteiligung von Proteasen verschiedener Kategorien benötigt. Die Ergebnisse belegten, dass die Aktivität von zwei oder mehr Serinproteasen, von Falcipain-ähnlichen Cysteinproteasen, von nicht-Thermolysin-ähnlichen Zink-Metalloproteasen und von Aspartatproteasen für den erfolgreichen Abschluss der männlichen Gametogenese eine wichtige Voraussetzung ist. Die Lokalisation des Cysteinproteasen- und Falcipain-hemmenden Inhibitors bADA konnte erstmals im Zytosol von Sexualstadien nachgewiesen werden. In dieser Arbeit wurden zusätzlich die Proteasen Calpain, DPAP2, GPI8, Metacaspase 2, Plasmepsin 6 und PfSub3 näher untersucht. RT-PCR-Analysen konnten die Transkription der sechs ausgesuchten Proteasen in gemischten asexuellen Parasiten sowie zum Großteil in Gametozyten, Gameten und Zygoten belegen. Die Transformation von asexuellen Parasiten mit entsprechenden knockout-Konstrukten deckte für Metacaspase 2 und PfSub3 auf, dass sie im asexuellen Vermehrungszyklus nicht essentiell und die entsprechenden Genloci für Rekombinationsereignisse zugänglich sind. Die Ergebnisse der übrigen Transformationen deuteten darauf hin, dass Calpain essentiell im asexuellen Vermehrungszyklus und dass der Genlocus von Plasmepsin 6 für Rekombinationsereignisse unzugänglich ist. Proteinexpressionsstudien anhand von Western-Blot-Analysen und Immunfluoreszenzstudien für PfSub3 konnten Hinweise darauf liefern, dass diese Serinprotease in asexuellen Parasiten, nicht-aktivierten sowie aktivierten Sexualstadien exprimiert wird. Aufgrund der in dieser Arbeit generierten Ergebnisse konnten im Laufe der Gametogenese auftretende Gametenfilamente morphologisch beschrieben sowie Hinweise auf ihre mögliche Funktion erlangt werden. Durch die Anwendung von Immunfluoreszenzstudien, rasterelektronenmikroskopischen Aufnahmen sowie die Analyse lebender Gameten konnte gezeigt werden, dass die bis zu 180 µm langen Filamente am Ende geschlossen sind und einen Durchmesser von ca. 200 nm aufweisen. Die tubulären Zellausläufer konnten weiterhin als verzweigte sowie nicht-verzweigte Ausläufer der parasitären Plasmamembran dargestellt werden, die mit Zytoplasma gefüllt sind. Es konnte belegt werden, dass die Aktin-assoziierten Filamente in periodischen Abständen von beulenartigen Auswölbungen unterbrochen werden und dass sie in rasterelektronenmikroskopischen Analysen ein perlschnurartiges Erscheinungsbild aufweisen. Weiterhin wurde dokumentiert, dass die Zellausläufer mit typischen sexualstadienspezifischen Proteinen wie Pfs25, Pfs230, Pfs48/45 und PfCCp4 assoziiert vorliegen, wobei das Fehlen einzelner dieser Proteine jedoch nicht das Ausbilden der Gametenfilamente verhinderte. Als typisches Charakteristikum der Filamente konnte ihre Eigenschaft beschrieben werden, mehrere Makrogameten und zum Teil Gametozyten in einem Zellkluster miteinander netzartig zu verbinden, wobei bis zu neun Filamente von einem Makrogameten ausgehend beobachtet werden konnten. Die Gametenfilamente zeigten ebenfalls die Fähigkeit, an umliegende nicht-infizierte Erythrozyten sowie mit asexuellen Parasiten infizierte Erythrozyten zu adhärieren. Die Filamente waren bereits fünf Minuten nach der Aktivierung der Gametozyten und im Laufe der Gametogenese bei 33 bis 73 % der Zellen nachweisbar. Die Gametenfilamente blieben bis zu 12 Stunden nach Aktivierung der Gametozyten mit der Zelloberfläche verbunden. Der aktive Einzug eines Zellfilaments sowie die Bildung der Gametenfilamente im Mitteldarm der Stechmücke konnte ebenfalls demonstriert werden. Die in dieser Arbeit dargestellten Ergebnisse lieferten unter anderem den Grundbaustein einer formulierten Funktionshypothese für diese Gametenfilamente. Es wird angenommen, dass die Filamente aufgrund ihrer adhäsiven Eigenschaften im Laufe der Befruchtung von Plasmodium im Mitteldarm der Stechmücke auftreten. Möglicherweise bedienen sich vitale Gameten dieser Strukturen, um andere Sexualstadien zu finden und sie zu verbinden.
ß-Arrestin/Rezeptor-Interaktionen - Ein endogenes "Werkzeug" ligandenspezifischer Signaltransduktion
(2010)
Die Bedeutung der β-Arrestine als multifunktionelle Adapterproteine GPCR-vermittelter Signaltransduktion hat in den letzten Jahren immer mehr zugenommen. In der vorliegenden Arbeit lag der Schwerpunkt auf der Untersuchung der molekularen Basis und der Ligandenabhängigkeit sowohl der β-Arrestin/Rezeptor-Interaktion als auch β-Arrestin- (un-)abhängiger Signaltransduktionsmechanismen. Im ersten Teil wurde der Einfluß potentieller Phosphorylierungsstellen im C-Terminus des β2AR bzw. im C-Terminus und der TM3 des P2Y1R auf die agonisteninduzierte β-Arrestin/Rezeptor-Interaktion, Internalisierung und Desensibilisierung untersucht. Durch Mutationsanalysen konnten Ser 352/Thr 358 im distalen C-Terminus des P2Y1R als Schlüsselstellen der β-Arrestin-Translokation und Internalisierung identifiziert werden, während ein oder mehrere Phosphorylierungsstellen im proximalen P2Y1R C-Terminus die molekulare Grundlage der Rezeptordesensibilisierung darstellen. Darüber hinaus machte die Anwendung verschiedener PKC- oder CaMK-Inhibitoren sowie der Einsatz des PKC-Aktivators PMA deutlich, dass die P2Y1R-Desensibilisierung und β-Arrestin-Translokation durch unterschiedliche Kinasen kontrolliert werden. Zudem konnte mit Hilfe der FRET-Technik gezeigt werden, dass die Phosphorylierungsstellen zwischen den Positionen 355 und 364 im proximalen β2AR C-Terminus essentielle Bereiche der β-Arrestin-Translokation darstellen. Im zweiten Teil der vorliegenden Arbeit wurden Agonisten am β2-adrenergen Rezeptor bzw. dem P2Y2R auf ihre Fähigkeit hin untersucht verschiedene mit dem jeweiligen Rezeptor verknüpfte G-Protein- bzw. β-Arrestin-Funktionen in unterschiedlichem Ausmaß zu aktivieren („biased agonism“). Da eine solche ligandenselektive Aktivierung rezeptorvermittelter Signalwege bis dato nur mit synthetischen Liganden detailliert untersucht wurde, galt das besondere Interesse der Analyse der durch die endogenen Substanzen induzierten Signalmuster. Die Betrachtung der Noradrenalin- bzw. Adrenalin-induzierten β-Arrestin/Rezeptor-Interaktion, β-Arrestin2-Translokation, Rezeptorinternalisierung, G-Protein-Aktivierung sowie cAMP-Produktion am β2AR machte deutlich, dass es sich beim Phänomen des „biased agonism“ um einen endogenen Mechanismus handelt. Darüber hinaus konnte gezeigt werden, dass auch zur Tokolyse eingesetzte β2AR-Agonisten spezifische Signalmuster induzieren. Die Beobachtung, dass UTP und ATP sowohl unterschiedliche β-Arrestin1/2-Translokationsals auch ERK-Aktivierungsmuster am P2Y2R induzieren bestärkte das Konzept des „biased agonism“ als endogenes Phänomen. Das ligandenabhängige β-Arrestin-Translokationsverhalten des P2Y2R ließ zudem die agonistenbedingte Zuteilung des Rezeptors zu den „Klasse A“ oder „Klasse B“ Rezeptoren zu. Die detaillierte Untersuchung agonisteninduzierter Rezeptor/Effektor-Interaktionen und Signalmuster dürfte helfen die Anwendung klinisch relevanter Substanzen zu optimieren.
This thesis is divided into three parts with the main goal allocating novel antimicrobial compounds that could be used as future antibiotics. The first part aimed to evaluate the potential of plant suspension cultures for the production of antimicrobial proteins. The extracellular, intracellular and cell wall bound fractions of seven heterotrophic and photomixotrophic plant cell suspension cultures treated with nine different elicitors were tested for the elicitor dependent production of antimicrobial proteins. Bioactivities were tested against a selected panel of human isolates including Gram-positive and Gram-negative bacteria as well as fungi using the disc diffusion assay. The intracellular fractions of elicited cell cultures were more active than extracellular fractions while the cell wall bound fractions showed lowest activities. Among the 21 fractions tested, the intracellular fraction of Lavendula angustifolia elicited with DC3000 was most active against Candida maltosa. The second most active fraction was the intracellular fraction of Arabidopsis thaliana elicited with salicylic acid which was moreover active against all test strains. The antimicrobial activity of elicited Arabidopsis thaliana cell cultures was tested by bioautography to locate the antimicrobial proteins in the crude extract. The intracellular fraction of photomixotrophic Arabidopsis thaliana cells elicited with salicylic acid was selected for further gel filtration chromatography on S-200 column leading to the purification of one 19 kDa antimicrobially active protein, designated, AtAMP. Our findings suggest that elicited plant cell cultures may present a new promising alternative source of antimicrobial proteins. The second part comprises the isolation of actinomycetes associated with marine sponges and testing the bioactivities of new species for further investigations. Actinobacterial communities of eleven taxonomically different sponges that had been collected from offshore Ras Mohamed (Egypt) and from Rovinj (Croatia) were investigated by a culture-based approach using different standard media for isolation of actinomycetes and media enriched with aqueous sponge extract to target rare and new actinomycete species. Phylogenetic characterization of 52 representative isolates out of 90 based on almost complete sequences of genes encoding 16S rRNA supported their assignment to 18 different actinomycete genera. Altogether 14 putatively new species were identified based on sequence similarity values below 98.2% to other strains in the NCBI database. The use of M1 agar amended with aqueous sponge extract yielded a putative new genus related to Rubrobacter which highlighting the need for innovative cultivation protocols. Biological activity testing showed that five isolates were active against Gram-positives only, one isolate was active against Candida albicans only and one isolate showed activity against both groups of pathogens. Moreover, the antiparasistic activity was documented for four isolates. These results showed a high diversity of actinomycetes associated with marine sponges as well as highlighted their potential to produce anti-infective agents. The third part of the thesis focused on the isolation and structure elucidation of new bioactive compounds. Streptomyces strain RV15 recovered from sponge Dysidea tupha, was selected for further chemical analysis by virtue of the fact that it exhibited the greatest antimicrobial potential against Staphylococcus aureus as well as Candida albicans among the all tested strains. Moreover, members of the genus Streptomyces are well known as prolific producers of interesting pharmacologically active metabolites. Chemical analysis of the methanolic crude extract using different chromatographic tools yielded four new compounds. The structures of the new compounds were spectroscopically elucidated to be four new cyclic peptides, namely, cyclodysidins A-D. Their bioactivity was tested against different proteases, bacteria and Candida as well as tumor cell lines. The compounds did not show any significant activities at this point.
Das ANP/GC-A-System spielt durch die Produktion des sekundären Botenstoffs cGMP eine wichtige Rolle bei der Regulation des Blutdruckes und des Blutvolumens. Bei Patienten mit Herzhypertrophie oder Herzinsuffizienz sind die ANP-Plasmakonzentrationen erhöht, aber die GC-A-vermittelten Effekte stark reduziert, was auf einen Defekt des Signalsystems hinweist. Studien an metabolisch markierten GC-A-überexprimierenden HEK 293-Zellen zeigten, dass der GC-A-Rezeptor im basalen Zustand stark phosphoryliert und die homologe bzw. heterologe Desensitisierung wahrscheinlich mit einer Dephosphorylierung verbunden ist. Die Desensitisierung stellt einen Mechanismus dar, der in vivo zu einem Funktionsverlust des Rezeptors beitragen könnte. Im Rahmen dieser Arbeit konnten mittels Massenspektrometrie sieben Phosphorylierungsstellen in der Kinasehomologen Domäne aus FLAG-GC-A exprimierenden HEK 293-Zellen detektiert werden: Ser487, Ser497, Thr500, Ser502, Ser506, Ser510 und Thr513. Die massenspektrometrische relative Quantifizierung basierend auf der Multiple-Reaction-Monitoring (MRM)-Methode zeigte bei ANP-induzierter, homologer Desensitisierung eine Dephosphorylierung der Phosphorylierungsstellen Ser497, Thr500, Ser502, Ser506, Ser510 und Thr513, was mit bereits publizierten Daten übereinstimmt, und einen starken Anstieg der Phosphorylierung an Ser487. Nach Inkubation mit Angiotensin II, welches eine heterologe Desensitisierung hervorruft, wurde eine Reduzierung aller Phosphorylierungen verzeichnet, die zudem stärker ausgeprägt war als bei der ANP-abhängigen Desensitisierung. Die Funktion der neu identifizierten Phosphorylierung an Ser487 wurde mittels Mutagenese analysiert. Die Substitution des Serins durch Alanin, welche den unphosphorylierten Zustand nachstellt, resultierte in einer Rezeptoraktivität und desensitisierung vergleichbar zum GC-A Wildtyp-Rezeptor. Wurde hingegen Serin gegen Glutamat getauscht, um den phosphorylierten Zustand zu imitieren, konnte der Rezeptor weder aktiviert noch desensitisiert werden. Diese Ergebnisse bestätigen vorherige Studien, dass die GC-A-Rezeptorantwort auf ANP durch die Phosphorylierungen reguliert wird. Allerdings scheint bei der homologen Desensitisierung die Phosphorylierung an der Position Ser487 eine Rolle zu spielen, da sie die Aktivität des Rezeptors inhibiert. Die Identifizierung und Charakterisierung dieser Phosphorylierungsstelle trägt zum Verständnis des Mechanismus der homologen Desensitierung bei. Zusätzlich konnten einige der beschriebenen Phosphorylierungen in Zellsystemen detektiert werden, die die GC-A endogen exprimieren. Dadurch sind unter physiologischen Bedingungen Analysen der Mechanismen möglich, die bei der Aktivierung und Deaktivierung der GC-A involviert sind und somit wichtige pathophysiologische Konsequenzen haben können.