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ln two experiments, male rats were observed in pairs under different environmental stimulations in an open field. ln Experiment 1, white noise of 85 dB(A) reduced social activities and increased defecation compared to 75 dB(A) and 65 dß(A). ln Experiment 2, the illumination of the open field was varied in addition to a variation of the noise intensity. Again, 85 dB(A) as compared to 50 dB(A) reduced social activities and increased defecation, but also led to changes in non-social behaviours such as sniffing, grooming, and rearing. ln contrast, 400 lx did not differ substantially in its effects from 40 lx in any of the observed behavioural categories. Altogether, the behaviour pattern under 85 dß(A) white noise cannot satisfactorily be explained only by increased anxiety or fear. Alternative explanations are discussed.
The work presented in this thesis covers the effects of early-life adversity in the context of altered serotonin (5-HT; 5-hydroxytryptamine) system functioning in mice. The main body is focussing on a screening approach identifying molecular processes, potentially involved in distinct behavioural manifestations that emerge from or are concomitant with early adversity and, with regard to some behavioural manifestations, dependent on the functioning of the 5-HT system.
Chronischer Stress hat negative Folgen, die sich im Verhalten und auf neuronaler Ebene äußern können. Als besonders stressempfindlich gelten die Neurone der dritten Region des hippocampalen Ammonshorns CA3. Sie reagieren auch im bereits ausgereiften Zustand noch sehr sensibel auf äußere Einflüsse, was als neuronale Plastizität bezeichnet wird. Sie erfahren unter anderem durch Stress und Serotonin morphologische und funktionelle Veränderungen. Serotonin-Transporter wahren das Serotonin-Gleichgewicht, indem sie dessen Wirkung schließlich durch Wiederaufnahme in die Zellen beenden. Polymorphismen, also verschiedene Gen-Varianten, bedingen Unterschiede in der Zahl der verfügbaren Transporter. Dieses Wechselspiel zwischen Gen-Varianten des Serotonin-Transporters und Stress wurde an Serotonin-Transporter-Knockout-Mäusen untersucht. Einige Mäuse erfuhren bereits früh im Leben Stress, der entweder anhielt oder im späteren Leben positiven Erfahrungen wich; weitere Mäuse hingegen machten in frühen Lebensabschnitten positive Erfahrungen, die sich später entweder fortsetzten oder durch Stresserfahrungen ersetzt wurden. Nach Durchführung von Verhaltenstests wurde zudem in deren Golgi-imprägnierten Gehirnen die Morphologie der Apikaldendriten von CA3-Kurzschaft-Pyramidenzellen lichtmikroskopisch untersucht und in 3D-Computermodellen abgebildet. Aufgrund regionaler Eigenheiten innerhalb von CA3 wurden diese Neurone verschiedenen Subpopulationen zugeordnet. Tatsächlich konnten mithilfe der Kombination aus vier verschiedenen Lebensgeschichten und drei unterschiedlichen Serotonin-Transporter-Genotypen Unterschiede in der Morphologie der CA3-Pyramidenzellen zwischen den einzelnen Gruppen festgestellt werden. Ohne Stresserleben zeigten sich die Neurone meist signifikant verzweigter; nach Stresserleben zeigten sich, zumindest in einer bestimmten Subpopulation, signifikante Verminderungen der Spines. Mäuse mit zwei oder einem wildtypischen Serotonin-Transporter-Allel und ausschließlich späten aversiven Erfahrungen hatten signifikant längere Apikaldendriten als die Referenz mit zwei wildtypischen Allelen und ohne Stresserfahrung; homozygot Serotonin-Transporter-defiziente Mäuse der gleichen Lebensgeschichte hatten zur Referenz signifikant verkürzte Apikaldendriten. Diese Ergebnisse lassen vermuten, dass Stress in Verbindung mit genetisch bedingt geringen Mengen des Serotonin-Transporters durchaus eine erhöhte Vulnerabilität für psychische Erkrankungen bedingen könnte, aber dass ausschließlich späte Stresserfahrungen bei höheren Mengen des Serotonin-Transporters auch protektiv wirken könnten.
Oxylipine werden in der Pflanze unter Stressbedingungen gebildet. Die dafür notwendige Oxidation von Fettsäuren wird entweder nicht-enzymatisch über Radikale wie reaktive Sauerstoffspezies (ROS) oder enzymatisch über Lipoxygenasen katalysiert. Abhängig von der Position der Oxidation in der Fettsäure entstehen dabei C13- oder C9-Oxylipine. Sehr gut erforscht sind C13-Oxylipine wie Jasmonsäure (JA), die bei biotischem Stress und Verwundung gebildet werden und bei exogener Gabe das Wurzelwachstum von Arabidopsis thaliana hemmen. Die C9-Oxylipine wie 9-Hydroxyoktadekatriensäure (9-HOT) sind erst wenig erforscht. Ziel dieser Arbeit war die Charakterisierung von Transkriptionsfaktoren, mit dem Fokus auf 9-HOT-vermittelte Signalwegen in Arabidopsis thaliana. Da bekannt ist, dass auch sie zu einer Hemmung des Wurzelwachstums führen, wurde dazu die Untersuchung des Wurzelwachstums von 10 Tage alten Keimlingen etabliert. Funktionsgewinn-Mutanten des Transkriptionsfaktors TGA5 sowie des TGA5-Zielgens CYTOCHROM P450 MONOOXYGENASE CYP81D11 zeigten auf 9-HOT ein verglichen mit Col-0 deutlich besseres Wurzelwachstum. Die AtTORF-Ex-Kollektion, eine große Sammlung an Überexpressions-Linien verschiedener Transkriptionsfaktoren, wurde hinsichtlich Wurzelwachstums auf dem Oxylipin 9-HOT analysiert. Die Gesamtheit der untersuchten Pflanzen enthielt 263 unabhängige TF-Expressions-Konstrukte. Von 6087 untersuchten Pflanzen zeigten 201 Pflanzen keine Hemmung des Wurzelwachstums auf 9-HOT. Dabei konnten 80 verschiedene Transkriptionsfaktoren identifiziert werden, deren Überexpression die Wurzelwachstums-hemmende Wirkung von 9-HOT kompensiert. Es zeigte sich eine Häufung von Transkriptionsfaktoren der ERF- (ethylene responsive factor) Familie. Die verstärkte Expression der nahe verwandten Transkriptionsfaktoren ERF106 und ERF107 ermöglichte sowohl auf 9-HOT als auch auf 9-KOT ein längeres Wurzelwachstum im Vergleich zum Wildtyp. Die Genexpression von ERF106 und ERF107 wird durch Überflutung aktiviert. Durch Überflutung wird im Wildtyp die Expression von Hypoxia-Antwort-Genen wie HRE1, SUS4 oder PDC1 induziert. In den Funktionsverlust-Mutanten sind diese Gene in der Expression aber nicht beeinflusst. Auch ist nach Überflutung im normalen Tag / Nacht-Rhythmus kein signifikanter Unterschied im Überleben zwischen Col-0 und den Mutanten erf106, erf107 und erf106xerf107 nachweisbar. Zur Identifikation möglicher Ziel-Gene von ERF106 und ERF107 wurden Transkriptom-Analysen durchgeführt. Die Funktionsverlust-Mutanten erf106, erf107 und erf106xerf107 zeigten weder im Grundzustand noch nach 4 Stunden Überflutung Veränderungen in den bekannten Hypoxia-Antwort-Genen. Die Funktionsgewinn-Mutanten von ERF106 und ERF107 zeigten in der Transkriptom-Analyse eine deutliche Aktivierung von Genen, die wichtig für Entgiftung und Stressabwehr sind. Ebenso wurden wichtige Biosynthese-Gene aus der Camalexin- und Glukosinolat-Synthese in den Funktionsgewinn-Mutanten verstärkt exprimiert. Des Weiteren konnte eine verringerte Expression von Genen beobachtet werden, die wichtig für die Regulation der Eisen-Aufnahme sind, darunter bHLH-Transkriptionsfaktoren, der Eisen-Transporter IRON REGULATED TRANSPORTER 1 (IRT1) und die Eisen-Reduktase FERRIC REDUCTION OXIDASE 2 (FRO2). Zusammenfassend wurden in dieser Arbeit durch die Untersuchung der AtTORF-Ex-Kollektion mehrere TF identifiziert, die wichtige Abwehr-Gene gegen Stress- und Vergiftung sowie bedeutende Gene im Bereich der Biosynthese und Eisenaufnahme regulieren können, um so die Antwort auf C9-Oxylipine zu beeinflussen.
The human-bacterial pathogen interaction is a complex process that results from
a prolonged evolutionary arms race in the struggle for survival. The pathogen employs
virulence strategies to achieve host colonization, and the latter counteracts using defense
programs. The encounter of both organisms results in drastic physiological changes
leading to stress, which is an ancient response accompanying infection. Recent evidence
suggests that the stress response in the host converges with the innate immune pathways
and influences the outcome of infection. However, the contribution of stress and the exact
mechanism(s) of its involvement in host defense remain to be elucidated. Using the model
bacterial pathogen Shigella flexneri, and comparing it with the closely related pathogen
Salmonella Typhimurium, this study investigated the role of host stress in the outcome of
infection.
Shigella infection is characterized by a pronounced pro-inflammatory response
that causes intense stress in host tissues, particularly the intestinal epithelium, which
constitutes the first barrier against Shigella colonization. In this study, inflammatory
stress was simulated in epithelial cells by inducing oxidative stress, hypoxia, and cytokine
stimulation. Shigella infection of epithelial cells exposed to such stresses was strongly
inhibited at the adhesion/binding stage. This resulted from the depletion of sphingolipidrafts
in the plasma membrane by the stress-activated sphingomyelinases. Interestingly,
Salmonella adhesion was not affected, by virtue of its flagellar motility, which allowed the
gathering of bacteria at remaining membrane rafts. Moreover, the intracellular replication
of Shigella lead to a similar sphingolipid-raft depletion in the membrane across adjacent
cells inhibiting extracellular bacterial invasion.
Additionally, this study shows that Shigella infection interferes with the host stress
granule-formation in response to stress. Interestingly, infected cells exhibited a nuclear
depletion of the global RNA-binding stress-granule associated proteins TIAR and TIA-1
and their accumulation in the cytoplasm.
Overall, this work investigated different aspects of the host stress-response in the
defense against bacterial infection. The findings shed light on the importance of the host
stress-pathways during infection, and improve the understanding of different strategies
in host-pathogen interaction.
The presented work shows the analysis of the correlation between the spatial and temporal expression pattern of NtAQP1 and its function in water relation in planta. In situ immunological studies indicated NtAQP1-protein accumulation in the root exodermis and endodermis, in the cortex, close to vascular bundles, in the xylem parenchyma and in cells of the stomatal cavities. The aquaporin was also found to be abundant in longitudinal cell-rows in the petioles. Expression studies with generated transgenic plants (Ntaqp1-promoter::gus or luc) confirmed the Ntaqp1 accumulation in the root, stem and petioles but also revealed further localization in pollen grains, adventitious roots and leaf glandular hairs. Ntaqp1-expression was induced during growth processes, like stem bending after gravistimulation or photostimulation, seed germination and hypocotyl elongation as well as during the comparatively fast circadian leaf movement. The expression was further stimulated by phytohormones, especially gibberellic acid (GA) and osmotic stress. Further analysis displayed a diurnal and even circadian expression of Ntaqp1 in roots and petioles. The functional analysis of the aquaporin was accomplished by reverse genetics and biophysical studies. The antisense technique was used to reduce NtAQP1-expression in tobacco plants. The antisense (AS) plants exhibited a severe reduction of Ntaqp1-mRNA, less reduction of the highly homologous NtPIP1a RNA and no effect on expression of other aquaporin family genes (PIP2, TIP). The function of NtAQP1 at the cellular level was investigated by a newly developed experimental setup to record the osmotically induced increase in protoplast volume. The reduction of NtAQP1 by the antisense expression decreased the overall cellular waterpermeability Pos for more than 50 %. Function of NtAQP1 at the whole plant level was e.g. measured by the “high-pressure flow meter method”. Those measurements revealed that the root hydraulic conductivity per unit root surface area (KRA) of roots from the AS-lines was reduced by more than 50 %. KRA displayed a strong diurnal and circadian variation with a maximum in the middle of the light period, similar to the expression pattern of Ntaqp1 in roots. Gas exchange-, stem (Ystem) and leaf (Yleaf) water potential measurement gave dissimilar values in AS and control plants under well-watered conditions. Under a water-limiting environment the Y of AS-plants remained at more negative water values, even though a further decrease in transpiration of AS-plants was detected. Quantitative analysis displayed a much stronger wilting reaction in the AS than in the control plants. Quantitative studies of the leaf movement in AS compared to control plants exhibited a dramatic reduction in velocity and also in the extent of the process. The following conclusions can be drawn. NtAQP1 was expressed at sites of anticipated high water fluxes from and to the apoplast or symplast. Additionally, the specific distribution pattern and temporal expression of NtAQP1 in petioles and the bending stem strongly indicate a role in transcellular movement of water. The reduction of NtAQP1 by the antisense expression decreased the overall cellular Pos. Conclusively, NtAQP1-function increases membrane water permeability of tobacco root protoplasts. The decrease of the specific root hydraulic conductivity (KRA) was in the same order of magnitude as the mean cellular water permeability reduction, indicating that aquaporin expression is essential in maintaining a natural root hydraulic conductance. Reduction of KRA in AS plants might be the first definitive proof that the pathway of water uptake from the root surface to the xylem involves passage across membranes. The absence of NtAQP1 resulted in a water stress signal, causing a certain stomatal closure. NtAQP1 seems to contribute to water stress avoidance in tobacco. NtAQP1 plays an essential role in fast plant movements and transcellular water shift.
Early life stress, including exposure to prenatal stress (PS), has been shown to affect the developing brain and induce severe effects on emotional health in later life, concomitant with an increased risk for psychopathology. However, some individuals are more vulnerable to early-life stress, while others adapt successfully, i.e. they are resilient and do not succumb to adversity. The molecular substrates promoting resilience in some individuals and vulnerability in other individuals are as yet poorly investigated. A polymorphism in the serotonin transporter gene (5HTT/SLC6A4) has been suggested to play a modulatory role in mediating the effects of early-life adversity on psychopathology, thereby rendering carriers of the lower-expressing short (s)-allele more vulnerable to developmental adversity, while long (l)-allele carriers are relatively resilient. The molecular mechanisms underlying this gene x environment interaction (GxE) are not well understood, however, epigenetic mechanisms such as DNA methylation and histone modifications have been discussed to contribute as they are at the interface of environment and the genome. Moreover, developmental epigenetic programming has also been postulated to underlie differential vulnerability/resilience independent of genetic variation.
The present work comprises two projects investigating the effects of prenatal maternal restraint stress in 5-HTT deficient mice. In the first study, we examined to which extent previously observed changes in behavior and hippocampal gene expression of female 5-Htt+/- prenatally stressed (PS) offspring were associated with changes in DNA methylation patterns. Additionally, we investigated the expression of genes involved in myelination in hippocampus and amygdala of those animals using RT-qPCR. The genome-wide hippocampal DNA methylation screening was performed using methylated-DNA immunoprecipitation (MeDIP) on Affymetrix GeneChip® Mouse Promoter 1.0R arrays. In order to correlate individual gene-specific DNA methylation, mRNA expression and behavior, we used hippocampal DNA from the same mice as assessed before. 5-Htt genotype, PS and their interaction differentially affected the DNA methylation signature of numerous genes, a part of which were also differentially expressed. More specifically, we identified a differentially methylated region in the Myelin basic protein (Mbp) gene, which was associated with Mbp expression in a 5-Htt-, PS- and 5-Htt x PS-dependent manner. Subsequent fine-mapping linked the methylation status of two specific CpG sites in this region to Mbp expression and anxiety-related behavior. We furthermore found that not only the expression of Mbp but of large gene set associated with myelination was affected by a 5-Htt x PS interaction in a brain-region specific manner. In conclusion, hippocampal DNA methylation patterns and expression profiles of female PS 5-Htt+/- mice suggest that distinct molecular mechanisms, some of which are associated with changes in gene promoter methylation, and processes associated with myelination contribute to the behavioral effects of the 5-Htt genotype, PS exposure, and their interaction.
In the second study, we aimed at investing the molecular substrates underlying resilience to PS. For this purpose, we exposed 5-Htt+/+ dams to the same restraint stress paradigm and investigated the effects of PS on depression- and anxiety-like behavior and corticosterone (CORT) secretion at baseline and after acute restraint stress in female 5-Htt+/+ and 5-Htt+/- offspring. We found that PS affected the offspring’s social behavior in a negative manner. When specifically examining those PS animals, we grouped the PS offspring of each genotype into a social, resilient and an unsocial, vulnerable group. While anxiety-like behavior in the EPM was reduced in unsocial, but not social, PS 5-Htt+/+ animals when compared to controls, this pattern could not be found in animals of the other genotype, indicating that social anxiety and state anxiety in the EPM were independent of each other. We then assessed genome-wide hippocampal gene expression profiles using mRNA sequencing in order to identify pathways and gene ontology (GO) terms enriched due to 5-Htt genotype (G), PS exposure (E) and their interaction (GxE) as well as enriched in social, but not unsocial, PS offspring, and vice versa. Numerous genes were affected by 5-Htt genotype, PS and most of all a GxE-interaction. Enrichment analysis using enrichr identified that the genotype affected mitochondrial respiration, while GxE-interaction-affected processes associated primarily with myelination and chromatin remodeling. We furthermore found that 5-Htt+/- mice showed profound expression changes of numerous genes in a genomic region located 10 mio kb upstream of the 5 Htt locus on the same chromosome. When looking at social vs. unsocial mice, we found that a much higher number of genes was regulated in 5 Htt+/- animals than in 5-Htt+/+ animals, reflecting the impact of GxE-interaction. Double the number of genes was regulated in social PS vs. control mice when compared to unsocial PS vs. control in both genotypes, suggesting that the successful adaption to PS might have required more active processes from the social group than the reaction to PS from the unsocial group. This notion is supported by the up-regulation of mitochondrial respiration in social, but not in unsocial, PS 5-Htt+/- mice when compared to controls, as those animals might have been able to raise energy resources the unsocial group was not. Next to this, processes associated with myelination seemed to be down-regulated in social 5-Htt+/- mice, but not in unsocial animals, when compared to controls. Taken together, PS exposure affected sociability and anxiety-like behavior dependent on the 5-Htt genotype in female offspring. Processes associated with myelination and epigenetic mechanisms involved in chromatin remodeling seemed be affected in a GxE-dependent manner in the hippocampus of these offspring. Our transcriptome data furthermore suggest that mitochondrial respiration and, with this, energy metabolism might be altered in 5-Htt+/- offspring when compared to 5-Htt+/+ offspring. Moreover, myelination and mitochondrial respiration might contribute to resilience towards PS exposure in 5-Htt+/- offspring, possibly by affecting brain connectivity and energy capabilities.
This study was conducted to determine the influence of different stress factors on the honeybee Apis mellifera. The investigation was motivated by previous experiments that suggested the existence of an unspecific defense mechanism causing a generalized change of flight behavior after the onset of different diseases. This mechanism is thought to impede the ability of flight bees to return to their respective colonies thereby removing the disease from the colony over time. During the last years, the existence of such a “suicidal behavior” was supported by further studies. Thus, an unnoticed, potentially highly effective defense mechanism of social insects was revealed whose spectrum of activity and physiological basics require further investigation. Suggesting that the reaction by the bees is unspecific to different diseases as well as to other potential stress factors, this study was designed to investigate the influence of pathogens, insecticides, and different brood rearing temperatures on different parameters like lifespan, foraging activity, and foraging trip duration of worker bees.
This compilation focuses on adolescent mental disorders and their prevention. It comprises three distinct studies, each contributing to a deeper understanding of this critical topic. This work addresses a critical gap in the understanding of, and approach to, adolescent mental health, and as a result reveals a critically important and urgently needed policy implication for action. The thematic structure of these studies begins with an examination of the epidemiology of child and adolescent mental disorders. Baseline data were collected from N = 877 adolescents with a mean age of 12.43 years (SD = 0.65). Mental health problems, such as depressive symptoms, non-suicidal self-injury, suicidal ideation, symptoms of eating disorders, and gender differences, are thoroughly examined. Results revealed a significant portion of our sample displaying mental health problems as early as the 6th and 7th grades, with girls generally being more affected than boys. The findings underscore the importance of early adolescence in the emergence of mental health problems and thereby emphasize the need for preventive measures. Moving beyond prevalence estimates, the compilation delves into the etiology of these disorders, exploring their potential correlation with a COVID-19 infection. Understanding the early signs and risk factors is crucial for timely support. While numerous studies have investigated potential risk and protective factors during the pandemic, our focus shifts to adolescents’ coping when an infection with the virus was involved (N = 2,154, M = 12.31, SD = 0.67). We hypothesized that students infected or with close family members infected, would exhibit an increased psychopathology and a decreased functioning of protective factors such as self-efficacy or self-esteem. We found no connection between infection and the mental health status within our sample, but protective factors and mental well-being were positively associated. Thus, universal primary prevention appears to be the preferred approach for promoting mental health. Lastly, the compilation introduces LessStress, a noteworthy contribution to more evidence-based prevention programs. This universal approach is designed to reduce stress in schools, accompanied by a cluster-randomized trial to evaluate its effectiveness (estimated sample size N = 1,894). Existing studies have demonstrated the effectiveness of stress prevention, leading us to introduce a short and easy-to-implement prevention program. There is positive evidence for one-lesson interventions in schools for promoting well-being and health behaviors among adolescents. LessStress is designed based on a life skills approach that not only imparts psychoeducational content but also teaches skills relevant to everyday life and directly applicable. Throughout these studies, a common thread emerges: the pressing need to address mental disorders during childhood and adolescence. These formative years play a pivotal role in the development of mental health problems. These formative years play a crucial role in the development of mental health problems. They highlight the importance of epidemiological data collection and analysis based on the latest models to develop prevention interventions that are not only effective but also reach young people on a global level.
Zentrale Befunde:
Erstmals wird in Deutschland eine Studie durchgeführt, die die Stressbelastung von GrundschülerInnen am Übergang von der Primar- in die Sekundarstufe erfasst. Die schriftliche Befragung von 1.620 Eltern aus den Bundesländern Bayern und Hessen zeigt dabei, dass
• die an Schulnoten gekoppelte und bindende Übertrittsregelung in Bayern zu einer höheren Stressbelastung bei Kindern führt als die hessische Form der beratenden Übertrittsempfehlung.
• vor allem Kinder aus bildungsfernen Familien einer hohen Stressbelastung ausgesetzt sind, weil sie weniger über stresshemmende Schutzfaktoren verfügen als Kinder aus bildungsnahen Elternhäusern.
• Eltern durch überzogene und unrealistische Bildungserwartungen die Stressbelastung für ihre Kinder nochmals erhöhen und hierdurch zur Gefährdung ihrer Kinder beitragen.
• die Grundschulkinder in Bayern, die an der Notenschwelle zwischen Mittel- und Realschulempfehlung liegen, eine erhebliche Risikogruppe darstellen. Die SchülerInnen weisen nicht nur die höchsten Stresswerte auf, sie sind auch die einzigen SchülerInnen, bei denen der Stress von der dritten zur vierten Klasse dramatisch ansteigt.
Folgerungen für die Praxis:
Die Ergebnisse der Querschnittstudie müssen noch durch längsschnittliche Verlaufsdaten repliziert werden, deuten aber bereits in der vorliegenden Form an, dass
• der Schulübergang im Alter von zehn Jahren in einer sensiblen Entwicklungsphase der Kinder Stress erzeugt und somit zeitlich zu früh ansetzt,
• bindende Schulübertrittszuweisungen wie im bayerischen Modell die Stressbelastung der Kinder deutlich erhöhen,
• für eine salutogene Entwicklung der Kinder Beratungsmodelle gegenüber Zuweisungsmodellen beim Schulübertritt mit Nachdruck zu bevorzugen sind,
• Eltern frühzeitig und aktiv über den weiteren Bildungsweg ihrer Kinder informiert werden müssen, um zusätzliche Stressbelastungen zu vermeiden,
• vor allem und sehr zeitnah die Stressbelastung der Risikogruppe gemindert werden muss, die zwischen Mittel- und Realschulzuweisungen steht.