@phdthesis{Glueck2024, author = {Gl{\"u}ck, Valentina}, title = {Habitual avoidance in trait anxiety and anxiety disorders}, doi = {10.25972/OPUS-36022}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-360227}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Maladaptive avoidance behaviors can contribute to the maintenance of fear, anxiety, and anxiety disorders. It has been proposed that, throughout anxiety disorder progression, extensively repeated avoidance may become a habit (i.e., habitual avoidance) instead of being controlled by internal threat-related goals (i.e., goal-directed avoidance). However, the process of the acquisition of habitual avoidance in anxiety disorders is not yet well understood. Accordingly, the current thesis aimed to investigate experimentally whether trait anxiety and anxiety disorders are associated with an increased shift from goal-directed to habitual avoidance. The aim of Study 1 was to develop an experimental operationalization of maladaptive habitual avoidance. To this end, we adapted a commonly used action control task, the outcome devaluation paradigm. In this task, habitual avoidance was operationalized as persistent responses after extensive training to avoid an unpleasant stimulus when the aversive outcome was devalued, i.e., when individuals knew the aversive outcome could not occur anymore. We included indicators for costly and low-cost habitual avoidance, whereby habitual avoidance was associated with a monetary cost, while low-cost habitual avoidance was not associated with monetary costs. In Experiment 1 of Study 1, a pronounced costly and non-costly outcome devaluation effect was observed. However, this result may have partly resulted from trial-and-error learning or a better-safe-than-sorry strategy since not instructions about the stimulus-response-outcome contingencies after the outcome devaluation procedure had been provided to the participants. In Experiment 2 of Study 1, instructions on these stimulus-response-outcome contingencies were included to prevent the potential confounders. As a result, we observed no indicators for costly habitual avoidance, but evidence for low-cost habitual avoidance, potentially because competing goal-directed responses could easily be implemented and inhibited costly habitual avoidance tendencies. In Study 2, the strength of habitual avoidance acquisition was compared between participants with and without anxiety disorders, using the experimental task of Experiment 1 in Study 1. The results indicated that costly and low-cost habitual avoidance was not more pronounced in participants with anxiety disorders than in the healthy control group. However, in an exploratory subgroup comparison, panic disorder predicted more substantial habitual avoidance acquisition than social anxiety disorder. In Study 3, we investigated whether trait anxiety as a risk factor for anxiety disorders is associated with a specific increased shift from goal-directed to habitual avoidance and approach. The task from the Experiment 1 of Study 1 was adapted to include parallel versions for operationalizing habitual avoidance and habitual approach responses. Using a within-subjects design, the individuals - pre-screened for high and low trait anxiety - took part in the approach and the avoidance outcome devaluation task version. The results suggested stronger non-costly habitual responses in more highly trait-anxious individuals independent of the task version, and suggested a tendency towards an impact of trait anxiety on costly habitual approach rather than on costly habitual avoidance. In summary, individuals with high trait anxiety or anxiety disorders did not develop habitual avoidance more readily than individuals with low trait anxiety or without anxiety disorders. Therefore, this thesis does not support the assumption that an increased tendency to acquire habitual avoidance contributes to persistent maladaptive avoidance in anxiety disorders. The thesis also contributes to the discourse on the validity of outcome devaluation studies in general by highlighting the impact of task features, such as the instructions after the outcome devaluation procedure or the task difficulty in the test phase, on the experimental results. Such validity issues may partly explain the heterogeneity of findings in research with the outcome devaluation paradigm. We suggest ways towards more valid operationalizations of habitual avoidance in future studies.}, subject = {Gewohnheit}, language = {en} } @phdthesis{Gabel2024, author = {Gabel, Martin Sebastian}, title = {Behavioural resistance to \(Varroa\) \(destructor\) in the Western honeybee \(Apis\) \(mellifera\) - Mechanisms leading to decreased mite reproduction}, doi = {10.25972/OPUS-36053}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-360536}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The Western Honeybee (Apis mellifera) is among the most versatile species in the world. Its adaptability is rooted in thousands of the differently specialized individuals acting jointly together. Thus, bees that are able to handle a certain task or condition well can back up other individuals less capable to do so on the colony level. Vice versa, the latter individuals might perform better in other situations. This evolutionary recipe for success ensures the survival of colonies despite challenging habitat conditions. In this context, the ectoparasitic mite Varroa destructor reflects the most pronounced biotic challenge to honeybees worldwide. Without proper treatment, infested colonies rapidly dwindle and ultimately die. Nevertheless, resistance behaviours against this parasite have evolved in some populations through natural selection, enabling colonies to survive untreated. In this, different behaviours appear to be adapted to the respective habitat conditions and may complement each other. Yet, the why and how of this behavioural response to the mite remains largely unknown. My thesis focuses on the biological background of Varroa-resistance traits in honeybees and presents important findings for the comprehension of this complex host-parasite interaction. Based on this, I draw implications for both, applied bee breeding and scientific investigations in the field of Varroa-resistance. Specifically, I focus on two traits commonly found in resistant and, to a lower degree, also mite-susceptible colonies: decreased mite reproduction and the uncapping and subsequent recapping of sealed brood cells. Examining failures in the reproductive success of mites as a primary mechanism of Varroa-resistance, I was able to link them to specific bee behaviours and external factors. Since mite reproduction and the brood rearing of bees are inevitably connected, I first investigated the effects of brood interruption on the reproductive success of mites. Brood interruption decreased the reproductive success of mites both immediately and in the long term. By examining the causes of reproductive failure, I could show that this was mainly due to an increased share of infertile mites. Furthermore, I proved that interruption in brood rearing significantly increased the expression of recapping behaviour. These findings consequently showed a dynamic modulation of mite reproduction and recapping, as well as a direct effect of brood interruption on both traits. To further elucidate the plasticity in the expression of both traits, I studied mite reproduction, recapping behaviour and infestation levels over the course of three years. The resulting extensive dataset unveiled a significant seasonal variation in mite reproduction and recapping. In addition, I show that recapping decreases the reproductive success of mites by increasing delayed developing female offspring and cells lacking male offspring. By establishing a novel picture-based brood investigation method, I could furthermore show that both the removal of brood cells and recapping activity specifically target brood ages in which mite offspring would be expected. Recapping, however, did not cause infertility of mites. Considering the findings of my first study, this points towards complementary mechanisms. This underlines the importance of increased recapping behaviour and decreased mite reproduction as resistance traits, while at the same time emphasising the challenges of reliable data acquisition. To pave the way for a practical application of these findings in breeding, we then investigated the heritability (i.e., the share of genotypic variation on the observed phenotypic variation) of the accounted traits. By elaborating comparable test protocols and compiling data from over 4,000 colonies, we could, for the first time, demonstrate that recapping of infested cells and decreased reproductive success of mites are heritable (and thus selectable) traits in managed honeybee populations. My thesis proves the importance of recapping and decreased mite reproduction as resistance traits and therefore valuable goals for breeding efforts. In this regard, I shed light on the underlying mechanisms of both traits, and present clear evidence for their interaction and heritability.}, subject = {Varroa destructor}, language = {en} } @phdthesis{Dekant2024, author = {Dekant, Raphael H.}, title = {Species-differences in the \(in\) \(vitro\) biotransformation of trifluoroethene (HFO-1123)}, doi = {10.25972/OPUS-31403}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-314035}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {1,1,2-trifluoroethene (HFO-1123) is intended for use as a refrigerant. Inhalation studies on HFO-1123 in rats suggested a low potential for toxicity, with no-observed-adverse-effect levels greater then 20,000 ppm. However, single inhalation exposure of Goettingen Minipigs and New Zealand White Rabbits resulted in mortality. It was assumed that conjugation of HFO-1123 with glutathione, via glutathione S-transferase, gives rise to S-(1,1,2-trifluoroethyl)-L-glutathione (1123-GSH), which is then transformed to the corresponding cysteine S-conjugate (S-(1,1,2-trifluoroethyl)-L-cysteine, 1123-CYS). Subsequent beta-lyase mediated cleavage of 1123-CYS may result in monofluoroacetic acid, a potent inhibitor of aconitase. Species-differences in 1123-GSH formation and 1123-CYS cleavage to MFA may explain species-differences in HFO-1123 toxicity. This study was designed to test the hypothesis, that GSH-dependent biotransformation and subsequent beta-lyase mediated formation of monofluoroacetic acid, a potent inhibitor of aconitase in the citric acid cycle, may play a key role in HFO-1123 toxicity and to evaluate if species-differences in the extent of MFA formation may account for the species-differences in HFO-1123 toxicity. The overall objective was to determine species-differences in HFO-1123 biotransformation in susceptible vs. less susceptible species and humans as a basis for human risk assessment. To this end, in vitro biotransformation of HFO-1123 and 1123-CYS was investigated in renal and hepatic subcellular fractions of mice, rats, humans, Goettingen Minipigs and NZW Rabbits. Furthermore, cytotoxicity and metabolism of 1123-CYS was assessed in cultured renal epithelial cells. Enzyme kinetic parameters for beta-lyase mediated cleavage of 1123-CYS in renal and hepatic cytosolic fractions were determined, and 19F-NMR was used to identify fluorine containing metabolites arising from 1123-CYS cleavage. Quantification of 1123-GSH formation in hepatic S9 fractions after incubation with HFO-1123 was performed by LC-MS/MS and hepatic metabolism of HFO-1123 was monitored by 19F-NMR. Rates of 1123-GSH formation were increased in rat, mouse and NZW Rabbit compared to human and Goettingen hepatic S9, indicating increased GSH dependent biotransformation in rats, mouse and NZW Rabbits. NZW Rabbit hepatic S9 exhibited increased 1123-GSH formation in the presence compared to the absence of acivicin, a specific gamma-GT inhibitor. This indicates increased gamma-GT mediated cleavage of 1123-GSH in NZW Rabbit hepatic S9 compared to the other species. 19F-NMR confirmed formation of 1123-GSH as the main metabolite of GSH mediated biotransformation of HFO-1123 in hepatic S9 fractions next to F-. Increased F- formation was detected in NZW Rabbit and Goettingen Minipig hepatic S9 in the presence of an NADPH regenerating system, indicating a higher rate of CYP-450 mediated metabolism in these species. Based on these findings, it is possible that CYP-450 mediated metabolism may contribute to HFO-1123 toxicity. In contrast to the increased formation of 1123-GSH in rat, mouse and NZW Rabbit hepatic S9 (compared to human and Goettingen Minipig), enzyme kinetic studies revealed a significantly higher beta-lyase activity towards 1123-CYS in renal cytosol of Goettingen Minipigs compared to cytosol from rats, mice, humans and NZW Rabbits. However, beta-lyase cleavage in renal NZW Rabbit cytosol was slightly increased compared to rat, mouse and human renal cytosols. 19F-NMR analysis confirmed increased time-dependent formation of MFA in renal Goettingen Minipig cytosol and NZW Rabbit (compared to human and rat cytosolic fractions). Three structurally not defined MFA-derivatives were detected exclusively in NZW Rabbit and Goettingen Minipig cytosols. Also, porcine kidney cells were more sensitive to cytotoxicity of 1123-CYS compared to rat and human kidney cells. Overall, increased beta-lyase mediate cleavage of 1123-CYS to MFA in Goettingen Minipig and NZW Rabbit kidney (compared to human and rat) may support the hypothesis that enzymatic cleavage by beta-lyases may account for the species-differences in HFO-1123 toxicity. However, the extent of GST mediated biotransformation in the liver as the initial step in HFO-1123 metabolism does not fully agree with this hypothesis, since 1123-GSH formation occurs at higher rates in rat, mouse and NZW Rabbit S9 as compared to the Goettingen Minipig. Based on the inconsistencies between the extent of GST and beta-lyase mediated biotransformation of HFO-1123 obtained by this study, a decisive statement about an increased biotransformation of HFO-1123 in susceptible species with a direct linkage to the species-specific toxicity cannot be drawn. Resulting from this, a clear and reliable conclusion regarding the risk for human health originating from HFO-1123 cannot be made. However, considering the death of Goettingen Minipigs and NZW Rabbits after inhalation exposure of HFO-1123 at concentrations great than 500 ppm and greater than 1250 ppm, respectively, this indicates a health concern for humans under peak exposure conditions. For a successful registration of HFO-1123 and its use as a refrigerant, further in vitro and in vivo investigations addressing uncertainties in the species-specific toxicity of HFO-1123 are urgently needed.}, subject = {Biotransformation}, language = {en} } @phdthesis{Zhang2024, author = {Zhang, Tengyu}, title = {Development of Modified polylysine based antibody conjugated nanoparticles with tumor-restricted, FcγR-independent stimulatory activity by targeting Fn14}, doi = {10.25972/OPUS-35865}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-358650}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {In this study, we developed an innovative nanoparticle formulation to facilitate the delivery of antitumor antibodies to tumor sites. The study commenced with the utilization of 13 bispecific antibody fusion proteins, which targeted the Fn14 receptor, thereby validating the pivotal role of crosslinking in Fn14 receptor activation. Subsequently, gold nanoparticles were activated using COOH-PEG-SH in combination with EDC/NHS, and subsequently conjugated with two Fn14-targeting antibodies, PDL192 and 5B6. Following this, a pH-sensitive shell was generated on the outer layer of the antibody-coupled gold nanoparticles through the application of chemically modified polylysine. The resultant complexes, termed MPL-antibody-AuNP, demonstrated a release profile reminiscent of the tumor microenvironment (TME). Notably, these complexes released antibody-AuNPs only in slightly acidic conditions while remaining intact in neutral or basic environments. Functionality analysis further affirmed the pH-sensitive property of MPL-antibody-AuNPs, demonstrating that the antibodies only initiated potent Fn14 activation in slightly acidic environments. This formulation holds potential for applicability to antibodies or ligands targeting the 80 TNFRSF family, given that gold nanoparticles successfully served as platforms for antibody crosslinking, thereby transforming these antibodies into potent agonists. Moreover, the TME disintegration profile of MPL mitigates the potential cytotoxic effects of antibodies, thereby circumventing associated adverse side effects. This study not only showcases the potential of nanoparticle formulations in targeted therapy, but also provides a solid foundation for further investigations on their clinical application in the context of targeting category II TNFRSF receptors with antibodies or ligands.}, subject = {Immuntherapie}, language = {en} } @phdthesis{Geissendoerfer2024, author = {Geißend{\"o}rfer, Lisa}, title = {The Macroeconomic Dimensions of Credit: A Comprehensive Analysis of Finance, Inequality and Growth}, doi = {10.25972/OPUS-37003}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-370037}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Besonders einflussreich f{\"u}r das moderne Verst{\"a}ndnis zur makro{\"o}konomischen Rolle von Banken und Kredit ist die monet{\"a}re Wachstumstheorie von Schumpeter. Ausgehend von dieser wird in dieser Dissertation die makro{\"o}konomische Rolle des Finanzsystems f{\"u}r die (1) Erzeugung von Wirtschaftswachstum, (2) Lenkung von {\"o}konomischen Ressourcen und (3) Verteilung von Wohlstand untersucht. In Kapitel 3 wird zun{\"a}chst empirisch gezeigt, dass 1.) ein positiver Zusammenhang zwischen dem Wachstum von Krediten und Wirtschaftswachstum besteht, auch f{\"u}r entwickelte L{\"a}nder, 2.) kein empirischer Zusammenhang von Haushaltssparen und Wirtschaftswachstum festgestellt werden kann, und 3.) auf l{\"a}nderspezifischer Ebene sowohl positive, als auch negative und insignifikante Effekte von Kredit auf Wirtschaftswachstum existieren. Damit zeigt sich eine breite empirische Evidenz f{\"u}r Schumpeters monet{\"a}re Hypothesen. Eine besonders interessante Anwendung von Schumpeters Wachstumstheorie zeigt sich in China. Die Ergebnisse der empirischen Analyse legen nahe, dass es generell einen positiven Zusammenhang zwischen Kredit- und Wirtschaftswachstum in China gibt, der aber nicht linear in Bezug auf Regionen, Zeitpunkte und Gr{\"o}ße des Finanzsystems ist. Weiterhin deuten die Ergebnisse darauf hin, dass die kreditfinanzierte Industriepolitik in China zu mehr Investitionen und BIP-Wachstum beigetragen haben k{\"o}nnte, wobei es jedoch Nichtlinearit{\"a}ten zwischen einzelnen Branchen und Unternehmenstypen gibt. Zuletzt wird in Kapitel 5 die Frage aufgeworfen, welche Rolle das Finanzsystem bei der Verteilung des Wohlstands spielt. W{\"a}hrend Kredite an Haushalte und Unternehmen, zusammen mit Indikatoren zum Arbeits- und Sparverhalten, sowie zur Altersstruktur der Bev{\"o}lkerung, die wichtigsten Determinanten von Verm{\"o}gensungleichheit sind, zeigen sich in der Beziehung von Krediten und Verm{\"o}gensungleichheit ebenfalls verschiedene Nichtlinearit{\"a}ten, u.a. im Bezug auf den Entwicklungsstand von Finanzsystemen und Wohneigentumsquoten.}, subject = {Kredit}, language = {en} } @phdthesis{Chen2024, author = {Chen, Xinyu}, title = {How natural walking changes occipital alpha oscillations and concurrently modulates cognitive processes}, doi = {10.25972/OPUS-35295}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-352958}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Humans actively interact with the world through a wide range of body movements. To understand human cognition in its natural state, we need to incorporate ecologically relevant body movement into our account. One fundamental body movement during daily life is natural walking. Despite its ubiquity, the impact of natural walking on brain activity and cognition has remained a realm underexplored. In electrophysiology, previous studies have shown a robust reduction of ongoing alpha power in the parieto-occipital cortex during body movements. However, what causes the reduction of ongoing alpha, namely whether this is due to body movement or prevalent sensory input changes, was unknown. To clarify this, study 1 was performed to test if the alpha reduction is dependent on visual input. I compared the resting state alpha power during natural walking and standing, in both light and darkness. The results showed that natural walking led to decreased alpha activity over the occipital cortex compared to standing, regardless of the lighting condition. This suggests that the movement-induced modulation of occipital alpha activity is not driven by visual input changes during walking. I argue that the observed alpha power reduction reflects a change in the state of the subject based on disinhibition induced by walking. Accordingly, natural walking might enhance visual processing and other cognitive processes that involve occipital cortical activity. I first tested this hypothesis in vision. Study 2 was performed to examine the possible effects of natural walking across visual processing stages by assessing various neural markers during different movement states. The findings revealed an amplified early visual response, while a later visual response remain unaffected. A follow-up study 3 replicated the walking-induced enhancement of the early visual evoked potential and showed that the enhancement was dependent on specific stimulus-related parameters (eccentricity, laterality, distractor presence). Importantly, the results provided evidence that the enhanced early visual responses are indeed linked to the modulation of ongoing occipital alpha power. Walking also modulated the stimulus-induced alpha power. Specifically, it showed that when the target appeared in the fovea area without a distractor, walking exhibited a significantly reduced modulation of alpha power, and showed the largest difference to standing condition. This effect of eccentricity indicates that during later visual processing stages, the visual input in the fovea area is less processed than in peripheral areas while walking. The two visual studies showed that walking leads to an enhancement in temporally early visual processes which can be predicted by the walking-induced change in ongoing alpha oscillation likely marking disinhibition. However, while walking affects neural markers of early sensory processes, it does not necessarily lead to a change in the behavioural outcome of a sensory task. The two visual studies suggested that the behavioural outcome seems to be mainly based on later processing stages. To test the effects of walking outside the visual domain, I turned to audition in study 4. I investigated the influence of walking in a particular path vs. simply stepping on auditory processing. Specifically, the study tested whether enhanced processing due to natural walking can be found in primary auditory brain activity and whether the processing preferences are dependent on the walking path. In addition, I tested whether the changed spatial processing that was reported in previous visual studies can be seen in the auditory domain. The results showed enhanced sensory processing due to walking in the auditory domain, which was again linked to the modulation of occipital alpha oscillation. The auditory processing was further dependent on the walking path. Additionally, enhanced peripheral sensory processing, as found in vision, was also present in audition. The findings outside vision supported the idea of natural walking affecting cognition in a rather general way. Therefore in my study 5, I examined the effect of natural walking on higher cognitive processing, namely divergent thinking, and its correlation with the modulation of ongoing alpha oscillation. I analyzed alpha oscillations and behavioural performance during restricted and unrestricted movement conditions while subjects completed a Guilford's alternate uses test. The results showed that natural walking, as well as missing body restriction, reduces the occipital alpha ongoing power independent of the task phase which goes along with higher test scores. The occipital alpha power reduction can therefore be an indicator of a changed state that allows improved higher cognitive processes. In summary, the research presented in this thesis highlights that natural walking can change different processes in the visual and auditory domain as well as higher cognitive processes. The effect can be attributed to the movement of natural walking itself rather than to changes in sensory input during walking. The results further indicate that the walking-induced modulation of ongoing occipital alpha oscillations drives the cognitive effects. We therefore suggest that walking changes the inhibitory state which can influence awareness and attention. Such a mechanism could facilitate an adaptive enhancement in cognitive processes and thereby optimize movement-related behaviour such as navigation.}, subject = {Walking}, language = {en} } @phdthesis{Hadi2024, author = {Hadi, Naji Said Aboud}, title = {In vitro Studies on the Genotoxicity of Selected Pyrrolizidine Alkaloids}, doi = {10.25972/OPUS-37037}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-370376}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Cancer is one of the leading causes of death worldwide. Toxic contaminants in human food or medicinal products, such as substances like pyrrolizidine alkaloids (PAs), have been thought to contribute to cancer incidence. PAs are found in many plant species as secondary metabolites, and they may affect humans through contaminated food sources, herbal medicines, and dietary supplements. Hundreds of compounds belonging to PAs have been identified, differing in their chemical structures, either in their necine base moiety or esterification at their necic acid moiety. PAs undergo hepatic metabolism, and after this process, they can induce hepatotoxicity, genotoxicity, and carcinogenicity. However, the mechanism of inducing genotoxicity and carcinogenicity is still unclear and warrants further investigation. Therefore, the present study aims to investigate the mechanism of genotoxicity induced by selected PAs with different chemical structures in in vitro systems. Primarily, human hepatoma HepG2 cells were utilized, and in co-culture, metabolically active HepG2 cells were combined with non-metabolically active human cervical HeLa H2B-GFP cells. First, the genotoxicity of the PAs europine, lycopsamine, retrorsine, riddelliine, seneciphylline, echimidine, and lasiocarpine was investigated in the cytokinesis-block micronucleus (CBMN) assay. All seven selected PAs caused the formation of micronuclei in a dose-dependent manner, with the maximal increase of micronucleus formation ranging from 1.64 to 2.0 fold. The lowest concentrations at which significant induction of micronuclei was found were 3.2 µM for lasiocarpine and riddelliine, 32 µM for retrorsine and echimidine, and 100 µM for seneciphylline, europine, and lycopsamine. These results confirmed previously published potency rankings in the micronucleus assay. The same PAs, with the exception of seneciphylline, were also investigated in a crosslink-modified comet assay, and reduced tail formation after hydrogen peroxide treatment was found in all diester-type PAs. Meanwhile, an equimolar concentration of the monoesters europine and lycopsamine did not significantly reduce DNA migration. Thus, the crosslinking activity was related to the ester type. Next, the role of metabolic enzymes and membrane transporters in PA-induced genotoxicity was assessed. Ketoconazole (CYP 450-3A4 inhibitor) prevented lasiocarpine-induced micronucleus formation completely, while furafylline (CYP 450-1A2 inhibitor) reduced lasiocarpine-induced micronucleus formation, but did not abolish it completely. This implies that the CYP 450 enzymes play an important role in PA-induced genotoxicity. Carboxylesterase 2 enzyme (CES 2) is commonly known to be involved in the detoxification of xenobiotics. Loperamide (CES 2 inhibitor) yielded an increased formation of lasiocarpine-induced micronuclei, revealing a possible role of CES-mediated detoxification in the genotoxicity of lasiocarpine. Also, intracellular glutathione (GSH) plays an important role in the detoxification of xenobiotics or toxins in the cells. Cells which had been pretreated with L-buthionine sulfoximine (BSO) to reduce GSH content were significantly more sensitive for the induction of micronucleus formation by lasiocarpine revealing the importance of GSH in PA-induced genotoxicity. Quinidine (Q) and nelfinavir (NFR) are OCT1 and OATP1B1 influx transporter inhibitors, respectively, which reduced micronucleus induction by lasiocarpine (only quinidine significantly), but not completely, pointing to a relevance of OCT1 for PA uptake in HepG2 cells. Verapamil (V) and benzbromarone (Bz) are MDR1 and MRP2 efflux transporter inhibitors, respectively, and they caused a slightly increased micronucleus induction by lasiocarpine (significant only for benzbromarone) thus, revealing the role of efflux transporters in PA-induced genotoxicity. The mechanistic approach to PA-induced genotoxicity was further studied based on oxidative stress via the formation of reactive oxygen species (ROS) in HepG2 cells. Overproduction of ROS can cross-link cellular macromolecules such as DNA, leading to genomic damage. An equimolar concentration of 10 µM of lasiocarpine (open-diester PA), riddelliine (cyclic-diester PA), and europine (monoester) significantly induced ROS production, with the highest ROS generation observed after lasiocarpine treatment, followed by riddelliine and then europine. No significant increase in ROS production was found with lycopsamine (10 µM; monoester PA), even at a higher concentration (320 µM). The generation of ROS by these PAs was further analyzed for confirmation by using 5 mM of the thiol radical scavenger antioxidant N-acetyl cysteine (NAC) combined with lasiocarpine, riddelliine, or europine. This analysis yielded a significant decrease in ROS after combining NAC with lasiocarpine, riddelliine, and europine. In addition, lasiocarpine, riddelliine, and europine induced a loss of mitochondrial membrane potential, pointing to mitochondria as the source of ROS generation. In vivo, hepatic sinusoidal epithelial cells (HSECs) are known to be damaged first by PAs after hepatic metabolization, but HSECs themselves do not express the required metabolic enzymes for activation of PAs. To mimic this situation, HepG2 cells were used to metabolically activate PA in a co-culture with HeLa H2B-GFP cells as non-metabolically active neighbours. Due to the green fluorescent GFP label the HeLa cells could be identified easily based in the co-culture. The PAs europine, riddelliine and lasiocarpine induced micronucleus formation in HepG2 cells, and in HeLa H2B-GFP cells co-cultured with HepG2 cells, but not in HeLa H2B-GFP cells cultured alone. Metabolic inhibition of CYP 450 enzymes with ketoconazole abrogated micronucleus formation induced by the same PAs tested in the co-culture. The efflux transporter inhibitors verapamil and benzbromarone reduced the micronucleus formation in the co-culture. Furthermore, mitotic disturbances as an additional genotoxic mechanism of action were observed in HepG2 cells and in HeLa H2B-GFP cells co-cultured with HepG2 cells, but not in HeLa H2B-GFP cells cultured alone. Overall, we were able to show that PAs were activated by HepG2 cells and the metabolites induced genomic damage in co-cultured non-metabolically active green HeLa cells. Finally, in HepG2 cells as well as the co-culture, combinations of PAs lasiocarpine and riddelliine favoured an additive effect rather than synergism. Thus, this study therefore provides support that the assumption of dose-addition can be applied in the characterization of the genotoxicity risk of PAs present in a mixture.}, subject = {Pyrrolizidinalkaloide}, language = {en} } @phdthesis{Schwebs2024, author = {Schwebs, Marie}, title = {Structure and dynamics of the plasma membrane: a single-molecule study in \(Trypanosoma\) \(brucei\)}, doi = {10.25972/OPUS-27569}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-275699}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {The unicellular, flagellated parasite Trypanosoma brucei is the causative agent of human African sleeping sickness and nagana in livestock. In the last decades, it has become an established eukaryotic model organism in the field of biology, as well as in the interdisciplinary field of biophysics. For instance, the dense variant surface glycoprotein (VSG) coat offers the possibility to study the dynamics of GPI-anchored proteins in the plasma membrane of living cells. The fluidity of the VSG coat is not only an interesting object of study for its own sake, but is critically important for the survival of the parasite in the mammalian host. In order to maintain the integrity of the coat, the entire VSG coat is recycled within a few minutes. This is surprisingly fast for a purely diffusive process with the flagellar pocket (FP) as the sole site for endo- and exocytosis. Previous studies characterising VSG dynamics using FRAP reported diffusion coefficients that were not sufficient to to enable fast turnover based on passive VSG randomisation on the trypanosome surface. In this thesis, live-cell single-molecule fluorescence microscopy (SMFM) was employed to elucidate whether VSG diffusion coefficients were priorly underestimated or whether directed forces could be involved to bias VSGs towards the entrance of the FP. Embedding the highly motile trypanosomes in thermo-stable hydrogels facilitated the investigation of VSG dynamics on living trypanosomes at the mammalian host's temperature of 37°C. To allow for a spatial correlation of the VSG dynamics to the FP entrance, a cell line was employed harbouring a fluorescently labelled structure as a reference. Sequential two-colour SMFM was then established to allow for recording and registration of the dynamic and static single-molecule information. In order to characterise VSG dynamics, an algorithm to obtain reliable information from short trajectories was adapted (shortTrAn). It allowed for the quantification of the local dynamics in two distinct scenarios: diffusion and directed motion. The adaptation of the algorithm to the VSG data sets required the introduction of an additional projection filter. The algorithm was further extended to take into account the localisation errors inherent to single-particle tracking. The results of the quantification of diffusion and directed motion were presented in maps of the trypanosome surface, including an outline generated from a super-resolved static structure as a reference. Information on diffusion was displayed in one map, an ellipse plot. The colour code represented the local diffusion coefficient, while the shape of the ellipses provided an indication of the diffusion behaviour (aniso- or isotropic diffusion). The eccentricity of the ellipses was used to quantify deviations from isotropic diffusion. Information on directed motion was shown in three maps: A velocity map, representing the amplitude of the local velocities in a colour code. A quiver plot, illustrating the orientation of directed motion, and a third map which indicated the relative standard error of the local velocities colour-coded. Finally, a guideline based on random walk simulations was used to identify which of the two motion scenarios dominated locally. Application of the guideline to the VSG dynamics analysed by shortTrAn yielded supermaps that showed the locally dominant motion mode colour-coded. I found that VSG dynamics are dominated by diffusion, but several times faster than previously determined. The diffusion behaviour was additionally characterised by spatial heterogeneity. Moreover, isolated regions exhibiting the characteristics of round and elongated traps were observed on the cell surface. Additionally, VSG dynamics were studied with respect to the entrance of the FP. VSG dynamics in this region displayed similar characteristics compared to the remainder of the cell surface and forces biasing VSGs into the FP were not found. Furthermore, I investigated a potential interference of the attachment of the cytoskeleton to the plasma membrane with the dynamics of VSGs which are anchored to the outer leaflet of the membrane. Preliminary experiments were conducted on osmotically swollen trypanosomes and trypanosomes depleted for a microtubule-associated protein anchoring the subpellicular microtubule cytoskeleton to the plasma membrane. The measurements revealed a trend that detachment of the cytoskeleton could be associated with a reduction in the VSG diffusion coefficient and a loss of elongated traps. The latter could be an indication that these isolated regions were caused by underlying structures associated with the cytoskeleton. The measurements on cells with an intact cytoskeleton were complemented by random walk simulations of VSG dynamics with the newly determined diffusion coefficient on long time scales not accessible in experiments. Simulations showed that passive VSG randomisation is fast enough to allow for a turnover of the full VSG coat within a few minutes. According to an estimate based on the known rate of endocytosis and the newly determined VSG diffusion coefficient, the majority of exocytosed VSGs could escape from the FP to the cell surface without being immediately re-endocytosed.}, subject = {Trypanosoma brucei}, language = {en} } @phdthesis{Iosip2024, author = {Iosip, Anda-Larisa}, title = {Molecular Mechanosensing Mechanisms of the Carnivorous Plant \(Dionaea\) \(muscipula\)}, doi = {10.25972/OPUS-28764}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287649}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2024}, abstract = {Plants are able to sense mechanical forces in order to defend themselves against predators, for instance by synthesizing repellent compounds. Very few plants evolved extremely sensitive tactile abilities that allow them to perceive, interpret and respond by rapid movement in the milliseconds range. One such rarity is the charismatic Venus flytrap (Dionaea muscipula) - a carnivorous plant which relies on its spectacular active trapping strategy to catch its prey. The snapping traps are equipped with touch-specialised trigger hairs, that upon bending elicit an action potential (AP). This electrical signal originates within the trigger hairs' mechanosensory cells and further propagates throughout the whole trap, alerting the plant of potential prey. Two APs triggered within thirty seconds will set off the trap and more than five APs will initiate the green stomach formation for prey decomposition and nutrient uptake. Neither the molecular components of the plant's AP nor the Venus flytrap's fast closure mechanism have been fully elucidated yet. Therefore, the general objective of this study is to expound on the molecular basis of touch perception: from AP initiation to trap closure and finally to stomach formation. The typical electrical signal in plants lasts for minutes and its shape is determined by the intensity of the mechanical force applied. In contrast, the Venus flytrap's one-second AP is of all-or-nothing type, similar in shape to the animal AP. In order to gain more insight into the molecular components that give rise to the Venus flytrap's emblematic AP, the transcriptomic landscape of its unique mechanotransducer - the trigger hair - was compared to the rest of the non-specialised tissues and organs. Additionally, the transcriptome of the electrically excitable fully-developed adult trap was compared to non-excitable juvenile traps that are unable to produce sharp APs. Together, the two strategies helped with the identification of electrogenic channels and pumps for each step of the AP as follows: (1) the most specific to the trigger hair was the mechanosensitive channel DmMSL10, making up the best candidate for the initial AP depolarization phase, (2) the K+ outward rectifier DmSKOR could be responsible for repolarisation, (3) further, the proton pump DmAHA4, might kick in during repolarisation and go on with hyperpolarisation and (4) the hyperpolarization- and acid-activated K+ inward rectifier KDM1 might contribute to the re-establishment of electrochemical gradient and the resting potential. Responsible for the AP-associated Ca2+ wave and electrical signal propagation, the glutamate-like receptor DmGLR3.6 was also enriched in the trigger hairs. Together, these findings suggest that the reuse of genes involved in electrical signalling in ordinary plants can give rise to the Venus flytrap's trademark AP. The Venus flytrap has been cultivated ever since its discovery, generating more than one hundred cultivars over the years. Among them, indistinguishable from a normal Venus flytrap at first sight, the 'ERROR' cultivar exhibits a peculiar behaviour: it is unable to snap its traps upon two APs. Nevertheless, it is still able to elicit normal APs. To get a better understanding of the key molecular mechanisms and pathways that are essential for a successful trap closure, the 'ERROR' mutant was compared to the functional wild type. Timelapse photography led to the observation that the 'ERROR' mutants were able to leisurely half close their traps when repeated mechanostimulation was applied (10 minutes after 20 APs, 0.03 Hz). As a result of touch or wounding in non-carnivorous plants, jasmonic acid (JA) is synthesized, alerting the plants of potential predators. Curiously, the JA levels were reduced upon mechanostimulation and completely impaired upon wounding in the 'ERROR' mutant. In search of genes accountable for the 'ERROR' mutant's defects, the transcriptomes of the two phenotypes were compared before and after mechanostimulation (1h after 10 APs, 0.01 Hz). The overall dampened response of the mutant compared to the wild type, was reflected at transcriptomic level as well. Only about 50\% of wild type's upregulated genes after touch stimulation were differentially expressed in 'ERROR' and they manifested only half of the wild type's expression amplitude. Among unresponsive functional categories of genes in 'ERROR' phenotype, there were: cell wall integrity surveilling system, auxin biosynthesis and stress-related transcription factors from the ethylene-responsive AP2/ERF and C2H2-ZF families. Deregulated Ca2+-decoding as well as redox-related elements together with JA-pathway components might also contribute to the malfunctioning of the 'ERROR' mutant. As the mutant does not undergo full stomach formation after mechanical treatment, these missing processes represent key milestones that might mediate growth-defence trade-offs under JA signalling. This confirms the idea that carnivory has evolved by recycling the already available molecular machineries of the ubiquitous plant immune system. To better understand the mutant's defect in the trap snapping mechanism, the ground states (unstimulated traps) of the two phenotypes were compared. In this case, many cell wall-related genes (e.g. expansins) were downregulated in the 'ERROR' mutant. For the first time, these data point to the importance of a special cell wall architecture of the trap, that might confer the mechanical properties needed for a functional buckling system - which amplifies the speed of the trap closure. This study provides candidate channels for each of the AP phases that give rise to and shape the sharp Venus flytrap-specific AP. It further underlines the possible contribution of the cell wall architecture to the metastable ready-to-snap configuration of the trap before stimulation - which might be crucial for the buckling-dependent snapping. And finally, it highlights molecular milestones linked to defence responses that ensure trap morphing into a green stomach after mechanostimulation. Altogether, these processes prove to be interdependent and essential for a successful carnivorous lifestyle.}, subject = {Venusfliegenfalle}, language = {en} } @article{PrustyGulveGovindetal.2018, author = {Prusty, Bhupesh K. and Gulve, Nitish and Govind, Sheila and Krueger, Gerhard R. F. and Feichtinger, Julia and Larcombe, Lee and Aspinall, Richard and Ablashi, Dharam V. and Toro, Carla T.}, title = {Active HHV-6 Infection of Cerebellar Purkinje Cells in Mood Disorders}, series = {Frontiers in Microbiology}, volume = {9}, journal = {Frontiers in Microbiology}, doi = {10.3389/fmicb.2018.01955}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-369222}, year = {2018}, abstract = {Early-life infections and associated neuroinflammation is incriminated in the pathogenesis of various mood disorders. Infection with human roseoloviruses, HHV-6A and HHV-6B, allows viral latency in the central nervous system and other tissues, which can later be activated causing cognitive and behavioral disturbances. Hence, this study was designed to evaluate possible association of HHV-6A and HHV-6B activation with three different groups of psychiatric patients. DNA qPCR, immunofluorescence and FISH studies were carried out in post-mortem posterior cerebellum from 50 cases each of bipolar disorder (BPD), schizophrenia, 15 major depressive disorder (MDD) and 50 appropriate control samples obtained from two well-known brain collections (Stanley Medical Research Institute). HHV-6A and HHV-6B late proteins (indicating active infection) and viral DNA were detected more frequently (p < 0.001 for each virus) in human cerebellum in MDD and BPD relative to controls. These roseolovirus proteins and DNA were found less frequently in schizophrenia cases. Active HHV-6A and HHV-6B infection in cerebellar Purkinje cells were detected frequently in BPD and MDD cases. Furthermore, we found a significant association of HHV-6A infection with reduced Purkinje cell size, suggesting virus-mediated abnormal Purkinje cell function in these disorders. Finally, gene expression analysis of cerebellar tissue revealed changes in pathways reflecting an inflammatory response possibly to HHV-6A infection. Our results provide molecular evidence to support a role for active HHV-6A and HHV-6B infection in BPD and MDD.}, language = {en} }