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- Graduate School of Life Sciences (31)
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- CERN (Geneva, Switzerland) (1)
- Fraunhofer-Institut für Silicatforschung ISC (1)
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- Roche Diagnostics GmbH Penzberg (1)
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ResearcherID
- M-1240-2017 (1)
In the present work, the energetic structure and coherence properties of the silicon vacancy point defect in the technologically important material silicon carbide are extensively studied by the optically detected magnetic resonance (ODMR) technique in order to verify its high potential for various quantum applications. In the spin vacancy, unique attributes are arising from the C3v symmetry and the spin-3/2 state, which are not fully described by the standard Hamiltonian of the uniaxial model. Therefore, an advanced Hamiltonian, describing well the appearing phenomena is established and the relevant parameters are experimentally determined. Utilizing these new accomplishments, several quantum metrology techniques are proposed.
First, a vector magnetometry scheme, utilizing the appearance of four ODMR lines, allows for simultaneous detection of the magnetic field strength and the tilting angle of the magnetic field from the symmetry axis of the crystal.
The second magnetometry protocol utilizes the appearance of energetic level anticrossings (LAC) in the ground state (GS) energy levels. Relying only on the change in photoluminescence in the vicinity of this GSLACs, this all-optical method does not require any radio waves and hence provides a much easier operation with less error sources as for the common magnetometry schemes utilizing quantum points.
A similar all-optical method is applied for temperature sensing, utilizing the thermal shift of the zero field splitting and consequently the anticrossing in the excited state (ES). Since the GSLACs show no dependence on temperature, the all-optical magnetometry and thermometry (utilizing the ESLACs) can be conducted subsequently on the same defect.
In order to quantify the achievable sensitivity of quantum metrology, as well as to prove the potential of the Si-vacancy in SiC for quantum processing, the coherence properties are investigated by the pulsed ODMR technique. The spin-lattice relaxation time T1 and the spin-spin relaxation time T2 are thoroughly analyzed for their dependence on the external magnetic field and temperature.
For actual sensing implementations, it is crucial to obtain the best signal-to-noise ratio without loss in coherence time. Therefore, the irradiation process, by which the defects are created in the crystal, plays a decisive role in the device performance. In the present work, samples irradiated with electrons or neutrons with different fluences and energies, producing different defect densities, are analyzed in regard to their T1 and T2 times at room temperature.
Last but not least, a scheme to substantially prolong the T2 coherence time by locking the spin polarization with the dynamic decoupling Carr-Purcell-Meiboom-Gill (CPMG) pulse sequence is applied.
In contrast to normal vessels, tumor vasculature is structurally and functionally abnormal. Tumor vessels are highly disorganized, tortuous and dilated, with uneven diameter and excessive branching. Consequently, tumor blood flow is chaotic, which leads to hypoxic and acidic regions in tumors. These conditions lower the therapeutic effectiveness and select for cancer cells that are more malignant and metastatic. The therapeutic outcome could be improved by increasing the functionality and density of the tumor vasculature. Tumor angiogenesis also shows parallels to epithelial to mesenchymal transition (EMT), a process enabling metastasis. Metastasis is a multi-step process, during which tumor cells have to invade the surrounding host tissue to reach the circulation and to be transported to distant sites.
We hypothesize that the variability in the phenotype of the tumor vasculature is controlled by the differential expression of key transcription factors. Inhibiting these transcription factors might be a promising way for angiogenic intervention and vascular re-engineering. Therefore, we investigated the interdependence of tumor-, stroma- and immune cell-derived angiogenic factors, transcription factors and resulting vessel phenotypes. Additionally, we evaluated whether transcription factors that regulate EMT are promising targets for vascular remodeling.
We used formalin fixed paraffin embedded samples from breast cancer patients, classified according to estrogen-, progesterone- and human epidermal growth factor receptor (HER) 2 status. Establishing various techniques (CD34 staining, laser microdissection, RNA isolation and expression profiling) we systematically analyzed tumor and stroma-derived growths factors. In addition, vascular parameters such as microvessel size, area, circularity and density were assessed. Finally the established expression profiles were correlated with the observed vessel phenotype. As the SNAI1 transcriptional repressor is a key regulator of EMT, we examined the effect of vascular knockdown of Snai1 in murine cancer models (E0771, B16-F10 and lewis lung carcinoma).
Among individual mammary carcinomas, but not among subtypes, strong differences of vascular parameters were observed. Also, little difference between lobular carcinomas and ductal carcinomas was found. Vessel phenotype of Her2 enriched carcinomas was similar to that of lobular carcinomas. Vessel morphology of luminal A and B and basal-like tumors resembled each other. Expression of angiogenic factors was variable across subtypes. We discovered an inverse correlation of PDGF-B and VEGF-A with vessel area in luminal A tumors. In these tumors expression of IL12A, an inhibitor of angiogenesis, was also correlated with vessel size. Treatment of endothelial cells with growth factors revealed an increased expression of transcription factors involved in the regulation of EMT. Knockdown of Snai1 in endothelial cells of mice increased tumor growth and decreased hypoxia in the E0771 and the B16-F10 models. In the lewis lung carcinomas, tumor vascularity and biodistribution of doxorubicin were improved. Here, doxorubicin treatment in combination with the endothelial cell-specific knockdown did slow tumor growth. This shows that SNAI1 is important for a tumor's vascularization, with the significance of its role depending on the tumor model.
The methods established in this work open the way for the analysis of the expression of key transcription factors in vessels of formalin fixed paraffin embedded tumors. This research enables us to find novel targets for vascular intervention and to eventually design novel targeted drugs to inhibit these targets.
1. Today honey bee colonies face a wide range of challenges in modern agricultural landscapes which entails the need for a comprehensive investigation of honey bees in a landscape context and the assessment of environmental risks. Within this dissertation the pollen foraging of honey bee colonies is studied in different agricultural landscapes to gain insight into the use of pollen resources and the influence of landscape structure across the season. General suggestions for landscape management to support honey bees and other pollinators are derived.
2. Decoding of waggle dances and a subsequent spatial foraging analysis are used as methods in Chapters 4 and 5 to study honey bee colonies in agricultural landscapes. The recently developed metabarcoding of mixed pollen samples was applied for the first time in honey bee foraging ecology and allowed for a detailed analysis of pollen, that was trapped from honey bees in front hive entrances (Chapter 6).
3. Pollen identification through molecular sequencing and DNA barcoding has been proposed as an alternative approach to light microscopy, which still is a tedious and error-prone task. In this study we assessed mixed pollen probes through next-generation sequencing and developed a bioinformatic workflow to analyse these high-throughput data with a newly created reference database. To evaluate the feasibility, we compared results from classical identification based on light microscopy from the same samples with our sequencing results. Abundance estimations from sequencing data were significantly correlated with counted abundances through light microscopy. Next-generation sequencing thus presents a useful and efficient workflow to identify pollen at the genus and species level without requiring specialized palynological expert knowledge.
4. During maize flowering, four observation hives were placed in and rotated between 11 landscapes covering a gradient in maize acreage. A higher foraging frequency on maize fields compared to other landuse types showed that maize is an intensively used pollen resource for honey bee colonies. Mean foraging distances were significantly shorter for maize pollen than for other pollen origins, indicating that effort is put into collecting a diverse pollen diet. The percentage of maize pollen foragers did not increase with maize acreage in the landscape and was not reduced by grassland area as an alternative pollen resource. Our findings allow estimating the distance-related exposure risk of honey bee colonies to pollen from surrounding maize fields treated with systemic insecticides.
5. It is unknown how an increasing area of mass-flowering crops like oilseed rape (OSR) or a decrease of semi-natural habitats (SNH) change the temporal and spatial availability of pollen resources for honey bee colonies, and thus foraging distances and frequency in different habitat types. Sixteen observation hives were placed in and rotated between 16 agricultural landscapes with independent gradients of OSR and SNH area within 2 km to analyze foraging distances and frequencies. SNH and OSR reduced foraging distance at different spatial scales and depending on season, with possible benefits for the performance of honey bee colonies. Frequency of pollen foragers per habitat type was equally high for SNH, grassland and OSR fields, but lower for other crops and forest. In landscapes with a small proportion of SNH a significantly higher density of pollen foragers on SNH was observed, indicating the limitation of pollen resources in simple agricultural landscapes and the importance of SNH.
6. Quantity and diversity of collected pollen can influence the growth and health of honey bee colonies, but little is known about the influence of landscape structure on pollen diet. In a field experiment we rotated 16 honey bee colonies across 16 agricultural landscapes (see also Chapter 5), used traps to get samples of collected pollen and observed the intra-colonial dance communication to gain information about foraging distances. Neither the amount of collected pollen nor pollen diversity were related to landscape diversity. The revealed increase of foraging distances with decreasing landscape diversity suggests that honey bees compensate for a lower landscape diversity by increasing their pollen foraging range in order to maintain pollen amount and diversity.
7. Our results show the importance of diverse pollen resources for honey bee colonies in agricultural landscapes. Beside the risk of exposure to pesticides honey bees face the risk of nutritional deficiency with implications for their health. By modifying landscape composition and therefore availability of resources we are able to contribute to the wellbeing of honey bees. Agri-environmental schemes aiming to support pollinators should focus on possible spatial and temporal gaps in pollen availability and diversity in agricultural landscapes.
Pancreatic cancer (PC) remains one of the most challenging solid tumors to treat with a high unmet medical need as patients poorly respond to standard-of-care-therapies. Prominent desmoplastic reaction involving cancer-associated fibroblasts (CAFs) and the immune cells in the tumor microenvironment (TME) and their cross-talk play a significant role in tumor immune escape and progression. To identify the key cellular mechanisms induce an immunosuppressive tumor microenvironment, we established 3D co-culture model with pancreatic cancer cells, CAFs, monocyte as well as T cells.
Using this model, we analysed the influence of tumor cells and fibroblasts on monocytes and their immune suppressive phenotype. Phenotypic characterization of the monocytes after 3D co-culture with tumor/fibroblast spheroids was performed by analysing the expression of defined cell surface markers and soluble factors. Functionality of these monocytes and their ability to influence T cell phenotype and proliferation was investigated.
3D co-culture of monocytes with pancreatic cancer cells and fibroblasts induced the production of immunosuppressive cytokines which are known to promote polarization of M2 like macrophages and myeloid derived suppressive cells (MDSCs). These co-culture spheroid polarized monocyte derived macrophages (MDMs) were poorly differentiated and had an M2 phenotype. The immunosuppressive function of these co-culture spheroids polarized MDMs was demonstrated by their ability to inhibit autologous CD4+ and CD8+ T cell activation and proliferation in vitro, which we could partially reverse by 3D co-culture spheroid treatment with therapeutic molecules that are able to re-activate spheroid polarized MDMs or block immune suppressive factors such as Arginase-I.
In conclusion, we generated a physiologically relevant 3D co-culture model, which can be used as a promising tool to study complex cell-cell interactions between different cell types within the tumor microenvironment and to support drug screening and development. In future, research focused on better understanding of resistance mechanisms to existing cancer immunotherapies will help to develop new therapeutic strategies in order to combat cancer.
The aim of the present work was to determine the breast adipose tissue composition regarding fatty acids, cholesterol and (aut)oxidation products of cholesterol in women without breast cancer and to identify associated variables. Thus the necessary methods were optimized and validated where required and the breast adipose tissues of women without breast cancer were collected and analyzed.
The gas chromatography with flame ionization detection was optimized for detection and separation of 37 relevant fatty acids. Fifty breast adipose tissues were analyzed using the optimized method. 26 fatty acids were detected in breast adipose tissues. The median proportion of saturated (sum of 11 fatty acids), monounsaturated (sum of 5 fatty acids), polyunsaturated (sum of 9 fatty acids) and one trans fatty acid were 34.6%, 53.2%, 12.1% and 0.3% respectively. Moreover, absolute levels of pentadecanoic acid (median: 0.37 mg/g, range: 0.08 - 1.31 mg/g), elaidic acid (median: 0.50 mg/g, range: 0.09 - 1.92 mg/g), linolenic acid (median: 0.88 mg/g, range: 0.10 - 3.06 mg/g) and docosahexaenoic acid (median: 0.31 mg/g, range: 0.04 - 1.80 mg/g) were determined in breast adipose tissues for the first time. These four fatty acids are indicative for consumption of dairy products, processed fats, vegetable oils such as flax seed oil and fish respectively.
Furthermore, for the investigation of cholesterol in breast adipose tissues a gas chromatography was optimized and validated. The accuracies of the method in three independent spiked samples with low, medium and high levels of cholesterol were 99.1 ± 10.1%, 87.0 ± 11.2%, and 103.4 ± 4.6% with precisions of 2.1, 2.1, and 0.8% respectively. Using external calibration with internal standard cholesterol was quantified in samples (median: 1.1 mg/g, range: 0.7 - 1.5 mg/g).
In order to detect (aut)oxidation products of cholesterol, gas chromatography coupled triple quadrupole mass spectrometry was optimized and validated. The accuracy was between 81.6% and 115.7% and precisions for low, medium and high oxy-cholesterols levels were below 10.0%. The quantitative determination of (aut)oxidation products of cholesterol was established using external calibration with an internal standard. The most abundant oxy-cholesterol was 5,6β-Epoxy- (median: 147.2 ng/g, range: 25.7 – 624.2 ng/g), followed by 5,6α-Epoxy- (median: 34.6 ng/g, range: 9.9 – 124.7 ng/g), 7-Keto- (median: 19.1 ng/g, range: 7.9 – 220.6 ng/g), 7α-Hydroxy- (median: 10.2 ng/g, range: 3.8 – 111.3 ng/g) and 7β-Hydroxy-Cholesterol (median: 3.5 ng/g, range: 1.0 – 45.6 ng/g) respectively. Median oxy-cholesterol/cholesterol ratios ranged from 0.0001 (5,6β-Epoxy-Cholesterol) to 0.000003 (7β-Hydroxy-Cholesterol).
Finally the associations between fatty acids, cholesterol and oxy-cholesterol were investigated using Spearman’s rank correlation. Absolute levels of elaidic acid were positively correlated with levels of linolenic and docosahexaenoic acid (R = 0.79, 0.68, p < 0.01). Absolute levels of linolenic acid were positively associated with levels of docosahexaenoic acid (R = 0.81, p < 0.01). Moreover, relative proportions of saturated fatty acids capric, myristic, palmitic and stearic acid were negatively correlated with oleic acid (R = -0.36, -0.71, -0.65, -0.39, p < 0.05). Tissue levels of cholesterol were not correlated with levels of 5,6α/β-Epoxy-Cholesterols but were negatively associated with that of 7α-Hydroxy-, 7β-Hydroxy- and 7-Keto-Cholesterol (R = -0.29, -0.32, -0.29 p = 0.04, 0.02, 0.04). Levels of 7-Keto- and 7-Hydoxy-Cholesterol were strongly correlated with each other (R = 0.81, 0.91, p < 0.01) and, weaker, with 5,6α/β-Epoxy-Cholesterols (R = 0.60-0.70, p < 0.01). 5,6α/β-Epoxy-Cholesterols were associated positively with each other (R = 0.90, P < 0.01). Total oxy-cholesterol, 7β-Hydroxy-Cholesterol, and 5,6β-Epoxy-Cholesterol levels were correlated with relative proportions of elaidic acid (R = 0.30, 0.30, and 0.31 respectively, p = 0.04, 0.03, 0.03, respectively), whereas no correlation was observed between levels of oxy-cholesterols and relative proportion of pentadecanoic acid, linolenic acid and docosahexaenoic acid.
Furthermore, Spearman’s rank correlation was performed to investigate the relationship of fatty acids, cholesterol and oxy-cholesterol with age and body mass index. The relative proportions of total saturated fatty acids were negatively correlated with age (R = -0.47, p < 0.01) and body mass index (R = -0.29, p = 0.05). A positive significant correlation was observed between proportions of oleic acid and body mass index (R = 0.32, p = 0.02). There was no correlation between levels of cholesterol and body mass index or age. Likewise, no correlations of oxy-cholesterol levels with age or body mass index were observed.
In sum, in this work the quantification methods of cholesterol and oxy-cholesterol were validated. The validation data met the criteria according to the FDA guideline. Using the validated methods the absolute levels of cholesterol and oxy-cholesterols were determined in breast adipose tissue of human females for the first time.
The role of miR-21 in the pathophysiology of neuropathic pain using the model of B7-H1 knockout mice
(2017)
The impact of microRNA (miRNA) as key players in the regulation of immune and neuronal gene expression and their role as master switches in the pathophysiology of neuropathic pain is increasingly recognized. miR-21 is a promising candidate that could be linked to the immune and the nociceptive system. To further investigate the pathophysiological role of miR-21 in neuropathic pain, we assesed mice deficient of B7 homolog 1 (B7-H1 ko), a protein with suppressive effect on inflammatory responses.
B7-H1 ko mice and wildtype littermates (WT) of three different age-groups, young (8 weeks), middle-aged (6 months), and old (12 months) received a spared nerve injury (SNI). Thermal withdrawal latencies and mechanical withdrawal thresholds were determined. Further, we investigated anxiety-, depression-like and cognitive behavior. Quantitative real time PCR was used to determine miR-21 relative expression in peripheral nerves, dorsal root ganglia and white blood cells (WBC) at distinct time points after SNI.
Naïve B7-H1 ko mice showed mechanical hyposensitivity with increasing age. Young and middle-aged B7-H1 ko mice displayed lower mechanical withdrawal thresholds compared to WT mice. From day three after SNI both genotypes developed mechanical and heat hypersensitivity, without intergroup differences. As supported by the results of three behavioral tests, no relevant differences were found for anxiety-like behavior after SNI in B7-H1 ko and WT mice. Also, there was no indication of depression-like behavior after SNI or any effect of SNI on cognition in both genotypes. The injured nerves of B7-H1 ko and WT mice showed higher miR-21 expression and invasion of macrophages and T cells 7 days after SNI without intergroup differences. Perineurial miR-21 inhibitor injection reversed SNI-induced mechanical and heat hypersensitivity in old B7-H1 ko and WT mice.
This study reveals that reduced mechanical thresholds and heat withdrawal latencies are associated with miR-21 induction in the tibial and common peroneal nerve after SNI, which can be reversed by perineurial injection of a miR-21 inhibitor. Contrary to expectations, miR-21 expression levels were not higher in B7-H1 ko compared to WT mice. Thus, the B7-H1 ko mouse may be of minor importance for the study of miR-21 related pain. However, these results spot the contribution of miR-21 in the pathophysiology of neuropathic pain and emphasize the crucial role of miRNA in the regulation of neuronal and immune circuits that contribute to neuropathic pain.
Merkel cell carcinoma (MCC) is an aggressive neuroendocrine skin cancer that has been associated with the Merkel cell polyomavirus (MCPyV). Indeed, MCC is one of the cancers with the best-established viral carcinogenesis. Despite persistence of the virus in MCC cells and the subsequent expression of viral antigens, the majority of MCC tumors are able to escape the surveillance of the immune system. Therefore the aim of the here presented thesis was to scrutinize immune escape mechanisms operative in MCC. A better understanding of their underlying molecular processes should allow to improve immunotherapeutic treatment strategies for MCC patients. The manuscripts included in this thesis characterize three novel immune evasion strategies of MCC.
I) the epigenetic silencing of the NKG2D ligands MICA and MICB via histone H3 hypoacetylation
II) reduced HLA class I surface expression via epigenetic silencing of the antigen processing machinery (APM)
III) the activation of the PI3K-AKT pathway in a mutation independent manner as potential immune escape strategy
MCC tumors and MCC cell lines were analyzed for their expression of MICA/B, HLA and components of the antigen processing machinery as well as for the activation of the PI3K-AKT pathway in situ and in vitro. These analysis reviled MICA and MICB, as well as HLA class I were not expressed or at least markedly reduced in ~80% of MCCs in situ. The PI3K-AKT pathway, that had only recently been demonstrated to play a significant role in tumor immune escape, was activated in almost 90% of MCCs in situ. To determine the underlying molecular mechanisms of these aberrations well characterized MCC cell lines were further analyzed in vitro. The fact that the PI3K-AKT pathway activation was due to oncogenic mutations in the PIK3CA or AKT1 gene in only 10% of MCCs, suggested an epigenetic regulation of this pathway in MCC. In line with this MICA/B as well as components of the APM were indeed silenced epigenetically via histone hypoacetylation in their respective promoter region. Notably MICA/B and HLA class I expression on the cell surface of MCC cells could be restored after treatment with HDAC inhibitors in combination with the Sp1 inhibitor Mithramycin A in all analyzed MCC cell lines in vitro and in a xenotransplantation mouse model in vivo. Moreover inhibition of HDACs increased immune recognition of MCC cell lines in a MICA/B and HLA class I dependent manner.
Several studies have accumulated evidence that immunotherapy is a promising treatment option for MCC patients due to the exquisite immunogenicity of this malignancy. However, current immunotherapeutic interventions towards solid tumors like MCC have to account for the plentitude of tumor immune escape strategies, in order to increase response rates. The immune escape mechanisms of MCC described in this thesis can be reverted by HDAC inhibition, thus providing the rationale to combine ‘epigenetic priming’ with currently tested immunotherapeutic regimens.
Desert ants of the genus Cataglyphis (Formicinae) are widely distributed in arid
areas of the palearctic ecozone. Their habitats range from relatively cluttered environments in the Mediterranean area to almost landmark free deserts. Due to their
sophisticated navigational toolkit, mainly based on the sky-compass, they were
studied extensively for the last 4 decades and are an exceptional model organism
for navigation. Cataglyphis ants exhibit a temporal polyethism: interior workers
stay inside the dark nest and serve as repletes for the first ∼2 weeks of their adult
life (interior I). They then switch to nursing and nest maintenance (interior II)
until they transition to become day-active outdoor foragers after ∼4 weeks. The
latter switch in tasks involves a transition phase of ∼2-3 days during which the
ants perform learning and orientation walks. Only after this last phase do the ants
start to scavenge for food as foragers.
In this present thesis I address two main questions using Cataglyphis desert ants
as a model organism:
1. What are the underlying mechanisms of temporal polyethism?
2. What is the neuronal basis of sky-compass based navigation in Cataglyphis
ants?
Neuropeptides are important regulators of insect physiology and behavior and as
such are promising candidates regarding the regulation of temporal polyethism in
Cataglyphis ants. Neuropeptides are processed from large precursor proteins and undergo substantial post-translational modifications. Therefore, it is crucial to biochemically identify annotated peptides. As hardly any peptide data are available
for ants and no relevant genomic data has been recorded for Cataglyphis, I started
out to identify the neuropeptidome of adult Camponotus floridanus (Formicinae)
workers (manuscript 1). This resulted in the first neuropeptidome described in an
ant species – 39 neuropeptides out of 18 peptide families. Employing a targeted
approach, I identified allatostatin A (AstA), allatotropin (AT), short neuropeptide
F (sNPF) and tachykinin (TK) using mass spectrometry and immunohistology to
investigate the distribution of AstA, AT and TK in the brain (manuscript 2). All
three peptides are localized in the central complex, a brain center for sensory integration and high-order control of locomotion behavior. In addition, AstA and
TK were also found in visual and olfactory input regions and in the mushroom
bodies, the centers for learning and memory formation. Comparing the TK immunostaining in the brain of 1, 7 and 14 days old dark kept animals revealed that
the distribution in the central complex changes, most prominently in the 14 day
old group. In the Drosophila central complex TK modulates locomotor activity
levels. I therefore hypothesize that TK is involved in the internal regulation of the
interior I–interior II transition which occurs after ∼2 weeks of age.
I designed a behavioral setup to test the effect of neuropeptides on the two traits:
’locomotor activity level’ and ’phototaxis’ (manuscript 3). The test showed that
interior I ants are less active than interior II ants, which again are less active
than foragers. Furthermore, interior ants are negatively phototactic compared to
a higher frequency of positive phototaxis in foragers. Testing the influence of AstA
and AT on the ants’ behavior revealed a stage-specific effect: while interior I behavior is not obviously influenced, foragers become positively phototactic and more
active after AT injection and less active after AstA injection. I further tested the
effect of light exposure on the two behavioral traits of interior workers and show that it rises locomotor activity and results in decreased negative phototaxis in
interior ants. However, both interior stages are still more negatively phototactic
than foragers and only the activity level of interior II ants is raised to the forager
level. These results support the hypothesis that neuropeptides and light influence
behavior in a stage-specific manner.
The second objective of this thesis was to investigate the neuronal basis of skycompass navigation in Cataglyphis (manuscript 4). Anatomical localization of the
sky-compass pathway revealed that its general organization is highly similar to
other insect species. I further focused on giant synapses in the lateral complex,
the last relay station before sky-compass information enters the central complex.
A comparison of their numbers between newly eclosed ants and foragers discloses
a rise in synapse numbers from indoor worker to forager, suggesting task-related
synaptic plasticity in the sky-compass pathway. Subsequently I compared synapse
numbers in light preexposed ants and in dark-kept, aged ants. This experiment
showed that light as opposed to age is necessary and sufficient to trigger this rise
in synapse number. The number of newly formed synapses further depends on the
spectral properties of the light to which the ants were exposed to.
Taken together, I described neuropeptides in C. floridanus and C. fortis, and provided first evidence that they influence temporal polyethism in Cataglyphis ants.
I further showed that the extent to which neuropeptides and light can influence
behavior depends on the animals’ state, suggesting that the system is only responsive under certain circumstances. These results provided first insight into the
neuronal regulation of temporal polyethism in Cataglyphis. Furthermore, I characterized the neuronal substrate for sky-compass navigation for the first time in
Cataglyphis. The high level of structural synaptic plasticity in this pathway linked
to the interior–forager transition might be particularly relevant for the initial calibration of the ants’ compass system.
Preclinical development of an immunotherapy against antibiotic-resistant Staphylococcus aureus
(2017)
The Gram-positive bacterium Staphylococcus aureus is the leading cause of nosocomial infections. In particular, diseases caused by methicillin-resistant S. aureus (MRSA) are associated with higher morbidity, mortality and medical costs due to showing resistance to several classes of established antibiotics and their ability to develop resistance mechanisms against new antibiotics rapidly. Therefore, strategies based on immunotherapy approaches have the potential to close the gap for an efficient treatment of MRSA.
In this thesis, a humanized antibody specific for the immunodominant staphylococcal antigen A (IsaA) was generated and thoroughly characterized as potential candidate for an antibody based therapy. A murine monoclonal antibody was selected for humanization based on its binding characteristics and the ability of efficient staphylococcal killing in mouse infection models. The murine antibody was humanized by CDR grafting and mouse and humanized scFv as well as scFv-Fc fragments were constructed for comparative binding studies to analyse the successful humanization. After these studies, the full antibody with the complete Fc region was constructed as isotype IgG1, IgG2 and IgG4, respectively to assess effector functions, including antibody-dependent killing of S. aureus. The biological activity of the humanized antibody designated hUK-66 was analysed in vitro with purified human PMNs and whole blood samples taken from healthy donors and patients at high risk of S. aureus infections, such as those with diabetes, end-stage renal disease, or artery occlusive disease (AOD).
Results of the in vitro studies show, that hUK-66 was effective in antibody-dependent killing of S. aureus in blood from both healthy controls and patients vulnerable to S. aureus infections. Moreover, the biological activity of hUK-66 and hUK-66 combined with a humanized anti-alpha-toxin antibody (hUK-tox) was investigated in vivo using a mouse pneumonia model. The in vivo results revealed the therapeutic efficacy of hUK-66 and the antibody combination of hUK-66 and hUK-tox to prevent staphylococcal induced pneumonia in a prophylactic set up.
Based on the experimental data, hUK-66 represents a promising candidate for an antibody-based therapy against antibiotic resistant MRSA.
Posttranslational modifications (PTMs) play a crucial role in many cellular processes. They are reversible, dynamic, and highly regulated events that alter the properties of proteins and increase their functional diversity. The identification and quantification of PTMs are critical for deciphering the molecular mechanisms of PTMs-related biological processes and disease treatment and prevention. Two of the most common and important PTMs that regulate many protein functions are acetylation and phosphorylation.
An important role of acetylation is the regulation of DNA/RNA-protein interactions. A prominent example for this are histones, whose tail regions are lysine-rich and can be highly acetylated at their N-terminal domain. In spite of the utmost importance of this PTM, methods that allow the accurate measuring the site-specific acetylation degree are missing. One of the challenges in quantifying the acetylation degree at an individual lysine residue of the histones N-termini is the occurrence of multiple lysines in close proximity. Herein, we describe the development of the ”Fragment Ion Patchwork Quantification,” a new mass spectrometry-based approach for the highly accurate quantification of sites-pecific acetylation degrees. This method combines 13C1-acetyl derivatization on the protein level, proteolysis by low-specificity proteases and quantification on the fragment ion level. Acetylation degrees are determined from the isotope patterns of acetylated b and y ions. We have shown that this approach allows determining the site-specific acetylation degrees of all lysine residues for all core histones of Trypanosoma brucei. In addition, we demonstrate the use of this approach to identify the substrate sites of histone acetyltransferases and to monitor the changes in acetylation of the histones of canonical nucleosome and transcription start site nucleosomes.
Phosphorylation is one of the most common and most important PTMs. The analysis of the human genome showed that there are about 518 kinases and more than 500,000 phosphorylation sites are believed to exist in the cellular proteome. Protein phosphorylation plays a crucial role in signaling many different cell processes, such as intercellular communication, cell growth, differentiation of proliferation and apoptosis. Whereas MS-based identification and relative quantification of singly phosphorylated peptides have been greatly improved during the last decade, and large-scale analysis of thousands of phosphopeptides can now be performed on a routine-base, the analysis of multi-phosphorylated peptides is still lagging vastly behind. The low pKa value of phosphate group and the associated negative charge are considered the major source of the problems with the analysis of
multi-phosphorylated peptides. These problems include the formation of phosphopeptide-metal complexes during liquid chromatography (e.g. Fe 3+), which leads to a drastic deterioration of the chromatographic properties of these peptides (peak tailing), the decreased ionization efficiencies of phosphorylated peptides compared to their unphosphorylated counterparts, the labile nature of phosphate during CID/HCD fragmentation, and the unsuitability of low-charged phosphopeptides for ETD fragmentation are the most important factors that hinder phosphorylation analysis by LC-MS/MS. Here we aimed to develop a method for improving the identification of multi-phosphorylated peptides as well as the localization of phosphorylation sites by charge-reversal derivatization of the phosphate groups. This method employs a carbodiimide-mediated phosphoramidation to converted the phosphates to stable aromatic phosphoramidates. This chemical modification of phosphosite(s) reversed the negative charge of the phosphate group(s) and increased the number of the positive charges within the phosphopeptide. This modification prevented the formation of phosphopeptide-metal ion complexes that dramatically decreases or completely diminishes the signal intensity of protonated phosphopeptides, specifically multi-phosphorylated peptides. Furthermore, the increased net charge the (phospho-)peptides made them suitable for ETD fragmentation, which generated a high number of fragment ions with high intensities that led to a better phosphopeptide identification and localization of phosphosite(s) with high confidence.