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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.
Anxiety and depressive disorders result from a complex interplay of genetic and environmental factors and are common mutual comorbidities. On the level of cellular signaling, regulator of G protein signaling 2 (Rgs2) has been implicated in human and rodent anxiety as well as rodent depression. Rgs2 negatively regulates G protein-coupled receptor (GPCR) signaling by acting as a GTPase accelerating protein towards the Gα subunit.
The present study investigates, whether mice with a homozygous Rgs2 deletion (Rgs2-/-) show behavioral alterations as well as an increased susceptibility to stressful life events related to human anxiety and depressive disorders and tries to elucidate molecular underlying’s of these changes.
To this end, Rgs2-/- mice were characterized in an aversive-associative learning paradigm to evaluate learned fear as a model for the etiology of human anxiety disorders. Spatial learning and reward motivated spatial learning were evaluated to control for learning in non-aversive paradigms. Rgs2 deletion enhanced learning in all three paradigms, rendering increased learning upon deletion of Rgs2 not specific for aversive learning. These data support reports indicating increased long-term potentiation in Rgs2-/- mice and may predict treatment response to conditioning based behavior therapy in patients with polymorphisms associated with reduced RGS2 expression. Previous reports of increased innate anxiety were corroborated in three tests based on the approach-avoidance conflict. Interestingly, Rgs2-/- mice showed novelty-induced hypo-locomotion suggesting neophobia, which may translate to the clinical picture of agoraphobia in humans and reduced RGS2 expression in humans was associated with a higher incidence of panic disorder with agoraphobia. Depression-like behavior was more distinctive in female Rgs2-/- mice. Stress resilience, tested in an acute and a chronic stress paradigm, was also more distinctive in female Rgs2-/- mice, suggesting Rgs2 to contribute to sex specific effects of anxiety disorders and depression.
Rgs2 deletion was associated with GPCR expression changes of the adrenergic, serotonergic, dopaminergic and neuropeptide Y systems in the brain and heart as well as reduced monoaminergic neurotransmitter levels. Furthermore, the expression of two stress-related microRNAs was increased upon Rgs2 deletion. The aversive-associative learning paradigm induced a dynamic Rgs2 expression change. The observed molecular changes may contribute to the anxious and depressed phenotype as well as promote altered stress reactivity, while reflecting an alter basal stress level and a disrupted sympathetic tone. Dynamic Rgs2 expression may mediate changes in GPCR signaling duration during memory formation.
Taken together, Rgs2 deletion promotes increased anxiety-like and depression-like behavior, altered stress reactivity as well as increased cognitive function.
Das Ziel der vorliegenden Arbeit war die Untersuchung der Reaktionen von Migränepatientinnen mit episodischer (EM) und häufiger Migräne (HM) auf verschiedene Aspekte des Triggerfaktors „Negativer Affekt“ wie Stress und negative Emotionen. Die Ergebnisse der beiden Gruppen wurden mit denen gesunder Kontrollpersonen verglichen (KG). Zur Ermittlung des Aufmerksamkeitsverhaltens gegenüber emotionalen Reizen wurden zwei Emotionale Stroop Tests (EST) durchgeführt. Erwartet wurde ein Aufmerksamkeitsbias der Patientinnen hinsichtlich negativer emotionaler Reize. Im EST 1 wurden allgemeine affektive Wörter der Valenzen positiv, neutral und negativ verwendet. Die Probandinnen sollten auf die Wortfarbe mit Tastendruck reagieren und den Wortinhalt ignorieren. Im EST 2 wurden emotionale Gesichtsausdrücke (ärgerlich, freundlich, neutral) als Reize verwendet. Dabei sollte die Rahmenfarbe der Bilder per Tastendruck bestimmt werden und der Inhalt ignoriert werden. Zur Auswertung wurden Emotionale Stroop Interferenzen (ESI) zum Vergleich Reaktionszeitdifferenzen negativ-neutral und negativ-positiv berechnet. Der erwartete Aufmerksamkeitsbias der HM für negative emotionale Reize wurde dabei nicht gefunden. Dafür zeigten im EST 2 die KG einen Aufmerksamkeitsbias für ärgerliche Gesichter. Ein signifikanter Gruppenunterschied in EST 2 mit sehr niedrigen, im Vergleich negativ-positiv sogar negativen ESI der HM ließ auf ein Vermeidungsverhalten dieser Gruppe ärgerlichen Gesichtern gegenüber schließen. Dieses wurde als Vermeidung negativer sozialer Reize interpretiert und zum gelernten, möglicherweise dysfunktionalen Vermeidungsverhalten von Migränepatienten potentiellen Triggersituationen gegenüber in Bezug gesetzt. Weiterhin wurden die Probandinnen mit dem „Paradigma der Öffentlichen Rede“ psychosozialem Stress ausgesetzt, indem sie vor einer Videokamera unter Beobachtung eine Rede halten sowie eine Kopfrechenaufgabe lösen sollten. Vorher und nachher wurden insgesamt vier Speichelproben zur Bestimmung des Stresshormons Kortisol genommen. Zudem wurden die Druckschmerzschwellen vor und nach dem Experimentalteil gemessen. Die erwartete Kortisolreaktion als Antwort auf die psychosoziale Stressaufgabe blieb aus. Ursache dafür kann die Stichprobenzusammensetzung mit 98% Frauen sein, deren Kortisolreaktion auf Stress durch hormonelle Schwankungen im Experiment nur unzuverlässig stimulierbar ist. Bei der Berechnung der Gesamtkortisolausschüttung über die Zeit zeigte sich im Gegensatz zu dem erwarteten erhöhten Kortisolspiegel der Migränepatientinnen ein linearer Abfall des Spiegels von KG, über EM zu HM, mit den niedrigsten Werten der HM. Diese Ergebnisse könnten auf Veränderungen der Hypophysen-Nebennieren (HHN)-Achse im Sinne eines Hypokortisolismus bei Migränepatientinnen widerspiegeln, der weiterer Klärung bedarf, z.B. durch die Bestimmung eines Kortisoltagesprofils bei Patientinnen. Eine veränderte Funktion der HHN-Achse könnte außerdem zu einer inadäquaten Reaktion auf Stresssituationen beitragen. Die bei Patientinnen ausbleibende Veränderung der Druckschmerzschwelle in Reaktion auf Stress lässt ebenfalls auf eine ungenügende Stressreaktion der Patientinnen schließen. Am Ende der Untersuchung, nach einer Entspannungsphase von 50 Minuten, wurde den Probandinnen Blut abgenommen, in dem die mRNA- und Proteinkonzentrationen ausgewählter pro- und antiinflammatorischer Zytokine bestimmt wurden. Die Analyse der Zytokinkonzentrationen mit Luminex ergab für die Proteindaten aufgrund zu geringer verwertbarer Daten kein interpretierbares Bild. Die mittels Real Time Quantitativer PCR erhaltenen mRNA-Konzentrationen spiegelten die Schmerzfreiheit der Patienten wieder, mit im Vergleich zu KG verringerten proinflammatorischen Zytokinen (TNF-alpha, IL-1beta, IL-2, IL-6) und dem ebenfalls verringerten antiinflammatorischen Zytokin IL-10, sowie dem deutlich erhöhten antiinflammatorischen IL-4. Die im Vergleich zur KG überregulierten Zytokine im schmerzfreien Intervall weisen auf veränderte Regulierungsmechanismen des Immunsystems für die Schmerzmediatoren Zytokine hin. Weitere Schmerzmediatoren könnten ebenfalls verändert sein, was weiterer Klärung in nachfolgenden Studien bedarf. Alles in allem konnten verschiedene Veränderungen in den psychologischen und endokrinen Reaktionen der Migränepatientinnen auf Bestandteile des Triggers „Negativer Affekt“ sowie in der Schmerzregulierung gefunden werden, wobei die Veränderungen bei Patientinnen mit Häufiger Migräne stärker auftraten. Dies weist auf eine mögliche Rolle der einzelnen untersuchten Komponenten bei der Migränechronifizierung hin, was in weiteren Studien vertiefend untersucht werden sollte.
Serotonin (5-HT) is an important modulator of many physiological, behavioural and developmental processes and it plays an important role in stress coping reactions. Anxiety disorders and depression are stress-related disorders and they are associated with a malfunction of the 5-HT system, in which the 5-HT transporter (5-HTT) plays an important role. 5-Htt knockout (KO) mice represent an artificially hyperserotonergic environment, show an increased anxiety-like behaviour and seem to be a good model to investigate the role of the 5-HT system concerning stress reactions and anxiety disorders. As synaptic proteins (SPs) seem to be involved in stress reactions, the effect of acute immobilization stress on the expression of the three SPs Synaptotagmin (Syt) I, Syt IV and Syntaxin (Stx) 1A was studied in the 5-Htt KO mouse model as well as the expression of the two immediate early genes (IEGs) FBJ osteosarcoma oncogene (c-Fos) and fos-like antigen 2 (Fra-2). Additionally, the expression of the corticotrophin releasing hormone (CRH) and its two receptors CRHR1 and CRHR2 was investigated as part of the hypothalamic-pituitary-adrenal (HPA) stress system. Based on gender- and genotype-dependent differences in corticosterone levels, expression differences in the brain were investigated by performing a quantitative real time-PCR study using primer pairs specific for these SPs and for the IEGs c-Fos and Fra-2 in five different brain regions in 5-Htt KO and 5-Htt wild-type (WT) mice. Mainly gender-dependent differences could be found and weaker stress effects on the expression of SPs could be demonstrated. Regarding the expression of IEGs, stress-, gender- and genotype-dependent differences were found mainly in the hypothalamus. Also in the hypothalamus, gender effects were found concerning the expression of CRH and its both receptors. Additionally, in a second study, male 5-Htt WT and male 5-Htt deficient mice were subjected to a resident-intruder-paradigm which stresses the animals through a loser experience. The morphological changes of neurons were subsequently analyzed in Golgi-Cox-stained sections of limbic brain areas in stressed and unstressed animals of both genotypes using the computer-based microscopy system Neurolucida (Microbrightfield, Inc.). While no differences concerning dendritic length, branching patterns and spine density were found in the hippocampus and no differences concerning dendritic length and branching patterns could be shown in the cingulate cortex (CG), pyramidal neurons in the infralimbic cortex (IL) of stressed 5-Htt WT mice displayed longer dendrites compared to unstressed 5-Htt WT mice. The results indicate that, although in this model drastic alterations of neuronal morphology are absent, subtle changes can be found in specific brain areas involved in stress- and anxiety-related behaviour which may represent neural substrates underlying behavioural phenomena.
Schutzfaktoren bei Kindern vor dem Übergang in die Sekundarstufe – Ergebnisse aus der STRESSStudie
(2019)
Der Übergang in die Sekundarstufe stellt für Kinder ein normativ kritisches Lebensereignis dar, das unterschiedlich bewertet und bewältigt wird. Der vorliegende Beitrag befasst sich mit der Frage, welche Schutzfaktoren dazu beitragen, dass Kinder dem Übergang mit Gefühlen der Vorfreude begegnen und sie dieses Ereignis problemorientiert bewältigen. Untersucht werden 596 ViertklässlerInnen aus Bayern und Hessen vor dem Übergang in die Sekundarstufe. In Anlehnung an die kognitiv-transaktionale Theorie von Lazarus und Folkman (1984) werden die Zusammenhänge von primärer Bewertung als Herausforderung und problemorientierter Stressbewältigung unter Berücksichtigung von personalen (akademisches Selbstkonzept, Selbstwirksamkeit) und sozialen Schutzfaktoren (Familienzusammenhalt, allgemeines förderndes Elternverhalten) analysiert. Mithilfe von Strukturgleichungsmodellen lassen sich Mediationseffekte der Schutzfaktoren nachweisen. Insbesondere das akademische Selbstkonzept und ein förderliches Familienumfeld erweisen sich als bedeutsame protektive Faktoren in der Phase vor dem Übergang.
The hoatzin (Opisthocomus hoazin) is an enigmatic bird that lives in the riparian lowlands of northern South America. Among its peculiar attributes are 1) microbial foregut fermentation, unique in birds, to convert plant cellulose in the foliage which it consumes into simple sugars, 2) an ongoing debate about the puzzling taxonomic position, although a relationship to the Cuculiformes appears likely, 3) adaptive wing claws in the young which are used for climbing, and 4) co-operative breeding behaviour. Despite the information available on digestive mode and taxonomy little has been published on its breeding biology and behaviour and until now almost all knowledge was based on a study in the savannah of Venezuela. This is the first detailed study of the hoatzin’s nesting ecology in a rainforest habitat. From 1995-1998 and in 2000 I monitored a hoatzin population which consisted of approximately 700 individuals in an Amazonian rainforest in Ecuador situated in the Cuyabeno Wildlife Reserve (between 0°02’ N, 76°0’ W, 0°03’ S, and 76°14’ W). The area is composed of various black water lagoons and small rivers, flooded forests and terra firme forest. Primarily, I examined group composition and breeding pattern and success related to traits such as clutch and egg size, offspring sex ratio and the number of parents involved in a common breeding attempt. Apart from standardised observations and monitoring I took blood samples from chicks, which were later used for molecular sexing and for DNA fingerprints. Food plants were collected and determined and a rough habitat mapping was conducted. Since the impacts of boat tourism in the area became apparent I investigated the interactions of adult and young hoatzins with tourists and measured the plasma concentration of the hormone corticosterone in chicks as an indicator of stress. Each chapter has its own introduction to the specific topic and can be read independently. The main findings of this study are: The reproduction of the hoatzin was timed strictly following the bimodal rainy pattern in the area. There was only one breeding attempt per year. Only 18% of breeding attempts ended successfully with at least one fledgling. Incubation started with the first egg laid and led to hatching asynchrony. In most cases only the A-chick survived and there is evidence for a brood reduction strategy. I observed egg size variation patterns both within the clutches and between the clutches. Approximately 80% of breeding attempts were carried out with auxiliaries. Units with alloparentals had a higher breeding success than single pairs. The results indicate a trade-off between helping and group size. DNA band-sharing comparisons revealed the existence of joint-nests, where several females laid their eggs in one single nest. The clutches of these joint-nests suffered severe egg loss during all stages of incubation. Breeding success did not differ between single- and joint-nests. The primary offspring sex ratio was biased towards daughters. There was no differential mortality between the sexes until fledging. Individual breeding units employed an adaptive production of offspring of each sex according to their current group size. Rainforest tourism negatively influenced the survival and growth of young, not yet fledged hoatzins. In addition tourist-exposed young showed a stronger hormonal stress response than their conspecifics from undisturbed sites. In contrast, breeding adults appear to have habituated to tourist boats and exposure to observers.
Background
High prevalence rates of psychological distress in medical training and later professional life indicate a need for prevention. Different types of intervention were shown to have good effects, but little is known about the relative efficacy of different types of stress management interventions, and methodological limitations have been reported. In order to overcome some of these limitations, the present study aimed at evaluating the effect of a specifically developed mindfulness-based stress prevention training for medical students (MediMind) on measures of distress, coping and psychological morbidity.
Methods
We report on a prospective randomized controlled trial with three study conditions: experimental treatment (MediMind), standard treatment (Autogenic Training) and a control group without treatment. The sample consisted of medical or dental students in the second or eighth semester. They completed self-report questionnaires at baseline, after the training and at one year follow-up. Distress (Trier Inventory for the Assessment of Chronic Stress, TICS) was assessed as the primary outcome and coping (Brief COPE) as a co-primary outcome. Effects on the psychological morbidity (Brief Symptom Inventory, BSI) as a secondary outcome were expected one year after the trainings.
Results
Initially, N = 183 students were randomly allocated to the study groups. At one year follow-up N = 80 could be included into the per-protocol analysis: MediMind (n =31), Autogenic Training (n = 32) and control group (n = 17). A selective drop-out for students who suffered more often from psychological symptoms was detected (p = .020). MANCOVA’s on TICS and Brief COPE revealed no significant interaction effects. On the BSI, a significant overall interaction effect became apparent (p = .002, η2partial = .382), but post hoc analyses were not significant. Means of the Global Severity Index (BSI) indicated that MediMind may contribute to a decrease in psychological morbidity.
Conclusion
Due to the high and selective dropout rates, the results cannot be generalized and further research is necessary. Since the participation rate of the trainings was high, a need for further prevention programs is indicated. The study gives important suggestions on further implementation and evaluation of stress prevention in medical schools.
Several lines of evidence implicate a dysregulation of tryptophan hydroxylase (TPH)-dependent serotonin (5-HT) synthesis in emotions and stress and point to their potential relevance to the etiology and pathogenesis of various neuropsychiatric disorders. However, the differential expression pattern of the two isoforms TPH1 and TPH2 which encode two forms of the rate-limiting enzyme of 5-HT synthesis is controversial. Here, a comprehensive spatio-temporal analysis clarifies TPH1 and TPH2 expression during pre- and postnatal development of the mouse brain and in adult human brain as well as in peripheral organs including the pineal gland. Four different methods (real time PCR, in situ hybridization, immunohistochemistry and Western blot analysis) were performed to systematically control for tissue-, species- and isoform-specific expression on both the pre- and posttranslational level. TPH2 expression was consistently detected in the raphe nuclei, as well as in fibres in the deep pineal gland and in the gastrointestinal tract. Although TPH1 expression was found in these peripheral tissues, no significant TPH1 expression was detected in the brain, neither during murine development, nor in mouse and human adult brain. Also under conditions like stress and clearing the tissue from blood cells, no changes in expression levels were detectable. Furthermore, the reuptake of 5-HT into the presynaptic neuron by the serotonin transporter (SERT) is the major mechanism terminating the neurotransmitter signal. Thus, mice with a deletion in the Sert gene (Sert KO mice) provide an adequate model for human affective disorders to study lifelong modified 5-HT homeostasis in interaction with stressful life events. To further explore the role of TPH isoforms, Tph1 and Tph2 expression was studied in the raphe nuclei of Sert deficient mice under normal conditions as well as following exposure to acute immobilization stress. Interestingly, no statistically significant changes in expression were detected. Moreover, in comparison to Tph2, no relevant Tph1 expression was detected in the brain independent from genotype, gender and treatment confirming expression in data from native animals. Raphe neurons of a brain-specific Tph2 conditional knockout (cKO) model were completely devoid of Tph2-positive neurons and consequently 5-HT in the brain, with no compensatory activation of Tph1 expression. In addition, a time-specific Tph2 inducible (i) KO mouse provides a brain-specific knockdown model during adult life, resulting in a highly reduced number of Tph2-positive cells and 5-HT in the brain. Intriguingly, expression studies detected no obvious alteration in expression of 5-HT system-associated genes in these brain-specific Tph2 knockout and knockdown models. The findings on the one hand confirm the specificity of Tph2 in brain 5-HT synthesis across the lifespan and on the other hand indicate that neither developmental nor adult Tph2-dependent 5-HT synthesis is required for normal formation of the serotonergic system, although Tph1 does not compensate for the lack of 5-HT in the brain of Tph2 KO models. A further aim of this thesis was to investigate the expression of the neuropeptide oxytocin, which is primarily produced in the hypothalamus and released for instance in response to stimulation of 5-HT and selective serotonin reuptake inhibitors (SSRIs). Oxytocin acts as a neuromodulator within the central nervous system (CNS) and is critically involved in mediating pain modulation, anxiolytic-like effects and decrease of stress response, thereby reducing the risk for emotional disorders. In this study, the expression levels of oxytocin in different brain regions of interest (cortex, hippocampus, amygdala, hypothalamus and raphe nuclei) from female and male wildtype (WT) and Sert KO mice with or without exposure to acute immobilization stress were investigated. Results showed significantly higher expression levels of oxytocin in brain regions which are involved in the regulation of emotional stimuli (amygdala and hippocampus) of stressed male WT mice, whereas male Sert KO as well as female WT and Sert KO mice lack these stress-induced changes. These findings are in accordance with the hypothesis of oxytocin being necessary for protection against stress, depressive mood and anxiety but suggest gender-dependent differences. The lack of altered oxytocin expression in Sert KO mice also indicates a modulation of the oxytocin response by the serotonergic system and provides novel research perspectives with respect to altered response of Sert KO mice to stress and anxiety inducing stimuli.
Experimental investigation of the effect of distal stress induction on threat conditioning in humans
(2022)
Stress constitutes a major risk factor for the development of psychiatric disorders, such as PTSD and anxiety disorders, by shifting the brain into a state of sensitization and makes it more vulnerable when being exposed to further aversive events. This was experimentally in-vestigated in rodents by examining the effect of a distal stress induction on threat conditioning, where stress impaired extinction learning and caused spontaneous recovery. However, this effect has never been experimentally investigated in humans, so far. Thus, the aim of this dissertation was to investigate the effect of distal stress on threat conditioning in humans.
Therefore, two subsequent studies were conducted. For both studies, the threat conditioning paradigm comprised threat acquisition, extinction learning, and re-extinction. In the threat acquisition phase, two geometrical shapes were used as conditioned stimulus (CS), from which one (CS+) was paired with a painful electric stimulus (unconditioned stimulus, US), but not the other one (CS-). During extinction learning 24 h later and re-extinction seventeen days later, CSs were again presented but without any US delivery.
In Study 1, 69 participants underwent either a stress (socially evaluated cold pressor test; SECPT) or sham protocol 10 days prior to threat conditioning. Furthermore, context effects were examined by placing the stress protocol in the same context (context-A stress, and sham group) or a different context (context-B stress group) than conditioning. Results revealed that the context-A, but not context-B, stress group displayed impaired safety learning (i.e. potenti-ation towards CS-) for startle response during threat acquisition. Moreover, the same stress group showed impaired threat extinction, evident in sustained CS discrimination in valence and arousal ratings during extinction learning, and memory recall. In sum, distal stress on the one hand impaired safety learning during threat conditioning on a level of startle response. On the other hand, stress impaired threat extinction on a level of ratings. Noteworthy, the effect of distal stress was only found when the stressor was placed in the same context as later threat learning. Hence, suggesting that the combination of stressor and stressor-associated context exerted the effect on threat extinction.
In Study 2, it was examined if distal stress induction could also have an impact on threat and extinction processes without the necessity of context association. Therefore, the same stress (n = 45) or sham protocol (n = 44) as in Study 1 was conducted in a different context than and 24 h prior to a threat conditioning paradigm. Similar to Study 1, weakened extinction learning was found in fear ratings for the stress (vs. sham) group, which was indicated by persistent CS+/CS- differentiation after the first block of extinction trials. Alterations in safety learning towards the CS- during threat acquisition were only supported by significant correlations between stress measures on the stress day and conditioned startle response of the CS- during acquisition.
Taken together, in two subsequent studies this dissertation provided first evidence of impaired threat extinction after distal stress induction in humans. Furthermore, impairments in safety learning, as can be observed in PTSD, were additionally demonstrated. Interestingly, the effects were boosted and more profound when associating the stressor to the later learning context. These results have clinical implications as they can be translated to the notion that prior stress exposure makes an individual more vulnerable for later aversive events.
Stress has been shown to influence neuroplasticity and is suspected to increase the risk for psychiatric disorders such as major depression and anxiety disorders. Additionally, the short variant of the human serotonin transporter (5-HTT) length polymorphism (5-HTTLPR) is suggested to increase the risk for the development of such disorders. While stress as well as serotonergic signaling are not only discussed to be involved in the development of psychiatric disorders, they are also known to influence hippocampal adult neurogenesis (aN). Therefore, it has long been suspected that aN is involved in the etiology of these illnesses. The exact role of aN in this context however, still remains to be clarified.
In the present doctoral thesis, I am introducing two different studies, which had been carried out to assess possible changes in neuroplasticity and behavior as a result of 5-HTT genotype by stress interactions. In both studies, animals of the 5-HTT knock-out (5-HTT-/-) mouse line were used, which have been found to exhibit increased anxiety- and depression-related behavior, an altered stress response and decreased aggressive behavior. The aim of the first study, the so-called Spatial Learning study, had been to evaluate whether mice with altered levels of brain 5-HT as a consequence of lifelong 5-HTT deficiency perform differently in two spatial memory tests, the Morris Water Maze (WM) and the Barnes Maze (BM) test prospectively differing in aversiveness. Mice of the Spatial Learning study were of male sex and six months of age, and where subjected to a total of 10 (BM) or 15 (WM) trials. My particular interest was to elucidate if there are genotype by treatment interactions regarding blood plasma corticosterone levels and, if neurobiological equivalents in the brain to the found behavioral differences exist. For this purpose I carried out a quantitative immunohistochemistry study, investigating stem cell proliferation (via the marker Ki67) and aN (via the immature neuron marker NeuroD), as well as expression of the two immediate early genes (IEGs) Arc and cFos as a markers for neuronal activity in the hippocampus. The aim of the second study, the chronic mild stress (CMS) study had been to evaluate whether the innate divergent depression-like and anxiety-like behavior of mice with altered levels of brain 5-HT as a consequence of 5-HTT-deficiency is altered any further after being subjected to a CMS paradigm. Two cohorts of one-year-old female mice had been subjected to a variety of unpredictable stressors. In order to exclude possible interfering influences of behavioral testing on corticosterone levels and the outcome of the quantitative immunohistochemistry study the first cohort had been behaviorally tested after CMS while the second one had remained behaviorally untested. The objective of my part of the study was to find out about possible genotype by treatment interactions regarding blood plasma corticosterone as well as regarding aN in the hippocampus of the mice that had been subjected to CMS. For this purpose I performed a quantitative immunohistochemistry study in order to investigate the phenomenon of adult neurogenesis (via Ki67, NeuroD and the immature neuron marker DCX).
Both studies led to interesting results. In the CMS study, we could not replicate the increased innate anxiety- and depression-like behavior in 5-HTT-/- mice known from the literature. However, with regard to the also well documented reduced locomotor activity, as well as the increased body weight of 5-HTT-/- mice compared to their 5-HTT+/- and 5-HTT+/+ littermates, we could demonstrate that CMS leads to increased explorative behavior in the Open Field Test and the Light/Dark Box primarily in 5-HTT+/- und 5-HTT+/+ mice. The Spatial learning study revealed that increased stress sensitivity of 5-HTT-/- mice leads to a poorer performance in the WM test in relation to their 5-HTT+/+ and 5-HTT+/- littermates. As the performance of 5-HTT-/- mice in the less aversive BM was undistinguishable from both other genotypes, we concluded that the spatial learning ability of 5-HTT-/- mice is comparable to that of both other genotypes. As far as stress reactivity is concerned, the experience of a single trial of either the WM or the BM resulted in increased plasma corticosterone levels, irrespective of the 5-HTT genotype. After several trials 5-HTT-/- mice exhibited higher corticosterone concentrations compared with both other genotypes in both tests. Blood plasma corticosterone levels were highest in 5-HTT-/- mice tested in the WM indicating greater aversiveness of the WM and a greater stress sensitivity of 5-HTT deficient mice. In the CMS study, the corticosterone assessment of mice of cohort 1, which had undergone behavioral testing before sacrifice, resulted in significantly elevated corticosterone levels in 5-HTT-/- mice in relation to their 5-HTT+/+ controls. Contrary, corticosterone levels in mice of cohort 1, which had remained behaviorally untested, were shown to be elevated / increased after CMS experience regardless of the 5-HTT genotype. Regarding neuroplasticity, the Spatial Learning study revealed higher baseline levels of cFos- and Arc-ir cells as well as more proliferation (Ki67-ir cells) and higher numbers of neuronal progenitor cells (NeuroD-ir cells) in 5-HTT-/- compared to 5-HTT+/+ mice. Moreover, in 5-HTT-/- mice we could demonstrate that learning performance in the WM correlates with the extent of aN. The CMS study, in which aN (DCX-ir cells), has also been found to be increased in 5-HTT-/- mice compared to their 5-HTT+/+ littermates, yet only in control animals, did show hampered proliferation (Ki67-ir cells) in the hippocampus of all 5-HTT genotypes following CMS experience. Interestingly, the number of immature neurons (DCX-ir cells) was diminished exclusively in 5-HTT-/- mice in response to CMS.
From the Spatial Learning study we concluded, that increased IEG expression and aN levels observed in the hippocampus of 5-HTT deficient mice can be the neurobiological correlate of emotion circuit dysfunction and heightened anxiety of these mice and that 5-HTT-/- animals per se display a “stressed” phenotype as a consequence of long-life 5-HTT deficiency. Due to the different age and sex of the mice in the two studies, they cannot be compared easily. However, although the results of the CMS study seem to contradict the results of the Spatial Learning study at the first glance, they do support the conclusion of the Spatial Learning study by demonstrating that although CMS does have an impact on 5-HTT-/- mice on the neurobiological level (e.g. manifesting in a decrease of DXC-ir cells following CMS) CMS experience cannot add onto their heightened inborn stress-level and is almost ineffective regarding further changes of the behavior of 5-HTT-deficient mice. I thus propose, that 5-HTT-/- mice as a result of lifelong altered 5-HT signaling display a stressed phenotype which resembles a state of lethargy and is paralleled by baseline heightened IEG expression and aN. It cannot be altered or increased by CMS, but it becomes most visible in stressful situations such as repeated spatial learning tests like the WM in which locomotor activity is required.
Auf Intensivstationen wurden gastro¬intestinale Störungen als Risikofaktor für eine erhöhte Mortalität identifiziert. Etwa 80% der Patienten hatten nach einer Woche auf der Intensivstation gastro¬intestinale Störungen. Dies wird bedingt durch eine Vielzahl von unterschiedlichen Faktoren wie z.B. Abdominal-chirurgie, Verletzungen der Neuroachse, SIRS, Hypoxämie, Störungen der Wasser-Elektrolyt-Hämöostase oder Säure-Basen-Gleichge¬wichts sowie Gabe von Analgetika, Hypnotika, Katecholamine oder Clonidin. Daher stellt sich die Frage, welchen Einfluss Stressmediatoren auf das gastro¬intestinale Gleich-gewicht haben. In dieser Arbeit wird die Wirkung des Stressmediators (r/h)-CRF sowie natürlicher und synthetischer Agonisten und Antagonisten auf die Peristaltik des Meer¬schweinchen¬dünndarms untersucht. Des Weiteren werden Wechselwirkungen zwischen den Stressmediatoren und dem klinisch zur Sedierung von Intensivpatienten eingesetzten Benzodiazepin Midazolam untersucht. Die Experimente werden an Dünndarmsegmenten des Meerschweinchens in vitro durchgeführt, die kontinuierlich und gegen einen geringen Widerstand endoluminal mit Tyrodelösung perfundiert werden. In dieser Versuchsvorricht-ung wird in den Darmsegmenten ab einem bestimmten intraluminalen Druck (peristaltic pressure threshold, PPT) eine von oral nach aboral verlaufende peristaltische Kontraktionswelle ausgelöst und der Darminhalt ausgeworfen. Die Peptide werden extraserosal in das Organbad gegeben. Unter dem Einfluss der Agonisten ((r/h)-CRF, Stressin, Urocortin II) steigt die Δ PPT konzentrations¬abhängig auf große negative Werte an und es zeigt sich eine Stimulation der Peristaltik. Die Antagonisten (Astressin, NBI 27914, K 41498) hingegen lösen keine Modulation der Peristaltik aus. Durch die Vorbehandlung mit den Anta¬gonisten wird eine Unterbindung der agonistischen Wirkung versucht. Diese gelingt nicht. In Kombination mit Midazolam kann ein überraschender ad¬ditiv inhibitorischer Effekt der CRF-rezeptorselektiven Agonisten und Anta¬gonisten gezeigt werden. Die Wirkung von Astressin, welches gleich hohe Affinität für den CRF1- und CRF2-Rezeptor aufweist, hebt diejenige des Benzodiazepins partiell auf. Über die Signaltransduktion zur Induktion bzw. Inhibition der Peristaltik kann nur gemutmaßt werden. In Frage kommen einige Mechanismen, deren Zusammen¬spiel untereinander noch nicht geklärt ist. Zu diesen Mechanismen zählt der sogenannte „cross-talk“ der G-protein-gekoppelten Rezeptoren. Möglicherweise findet auch eine direkte Interaktion mit dem GABA-ergen Rezeptor statt. Es kommt im Weiteren zu einer Aktivierung der Adenylatcyclase, zur cAMP-Akkumulation, Kalziumfreisetzung und Kontraktion der glatten Muskula¬tur des Ileums. Ein anderer Mechanismus involviert die Acetylcholinsekretion. Dieses Molekül scheint jedoch eine entscheidende Rolle zu spielen. Denkbar sind einige, durch G-Proteine vermittelte allgemein bekannte Wege, z.B. über Interaktion mit Enzymen, Kalium- oder Kalziumkanälen oder die Genexpres¬sion. Letztlich hat Acetylcholin Auswirkungen auf die Peristaltik des Ileums und dessen Permeabilität. Ein direkt neuronal vermittelter Weg über den CRF1-Rezeptor führt ebenfalls zur Stimulation der Peristaltik. Neben diesen Bau¬steinen spielen noch andere biochemische Mechanismen eine Rolle wie z.B. die Rezeptorkonfiguration oder die Bindungseigenschaften des Ligandens in Abhängigkeit des peptidischen oder nichtpeptidischen Substanzcharakters.