Estresse precoce e alterações do eixo hipotálamo-pituitária-adrenal (HPA) na depressão. / Early Life Stress and alterations of the Hypothalamic-Pituitary-Adrenal (HPA) axis in depression.

Cristiane von Werne Baes

30 March 2012

Introdução: Diversos estudos sugerem que o estresse nas fases iniciais de desenvolvimento pode induzir alterações persistentes na capacidade do eixo Hipotálamo-Pituitária-Adrenal (HPA) em responder ao estresse na vida adulta. O desequilíbrio do cortisol tem sido identificado como um correlato biológico dos transtornos depressivos. Essas anormalidades parecem estar relacionadas às mudanças na capacidade dos glicocorticóides circulantes em exercer seu feedback negativo na secreção dos hormônios do eixo HPA por meio da ligação aos receptores mineralocorticóides (RM) e glicocorticóides (RG) nos tecidos do eixo HPA. Devido à grande variedade de estressores, assim como os diferentes subtipos de depressão, os achados dos estudos atuais têm sido inconsistentes. Dessa forma, necessitando de mais estudos para que se possa elucidar os mecanismos envolvidos na associação entre o Estresse Precoce (EP) e o desenvolvimento de quadros depressivos. Objetivo: O objetivo deste estudo é avaliar a correlação entre Estresse Precoce e alterações no eixo Hipotálamo-Pituitária-Adrenal e na função dos receptores glicocorticóides e mineralocorticóides em pacientes depressivos. Metodologia: Foram recrutados inicialmente 30 sujeitos divididos em dois grupos: grupo de pacientes com diagnóstico de episódio depressivo atual (n=20) e grupo de controles (n=10). Posteriormente os pacientes foram divididos em outros dois grupos de acordo com o EP, compondo a amostra final por três grupos: grupo de pacientes depressivos com presença de EP (n=13), grupo de pacientes depressivos com ausência de EP (n=7) e grupo de controles (n=10). Os pacientes foram avaliados por meio de Entrevista Clínica de acordo com os critérios diagnósticos do DSM-IV, para a confirmação do diagnóstico. Para avaliação da gravidade dos sintomas depressivos foi aplicada a Escala de Depressão de Hamilton (HAM-D21), sendo incluídos apenas pacientes com HAM-D21 17. A presença de EP foi confirmada através da aplicação do Questionário Sobre Traumas na Infância (QUESI). Foram utilizados também a Escala de Avaliação de Depressão de Montgomery-Asberg (MADRS), o Inventário de Depressão de Beck (BDI), o Inventário de Ansiedade de Beck (BAI), a Escala de Ideação Suicida de Beck (BSI), a Escala de Desesperança de Beck (BHS), a Escala Hospitalar de Ansiedade e Depressão (HAD) e a Escala de Impulsividade de Barratt (BIS-11) para a avaliação de sintomas psiquiátricos. A avaliação endócrina foi controlada por placebo, cego por parte dos controles e pacientes, não randomizado, com desenho de medidas repetidas, onde os efeitos da Fludrocortisona (0.5 mg) e da Dexametasona (0.5 mg) foram avaliados através do cortisol salivar e plasmático. A secreção de cortisol plasmático e salivar foi avaliada nos sujeitos, após a administração de uma cápsula de Placebo, Fludrocortisona e Dexametasona às 22hs do dia anterior. O cortisol salivar foi coletado às 22h, ao acordar, 30 e 60 minutos após acordar e antes da coleta plasmática, nos dias seguintes após os desafios. Resultados: Na amostra de pacientes depressivos e controles, encontramos níveis significativamente menores de cortisol salivar ao acordar após a administração de Placebo nos pacientes depressivos comparados aos controles. Encontramos também uma tendência dos pacientes apresentarem níveis maiores de cortisol salivar ao acordar do que os controles após a administração de Dexametasona. Quando avaliado o cortisol após a administração de Fludrocortisona, os pacientes apresentaram níveis significativamente menores de cortisol salivar 30 minutos após acordar e na Área Sob a Curva (AUC) do que os controles. Além disso, encontramos também uma tendência dos pacientes depressivos apresentarem níveis menores de cortisol salivar 60 minutos após acordar do que os controles. Quando comparados entre pacientes depressivos com presença e ausência de EP e controles, encontramos uma tendência dos pacientes depressivos com ausência de EP apresentarem níveis menores de cortisol salivar ao acordar após Placebo do que os controles. As médias dos níveis de cortisol salivar ao acordar não diferiram entre os pacientes com presença de EP e os controles e entre os pacientes do grupo presença e ausência de EP. Com relação aos níveis de cortisol salivar após a administração de Dexametasona entre pacientes depressivos com presença e ausência de EP e controles, os pacientes depressivos com ausência de EP apresentaram níveis significativamente maiores de cortisol salivar ao acordar do que os controles. Encontramos também uma tendência dos pacientes com ausência de EP apresentarem níveis maiores de cortisol salivar ao acordar do que os pacientes com presença de EP, porém não foram encontradas diferenças significativas entre os pacientes com presença de EP e os controles. Conclusão: Nossos dados demonstram uma hipoatividade do eixo HPA nos pacientes depressivos. Além disso, estes achados sugerem que esta desregulação do eixo HPA se deva em parte a uma diminuição da sensibilidade dos RG e uma hiperativação dos RM nos pacientes depressivos. No entanto, quando comparados pacientes depressivos com presença e ausência de Estresse Precoce, os desafios com agonistas seletivos como a Dexametasona (agonista RG) e a Fludrocortisona (agonista RM) não foram capazes de detectar esta diferença fisiopatológica e distinguir entre os diferentes tipos de psicopatologia. Dessa forma, estes resultados sugerem que estudos com um agonista misto (RG/RM) como a Prednisolona teriam potencial para distinguir os pacientes depressivos com presença de Estresse Precoce. / Introduction: Several studies suggest that stress in early stages of development can induce persistent changes in the ability of the Hypothalamic-Pituitary-Adrenal (HPA) axis to respond to stress in adulthood. The imbalance of cortisol has been identified as a biological correlate of depressive disorders. These abnormalities seem to be related to changes in the ability of circulating glucocorticoids to practice their negative feedback on the secretion of HPA axis hormones through connecting to the mineralocorticoid receptor (MR) and glucocorticoid (GR) in the tissues of HPA axis. Due to the wide variety of stressors, as well as the different subtypes of depression, the findings of current studies have been inconsistent. Thus, more studies need to be able to elucidate the mechanisms involved in the association between Early Life Stress (ELS) and the development of depression. Objective: The objective this study is to evaluate the correlation between of Early Life Stress and changes in Hypothalamic-Pituitary-Adrenal axis and at receptors function glucocorticoid and mineralocorticoid in depressive patients. Methodology: We recruited 30 subjects initially divided into two groups: patients with current depressive episode (n =20) and control group (n = 10) Subsequently, patients were divided into two groups according to the ELS, making the final sample of three groups: depressive patients with ELS (n =13) group of depressive patients without ELS (n=7) and control group (n=10). Patients were evaluated by clinical interview according to the diagnostic criteria of DSM-IV to confirm the diagnosis. To evaluate the severity of depressive symptoms was applied to the Hamilton Depression Scale (HAM-D21), and included only patients with HAM-D21 17. The presence of ELS was confirmed by the Childhood Trauma Questionnaire (CTQ). We also used the Depression Rating Scale Montgomery-Asberg (MADRS), the Beck Depression Inventory (BDI), the Beck Anxiety Inventory (BAI), the Scale for Suicide Ideation Beck (BSI), the Scale Beck Hopelessness (BHS), the Hospital Anxiety and Depression Scale (HADS) and the Barratt Impulsiveness Scale (BIS-11) for the assessment of severity psychiatric symptoms. Endocrine evaluation was placebo-controlled, blinded by the patients and controls, non-randomized design with repeated measures, where the effects of Fludrocortisone (0.5 mg) and dexamethasone (0.5 mg) were assessed using salivary cortisol and plasma. The secretion of plasma cortisol and salivary was evaluated in the subjects, after administration of a capsule of Placebo, Fludrocortisone and Dexamethasone to 22hs the previous day. The salivary cortisol was collected at 22h, on waking, 30 and 60 minutes after waking and before plasma collection in the following days after the challenges. Results: In these sample of depressed patients and controls, we found significantly lower levels of salivary cortisol around waking after administration of Placebo in depressed patients than controls. We also found a trend for patients to have higher levels of salivary cortisol than controls on awakening after administration of Dexamethasone. When measured cortisol after administration of Fludrocortisone, patients showed significantly lower levels of salivary cortisol 30 minutes after waking and the Area Under the Curve (AUC) than controls. In addition, we also found a tendency for depressed patients showed lower levels of salivary cortisol 60 minutes after awakening than controls. When compared between depressed patients with and without ELS and controls, we found a tendency for depressed patients without ELS presented lower levels of salivary cortisol on awakening after Placebo than controls. The mean salivary cortisol levels on waking did not differ between patients with ELS and controls and between patients with and without ELS. The levels of salivary cortisol after Dexamethasone administration between depressed patients with and without ELS and controls, depressed patients without ELS had significantly higher levels of salivary cortisol on awakening than controls. We also found a trend for patients without Early Life Stress have higher levels of salivary cortisol upon waking than patients with Early Life Stress, but there were no significant differences between patients with Early Life Stress and controls. Conclusion: Our data show a hypoactivity of the HPA axis in depressed patients. Moreover, these findings suggest that this dysregulation HPA axis is partly due to a decrease the sensitivity of RG and a hyperactivation of MR in patients depressive. However, when compared depressed patients with and without Early Life Stress, the challenges with selective agonists as the Dexamethasone (agonist GR) and Fludrocortisone (agonist MR) were not able to detect this difference pathophysiological and distinguish between the different types of psychopathology. Thus, these results suggest that studies with a mixed agonist (GR/MR) such as Prednisolone have potential to distinguish of depressive patients with Early Life Stress.

Cortisol

Depressão

Eixo Hipotálamo-Pituitária-Adrenal

Estresse Precoce

Receptores Glicocorticóides

Receptores Mineralocorticóides.

Cortisol

Depression

Early Life Stress

Glucocorticoid Receptors

Hypothalamic-Pituitary-Adrenal Axis

Mineralocorticoid Receptors.

Comparison of Cortisol Stress Response in Patients with Panic Disorder, Cannabis-Induced Panic Disorder, and Healthy Controls

Petrowski, Katja, Conrad, Rupert

05 August 2020

Background/Aims: Little research effort has so far been dedicated to the analysis of the hypothalamic-pituitary-adrenal axis of aetiologically differing subgroups of patients with panic disorder (PD). The current study aimed at a deeper understanding of the cortisol stress response in cannabis-induced PD (CIPD) patients. Methods: Matched groups of 7 PD patients (mean age ± SD: 32.95 ± 9.04 years), 7 CIPD patients (31.94 ± 8.40 years), and 7 healthy controls (HC) (31.13 ± 8.57 years) were included in the study. The Trier Social Stress Test (TSST) was used for stress induction. Salivary cortisol samples were collected and panic- and depression-related questionnaires were applied. Results: A stress response to the TSST was found in 28.6% of PD patients, in 51.1% of CIPD patients, and in 100% of HC subjects. Statistical analyses revealed a cortisol hyporesponsiveness in PD and CIPD patients. While cortisol values of PD patients and HC participantsdiffered significantly, CIPD patients’ cortisol courses balanced between those of PD patients and HC subjects. Conclusions: Current findings show a distinctive pattern of the stress-induced cortisol reaction in CIPD patients, which is markedly different from the hormonal response in PD patients as well as HC subjects. Previous findings of cortisol hyporesponsiveness in PD patients compared to HC subjects were confirmed.

info:eu-repo/classification/ddc/610

ddc:610

[en] EFFECTS OF ANTIHYPERTENSIVES ON ANXIETY-LIKE BEHAVIORS IN ANIMAL MODELS / [pt] USO DE ANTI-HIPERTENSIVOS NA MODULAÇÃO DA ANSIEDADE EM MODELOS ANIMAIS

09 June 2021

[pt] Os transtornos de ansiedade afetam milhares de pessoas em todo o mundo, sendo representados como um dos principais distúrbios mentais. A ansiedade é acompanhada por uma série de respostas comportamentais e fisiológicas, quando na presença de estímulos aversivos. Essas respostas provocam ações neuroendócrinas envolvendo o sistema nervoso simpático (SNS), o eixo hipotálamo-pituitária-adrenal (HPA) e o sistema renina-angiotensina (SRA). Pesquisas feitas em modelos animais possibilitam uma melhor compreensão dos mecanismos neurofisiológicos e comportamentais associados à patologias observadas em humanos. Os animais Cariocas com Alto Congelamento (CAC) e Cariocas com Baixo Congelamento (CBC) são duas linhagens condicionadas de ratos que apresentam, respectivamente, níveis altos ou baixos de respostas semelhantes à ansiedade. O presente estudo investigou os efeitos da Losartana e Valsartana, sendo ambas da classe antagonistas do receptor de angiotensina II, na modulação da ansiedade nos ratos CAC, CBC e ratos controle. O tratamento crônico com Losartana e o tratamento agudo com Valsartana não produziram efeitos significativos nas respostas comportamentais associadas à ansiedade no condicionamento de medo contextual, campo aberto e labirinto em cruz elevado. Nossos dados sugerem que nas doses e duração dos tratamentos, a administração destes medicamentos anti-hipertensivos não é capaz de modular a ansiedade nos animais CAC e CBC. / [en] Anxiety disorders affect thousands of people all around the world, being represented as the most common of mental disorders. Anxiety is associated with a number of behavioral and physiological responses when faced with aversive stimuli. These responses provoke neuroendocrine actions involving the activation of the sympathetic nervous system (SNS), the hypothalamic-pituitary-adrenal axis (HPA) and the renin-angiotensin system (RAS). Studies on animal models allow for a better understanding of the neurophysiological and behavioral mechanisms associated with pathologies observed in humans. The Carioca High Freezing (CHF) and Carioca Low Freezing (CLF) are two conditioned strains of rats that present, respectively, high or low levels of anxiety-like responses. The present study investigated the effects of Losartan and Valsartan, both angiotensin II receptor blockers, on the modulation of anxiety-like behaviors of CHF, CLF and control rats. Neither chronic treatment of Losartan nor acute treatment of Valsartan yielded significant effects on anxiety measurements in the contextual fear conditioning, open field and elevated plus maze tests. Thus, our findings suggest that at the doses and durations of treatment tested, administration of these antihypertensive drugs did not play a modulating role of anxiety-like behaviors in CHF and CLF animals.

[pt] ANSIEDADE

[pt] VALSARTANA

[pt] LOSARTANA

[pt] SISTEMA RENIN ABANGIOTENSINA

[pt] EIXO HIPOTALAMO-PITUITARIA-ADRENAL

[en] TRAIT ANXIETY

[en] VALSARTAN

[en] LOSARTAN

[en] RENIN ANGIOTENSIN SYSTEM

[en] HYPOTHALAMIC-PITUITARY-ADRENAL AXIS

Victoria MS Thesis_final vers.pdf

Victoria K Tetel (15354490)

27 April 2023

<p>  </p> <p>Glucocorticoids (GC) play a critical role in regulating the physiological response to stress. Disruptions to baseline levels due to stress can have negative implications on a variety of factors including growth and development, physical body conditions, metabolism, immune functions, and expression of normal behaviors, although this list is not exhaustive. When birds are unable to adapt to the stressor and return to homeostasis, the energy expenditure associated with the failed attempt at coping can lead to significant declines in the overall health, welfare, production, and performance of the bird. This can go on to impact producers and consumers as well, indicating the extensive repercussions of stress. Recently, scientists have been investigating thorough and efficient methods of quantifying stress in birds, such as measuring heterophil-to-lymphocyte ratio (HLR) or detecting glucocorticoid levels through enzyme-linked immunoassays (ELISA). However, the precise mechanism behind HLR increase during stress is unknown and ELISAs may not provide accurate results depending on when the blood is being measured. </p> <p><br></p> <p>GC are differentially released and exert their effects in a manner that is dependent on sex, age, and time. However, before investigating this, it was critical to validate the GC kits to ensure that they were measuring cortisol and corticosterone separately along with zero cross reactions with other precursors. Chapter 2 had 4 experiments carried out. The objective of experiment 1 was to validate ELISAs to ensure that they were measuring the GC accurately and separately since both cortisol and corticosterone were being measured. To do this, duck serum was pooled and charcoal-stripped to remove the presence of steroids. 3 standard curves were run to confirm that there was no cross reactivity. The objective of experiment 2 was to further validate the ELISA kits with mass spectrometry by checking for both glucocorticoids in the pooled samples. Once the validation process was complete, experiment 3 was carried out to look at the effect of ACTH stimulation on GC release. 16-week-old drakes and hens were given either intramuscular (IM) injections of cosyntropin (0.06 mg/kg) or saline as control. The cosyntropin dose was chosen according to previous studies reporting relatively high physiological responses, therefore, we wanted to replicate this. N was 10/sex/treatment. Blood was then collected at 0, 1, and 2 hours after injections and serum was analyzed by ELISAs. Lastly for experiment 4, 14-week-old developer drakes and hens at Maple Leaf Farms were assessed for a transportation stress experiment. Blood from 10 ducks/sex/time/barn were collected at 24 hours before transport to the breeder barn, immediately after a 1-hour transport, 24 hours after, and 1 week after transport. The results from experiment 1 yielded that both cortisol and corticosterone can be measured without the presence of unwanted contaminants or other products. Experiment 2 identified the greater sensitivity of mass spectrometry when reading GC levels, although the differences were linear. Experiment 3 showed that serum corticosterone levels were significantly increased at 1 hour after ACTH injections in both drakes and hens, with levels continuing to increase for the drakes. Serum cortisol levels were significantly increased at 1 hour after ACTH injections in both sexes, however, the hens had greater levels compared to the drakes. Serum cortisol levels returned to levels similar to that of saline-injected ducks at the 2-hour mark. Lastly, the transportation stress portion showed that cortisol was released at about 1/3 of corticosterone levels in both sexes. Hens showed increased levels of serum corticosterone compared to drakes at all time points except for 1 week after transport, and also had significantly increased serum cortisol levels at all time points. In conclusion, the ELISA kits were verified for future use when measuring GC as well as mass spectrometry. GC were detected in the ACTH and transportation stress experiments with hens displaying a greater sensitivity to GC release due to increased circulating levels compared to drakes. Although it was nonsignificant, there was a trend for GC to increase in response to transport. </p> <p><br></p> <p>There are sex differences in GC release and HLR for Pekin ducks and various challenges from the studies support this. With hens showing increased sensitivity to stress and drakes with more transient and gradual levels, we have consistently seen that both GC have differential roles in the stress response and not only is it critical to study both hormones, the timing of when measurements are taken are important as well to get a clear understanding of when the stress response is initiated. </p> <p><br></p> <p>Chapter 3 went further to understand the response of GC and HLR. The objective was to  investigate the release of cortisol and corticosterone in response to an ACTH dose response challenge. In Chapter 2, only one dose of cosyntropin was used and sample collection times only went to 2 hours after injections. In this study, 2 additional doses and an extra hour of sample collection were added to obtain more information. Pekin ducks were either given IM cosyntropin injections or saline for control, with an N of 10/sex/treatment. There were 3 treatment doses: High (0.06 mg/kg), medium (0.03 mg/kg), and low (0.015 mg/kg). All injections were given promptly at 0730 hours. Blood was collected at 0, 1, 2 and 3 hours after injections from the tibia veins to obtain serum for ELISAs. Blood smears were done to analyze HLR and sent to an independent lab to obtain values. The results indicated that both GC had significant sex x dose x time interactions. The low dose injection had no effect on corticosterone in hens with a slight increase for drakes at the first hour. The high dose for hens led to a spike in corticosterone levels at the first hour with a gradual decrease, and drakes had an increase that lasted for 2 hours until they returned to baseline at the last hour. The high dose in drakes stimulated cortisol release during the first 2 hours after injection with a similar effect in hens. However, hens had elevated levels compared to drakes. Finally, there was no dose response effect for HLR, although interestingly, the low dose injection elevated HLR even though there was no effect in GC. There were sex differences in the HLR response where the drakes given the high dose had levels that plateaued by the third hour, while the hens still had elevated levels. In conclusion, the ACTH dose-response test identified that ACTH has a dose-dependent effect in both GC and sex differences in their release. HLR also showed sex differences that did not depend on the dose given.</p> <p><br></p> <p>Chapter 4 observed acute exposure of GC in ducks. Pekin ducks were assigned 10/sex/treatment to receive either IM control, cortisol, or corticosterone injections. In addition, a low-dose cortisol treatment was given to represent the endogenous levels of cortisol compared to corticosterone. The control injections contained safflower oil, which was chosen as vehicle due to the low levels of genistein present. This is important as genistein is a plant estrogen and this could interact with the GC and alter the results. Blood was collected at 0, 1, 2, and 3 hours after injections for serum analysis with ELISAs, and blood smears were collected for complete blood count (CBC) differentials. Significant sex x treatment x time interactions were notable in both GC. Hens had significant increases at the first hour after injections in all treatments compared to controls, and drakes had increases at 2 hours after injections in all treatments except the low-dose cortisol. </p> <p><br></p> <p>After observing the effect of acute stress in ducks, the next step was to investigate the effects of chronic stress in chapter 5. Adult breeder Pekin ducks were randomly distributed into 3 groups: corticosterone, cortisol, or control treatments. The GC were in crystalline steroid form distributed through 2 capsules that were subcutaneously implanted on the backs of the neck. The ducks in the control group were given empty capsules. Blood smears, blood draws for serum, egg collection, body weights, and organ samples were collected over a period of 2 weeks. For the results, the corticosterone implants elevated corticosterone levels in both sexes. Interestingly, cortisol levels were elevated in both GC treatments in both sexes. Cortisol elevated HLR in drakes 1 day after implants with no effect from corticosterone. Hens had elevated HLR from both GC at all timepoints throughout the experiment. There were no significant differences in morphometrics in either sex. Corticosterone was not present in eggs, but cortisol was elevated in the albumen on day 7 and 14 of the experiment. Overall, there were sex differences in HLR where hens had greater levels in both GC treatments.</p>

Animal welfare

Hypothalamic pituitary adrenal axis

Glucocorticoids

Corticosterone

Cortisol

Pekin ducks

Stress response

Glucocorticoid synthesis

Heterophil to lymphocyte ratio

Les effets d’un traitement au corticostérone sur la transmission dopaminergique mésocorticale du rat en période de stress

Millette, Caroline

12 1900

L’axe hypothalamo-hypophyso-surrénalien joue un rôle essentiel dans l’adaptation et la réponse au stress. Toutefois, l’hyperactivation de cet axe ou des niveaux chroniquement élevés de glucocorticoïdes (GC) entraînent des conséquences pathologiques. Le système dopaminergique mésocortical, qui se projette dans le cortex préfrontal médian (CPFm), joue un rôle adaptatif en protégeant contre le stress. Jusqu’à présent, les interactions fonctionnelles entre les GC (ex : corticostérone) et le système dopaminergique mésocortical ne sont pas élucidées. Dans ce mémoire, nous avons évalué les effets des GC sur les fonctions dopaminergiques préfrontales en élevant chroniquement, à l’aide de minipompes osmotiques, les niveaux de corticostérone aux concentrations physiologiques maximales (1 mg/kg/h pendant 7 jours). Ce traitement n’a pas modifié significativement, chez les rats stressés ou non, les niveaux post mortem de dopamine et de son métabolite dans le tissu du CPFm. Toutefois, l’évaluation par voltamétrie in vivo des changements de dopamine extracellulaire dans le CPFmv a permis d’observer que la corticostérone augmente significativement la libération de dopamine en réponse à l’exposition à l’odeur de renard et au pincement de la queue. Nos études nous permettent de conclure que la corticostérone potentialise la fonction dopaminergique mésocorticale qui, à son tour, facilite la régulation négative en période de stress. / The hypothalamic-pituitary-adrenal axis plays an essential role in responding and adapting to stress, however overactivation of this axis or chronically high levels of glucocorticoids lead to pathological outcomes. The mesocortical dopamine (DA) system, terminating in the medial prefrontal cortex (mPFC), plays an adaptive role in protecting against stress, yet the functional interactions between glucocorticoids (eg. corticosterone) and the mesocortical DA system are not clear. In the present studies, we investigated the effects of glucocorticoids on prefrontal DA function using osmotic minipumps to chronically elevate corticosterone levels in the high physiological range (1 mg/kg/hr for 7 days). Chronic corticosterone treatment did not significantly affect post mortem levels of DA and its metabolites in PFC tissue in either unstressed or stressed rats. However, using in vivo voltammetry to monitor changes in extracellular DA release in PFC, corticosterone significantly increased DA release in response to both types of stress examined, exposure to predator odor and tail pinch stress. We conclude that corticosterone indeed potentiates mesocortical DA function, which in turn facilitates negative feedback regulation in times of stress.

Glucocorticoïdes

Stress

Cortex préfrontal

Dopamine

Voltamétrie

Dépression

Axe hypothalamo-hypophyso-surrénalien

Corticostérone

Système dopaminergique mésocortical

Glucocorticoids

Prefrontal cortex

Hypothalamic-pituitary-adrenal axis

Corticosterone

Mesocortical dopamine system

Association entre l'utilisation de Facebook et les marqueurs de stress psychologiques et physiologiques chez les adolescents

Morin-Major, Julie-Katia

04 1900

La création de Facebook est venue changer la façon dont les gens interagissent, mais nous en savons peu sur les impacts de Facebook sur la santé et le bien-être. À l’heure actuelle, environ 90 % des adolescents sont actifs sur Facebook et la majorité l’utilise tous les jours. Sachant que l’adolescence est une période critique du développement et que lors de cette période les adolescents sont particulièrement vulnérables aux effets du stress, il importe de comprendre les facteurs pouvant entrainer une augmentation des hormones de stress chez les adolescents. Le but du présent mémoire était donc d’étudier la relation entre l’utilisation de Facebook chez les adolescents et des marqueurs de stress psychologique et physiologique. Pour ce faire, nous avons mesuré les hormones de stress chez 88 adolescents (41 garçons, 47 filles) âgés entre 12 et 17 ans. Les adolescents devaient remplir le ‘Social Network Survey’, un questionnaire mesurant différents facteurs associés à l’utilisation de Facebook et le ‘Child Depression Inventory’, qui mesure les symptômes de dépression. Les résultats suggèrent que ce n’est pas le temps passé sur Facebook qui est en lien avec le stress psychologique et physiologique, mais plutôt la nature de l’utilisation de Facebook. Pour les filles, c’est le nombre d’amis sur Facebook qui est relié à des hauts niveaux de cortisol, tandis que pour les garçons c’est le fait de s’exposer sur Facebook. Cette étude est la première à démontrer une association entre la nature de l’utilisation de Facebook et les niveaux d’hormones de stress chez des adolescents. / The creation of Facebook can change the way people interact, but we know little about the impact of Facebook on health and well-being. As of today, 90 % of adolescents are active on Facebook and most of them connect everyday. Adolescence is a critical period in childrens’ development and during this period they are particularly vulnerable to stress hormones. It is therefore important to understand factors that may cause an increase in stress hormones in adolescents. The goal of this Masters thesis was to determine the relation between Facebook utilization in adolescents and psychological and physiological markers of stress. In order to do so, we measured stress hormones in 88 adolescents (41 boys, 47 girls) aged between 12 and 17 years old. Adolescents where asked to fill out the Social Network Survey, a questionnaire measuring different factors related to Facebook utilization and the Child depression Inventory, measuring symptoms of depression. Results suggest that it is not the time spent on Facebook that is related to psychological and physiological stress but the nature of Facebook utilization. For adolescent girls, it is the number of Facebook friends that is associated with high levels of cortisol, whereas in adolescent boys it is the fact of exposing one-self on Facebook that is associated with high levels of cortisol. This study is the first to show an association between Facebook utilization and stress hormones in adolescents.

Facebook

Stress

Cortisol

Adolescents

Dépression

Réseaux sociaux

Différences sexuelles

Facebook

Stress

Cortisol

Adolescents

Depression

Social Networks

Sex differences

Impact d’une déficience en acides gras polyinsaturés (AGPI) de la série n-3 sur les comportements émotionnels et la plasticité cérébrale chez la souris / Impact of nutritional n-3 polyunsaturated fatty acids deficiency on emotional behavior and cerebral plasticity in mice

Larrieu, Thomas

07 December 2012

Un faible apport alimentaire en acides gras polyinsaturés (AGPI) de la série n-3 a été associé à la prévalence des troubles de l'humeur chez l’Homme. Chez les rongeurs, les approches nutritionnelles visant à modéliser une alimentation pauvre en AGPI n-3 ont largement été développées au siècle dernier. En effet, un régime alimentaire carencé en AGPI n-3 sur une ou plusieurs générations induit chez le rongeur des altérations des comportements émotionnels tels que des comportements de type dépressif ou anxieux. Nous avons montré au laboratoire Nutrineuro que des souris nourries avec un régime déficient en AGPI n-3 présentent des niveaux d’AGPI n-3, en particulier l'acide docosahexaénoïque (DHA, un AGPI n-3) plus faible dans le cortex préfrontal (PFC) et dans le noyau accumbens (NAc) par rapport aux souris contrôle. De plus, nous avons pu mettre en évidence qu’une alimentation déficiente en AGPI n-3 est capable de moduler la plasticité synaptique dépendante du système endocannabinoïde (eCB). De fait, la réduction de DHA dans le CPF et le NAc est accompagnée d'une altération de la dépression à long terme (LTD-eCB) et des voies de signalisation dépendantes du système eCB au niveau du CPF (Lafourcade et al., 2011 ; Larrieu et al, 2012). Nos données indiquent que ces altérations sont dues à un découplage entre le récepteur cannabinoïde 1 (CB1R) et la protéine Gi/o. De plus, les souris déficientes en AGPI n-3 présentent des déficits comportementaux dans plusieurs tests évaluant les comportements émotionnels. Afin de mieux comprendre les mécanismes qui sous-tendent la diminution du DHA dans le CPF et les altérations des comportements émotionnels, nous avons étudié la morphologie neuronale dans le CPF et l’axe hypothalamo-hypophysaire (HPA) chez les souris déficientes en AGPI n-3. Nous avons montré que le régime alimentaire déficient en AGPI n-3 induit une atrophie de l’arborisation dendritique dans les neurones pyramidaux du CPF. L'atrophie dendritique est semblable à celle mesurée chez les souris soumises au régime équilibré en AGPI n-3 et soumises à un stress chronique de défaite sociale (CSDS). Aucun effet additionnel du CSDS sur la morphologie neuronale et le comportement émotionnel n’a été observé chez les souris déficientes en AGPI n-3. Nous avons ensuite étudié le rôle de l’axe HPA dans le développement des altérations comportementales et neurobiologiques chez les souris déficientes en AGPI n-3. Ces souris présentent une diminution de l'expression des récepteurs des glucocorticoïdes (GR) dans le CPF associée à une augmentation des taux circulants de corticostérone. Dans leur ensemble, nos résultats montrent qu’un faible apport alimentaire en AGPI n-3 peut modifier la plasticité synaptique dépendante du système eCB ainsi que l’arborisation dendritique des neurones du CPF. Nous avons également pu montrer que l’élévation des niveaux de corticostérone était impliquée dans l’altération des comportements émotionnels observée chez des souris nourries avec un régime déficient en AGPI n-3. / Low dietary intake of n-3 polyunsaturated fatty acids (PUFAs) has been associated with the prevalence of mood disorders in humans. In rodents, nutritional approaches aiming at modeling poor dietary n-3 PUFAs intake have been extensively developed in the last century. As a result, one- or multi-generation dietary n-3 deficiency induces depressive and anxiety-like behaviors. We have shown in the Nutrineuro lab that mice fed with a diet deficient in n-3 PUFAs exhibit decreased n-3 PUFAs levels, especially docosahexaenoic acid (DHA, a n-3 PUFA) levels in the prefrontal cortex (PFC) and in the nucleus accumbens (NAc). We showed that dietary n-3 PUFA is able to modulate endocannabinoid (eCB) dependent plasticity since DHA reduction in PFC and NAc is accompanied with eCB dependent long term depression (eCB-LTD) and eCB signaling impairment in the PFC (Lafourcade et al., 2011; Larrieu et al., 2012). Our data indicate that LTD alteration results from region-specific uncoupling of CB1 receptor from its effector Gi/o protein. In addition, n-3 deficient mice display behavioral deficits in several tests measuring emotional behavior. To further understand the mechanisms underlying DHA decrease in the PFC and emotional behavior alteration, we thoroughly investigated neuronal morphology and hypothalamic-pituitary-adrenal (HPA) axis in n-3 deficient mice. We showed that n-3 deficient diet induced dendritic atrophy in pyramidal neurons within the PFC. The dendritic atrophy was comparable to the one measured in control diet mice submitted to chronic social defeat stress (CSDS). No additional effect of CSDS on both neuronal morphology and emotional behavior was measured in n-3 deficient mice. We therefore investigated the role of the HPA axis deregulation in the development of behavioral and neurobiological alterations of n-3 deficient mice. We found a decreased expression of glucocorticoid receptor (GR) in the PFC of n-3 deficient mice together with increased circulating levels of corticosterone. Collectively, we unraveled one crucial mechanism underlying n-3 deficiency-induced alterations. Our results show that low dietary n-3 PUFAs can alter eCB-dependent plasticity and neuronal dendritic atrophy within the PFC leading to emotional behavior impairment. Importantly, we further demonstrated that corticosterone elevation in n-3 deficient mice was involved in the n-3 deficiency-induced emotional behavior and dendritic arborization alterations.

Oméga-3

Comportements émotionnels

Souris

Stress de défaite sociale

Axe hypothalamo-hypophysaire

Corticostérone

Système endocannabinoïde

CB1

Omega-3

Emotional behaviors

Mice

Chronic social defeat stress

Hypothalamic-pituitary-adrenal axis

Corticosterone

Endocannabinoid system

CB1

Abordagem de biologia de sistemas para a determinação de mecanismos moleculares associados à eficiência alimentar de bovinos Nelore / Systems biology approach for determination of molecular mechanisms associated with feed efficiency in Nellore cattle

Alexandre, Pâmela Almeida

25 January 2019

A eficiência alimentar (EA) é um fenótipo complexo, controlado por diversos processos biológicos. Determinar e entender esses processos é fundamental para selecionar animais superiores ou mesmo orientar decisões de manejo com o objetivo de aumentar a produtividade e diminuir o impacto ambiental da pecuária. Neste trabalho, propusemos analisar a EA através de uma abordagem de biologia de sistemas, baseada em transcriptômica multitecidual, a fim de gerar um entendimento sistêmico dessa característica. Para isso, 18 animais extremos para consumo alimentar residual foram selecionados a partir de um grupo de 98 bovinos Nelore machos inteiros e tiveram seu transcriptoma de hipotálamo, pituitária, adrenal, músculo e fígado sequenciado (RNAseq). Os reads gerados foram alinhados com o genoma de referência bovino (UMD3.1), filtrados e a expressão de cada gene foi estimada. A partir desses dados três abordagens de análises de dados foram desenvolvidas. Na primeira, cinco critérios de inclusão foram definidos para selecionar genes e construir uma rede de co-expressão para os cinco tecidos, de forma que além de indicarmos diversos genes e processos associados à EA, também fomos capazes de determinar dois genes reguladores, o NR2F6 e o TGFB1. Na segunda abordagem focamos no eixo hipotálamo-pituitária-adrenal, também utilizando análises de co-expressão, mas dessa vez sem partir de prévia seleção de genes e concluímos que o sistema de recompensa do cérebro pode estar envolvido no estímulo para maior consumo de alimentos observado no grupo de baixa EA. Finalmente, com a terceira abordagem, identificamos RNAs longos não codificadores (lncRNAs) expressos nos cinco tecidos e encontramos 30 transcritos expressos diferencialmente entre a alta e baixa EA na pituitária, músculo e adrenal, sendo que alguns deles se mostraram relacionados a processos já previamente demostrados como sendo associados a essa característica. Concluímos que, apesar de não conseguirmos determinar nesse momento o papel da maior susceptibilidade ao estresse, reportado na literatura para animais de baixa EA, no estímulo para maior ingestão de alimentos desse grupo, o sistema de recompensa hipotalâmico parece estar envolvido nesse processo. A maior ingestão pode ser a causa da resposta inflamatória observada no fígado, sendo ela de origem bacteriana, indicada pela maior concentração de endotoxina sérica nos animais menos eficientes. O maior turnover de proteínas no músculo de animais de baixa EA já havia sido indicado como um dos fatores que levam ao maior gasto energético nesses indivíduos e foi confirmado nesse trabalho. Além de alguns fatores de transcrição serem indicados como reguladores centrais desse fenótipo, lncRNAs também parecem ter função regulatória importante na EA. / Feed efficiency (FE) is a complex phenotype, controlled by several biological processes. Determining and understanding these processes is fundamental to select superior animals or even guide management decisions, aiming to increase productivity and reduce the environmental impact of livestock. In this work, we propose to analyze FE through a systems biology approach, based on multi-tissue transcriptomics, in order to generate a systemic understanding of this trait. For this purpose, 18 extreme animals for residual feed intake were selected from a group of 98 male Nellore cattle and had their hypothalamus, pituitary, adrenal gland, muscle and liver transcriptome sequenced (RNAseq). Reads generated were aligned with the bovine reference genome (UMD3.1), filtered and the expression of each gene was estimated. From these data three experiments were developed. In the first one, five inclusion criteria were defined to select genes and to construct a network of coexpression for the five tissues, so that besides indicating several genes and processes associated with EA, we were also able to determine two regulatory genes, NR2F6 and TGFB1. In the second experiment, we focused on the hypothalamic-pituitary-adrenal axis, also using co-expression analysis, but this time without starting from previous selected genes. We conclude that the reward system of the brain might be involved in the stimulus for higher feed intake observed in the low EA group. Finally, in the third experiment, we identified long noncoding RNAs (lncRNAs) expressed in the five tissues and found 30 transcripts differentially expressed between the high and low FE in the pituitary, muscle and adrenal, and some of them were related to previously demonstrated processes associated to this trait. We conclude that although we cannot determine at this time the role of higher susceptibility to stress, reported in the literature for animals of low FE, in the stimulus for higher feed intake of this group, the hypothalamic reward system seems to be involved in this process. The higher ingestion might be the cause of the inflammatory response observed in the liver of, being of bacterial origin, indicated by the higher concentration of serum endotoxin in less efficient animals. The higher turnover of proteins in the muscle of low FE animals had already been indicated as one of the factors that lead to higher energy expenditure in these individuals and it was confirmed in this study. In addition to some transcription factors being indicated as central regulators of this phenotype, lncRNAs also appear to play an important regulatory role in FE.

Co-expressão gênica

Consumo alimentar residual

Conversão alimentar

Eixo hipotálamo-pituitária-adrenal

Feed conversion

Fígado

Gene co-expression

Hypothalamic-pituitary-adrenal axis

Inflamação

Inflammation

Liver

Long non-coding RNA

Muscle

Músculo

Residual feed intake

RNA longo não codificador

RNAseq

RNAseq

Physiological Stress Reactivity in Late Pregnancy

Hellgren, Charlotte

January 2013

During pregnancy, the basal activity is increased in both of our major stress response systems: the sympathetic nervous system and the hypothalamic-pituitary-adrenal axis. At the same time, the reactivity towards stressors is reduced. These alterations sustain maternal and fetal homeostasis, and are involved in the regulation of gestational length. Although the feto-placental hormone synthesis produces the main endocrinological changes, also the central nervous system undergoes adaptation. Together, these profound adjustments have been suggested to make women’s mental health more vulnerable during pregnancy and postpartum period. The aim of this thesis was to examine factors connected to physiological stress responses during the late pregnancy in relation to pain, labour onset, emotional reactivity, and mental health. The first study examined the pain and sympathetic response during cold stress, in relation to time to delivery. Women with fewer days to spontaneous delivery had lower sympathetic reactivity, while no pain measure was associated with time to delivery. In the second study, acoustic startle response modulation was employed to study emotional reactivity during late gestation, and at four to six weeks postpartum. The startle response was measured by eye-blink electromyography, while the participants watched pleasant and unpleasant pictures, and positive and negative anticipation stimuli. A significant reduction in startle modulation by anticipation was found during the postpartum assessment. However, no startle modulation by pleasant, or unpleasant, pictures was detected at either time-point. The serum level of allopregnanolone, a neurosteroid implied in pregnancy-induced hyporeactivity, was analysed in relation to self-reported symptoms of anxiety and depression. Although the participants reported low levels of depression, the women with the highest depression scores had significantly lower levels of serum allopregnanolone. There was no correlation between allopregnanolone and anxiety scores. In the fourth study, the cortisol awakening response was compared between women with depression during pregnancy, women with depression prior to pregnancy, and women who had never suffered from depression. No group differences in cortisol awakening response during late pregnancy were found. The results are in line with the previously described pregnancy-induced hyporesponsiveness, and add to the knowledge on maternal stress hyporeactivity, gestational length, and maternal mental health.

acoustic startle response

allopregnanolone

antenatal

anxiety

cold pressor test

cortisol

cortisol awakening response

depression

electrodermal

estradiol

hypothalamic-pituitary-adrenal axis

postpartum

pregnancy

progesterone

skin conductance

stress

sympathetic nervous system

Les effets d’un traitement au corticostérone sur la transmission dopaminergique mésocorticale du rat en période de stress

Millette, Caroline

12 1900

L’axe hypothalamo-hypophyso-surrénalien joue un rôle essentiel dans l’adaptation et la réponse au stress. Toutefois, l’hyperactivation de cet axe ou des niveaux chroniquement élevés de glucocorticoïdes (GC) entraînent des conséquences pathologiques. Le système dopaminergique mésocortical, qui se projette dans le cortex préfrontal médian (CPFm), joue un rôle adaptatif en protégeant contre le stress. Jusqu’à présent, les interactions fonctionnelles entre les GC (ex : corticostérone) et le système dopaminergique mésocortical ne sont pas élucidées. Dans ce mémoire, nous avons évalué les effets des GC sur les fonctions dopaminergiques préfrontales en élevant chroniquement, à l’aide de minipompes osmotiques, les niveaux de corticostérone aux concentrations physiologiques maximales (1 mg/kg/h pendant 7 jours). Ce traitement n’a pas modifié significativement, chez les rats stressés ou non, les niveaux post mortem de dopamine et de son métabolite dans le tissu du CPFm. Toutefois, l’évaluation par voltamétrie in vivo des changements de dopamine extracellulaire dans le CPFmv a permis d’observer que la corticostérone augmente significativement la libération de dopamine en réponse à l’exposition à l’odeur de renard et au pincement de la queue. Nos études nous permettent de conclure que la corticostérone potentialise la fonction dopaminergique mésocorticale qui, à son tour, facilite la régulation négative en période de stress. / The hypothalamic-pituitary-adrenal axis plays an essential role in responding and adapting to stress, however overactivation of this axis or chronically high levels of glucocorticoids lead to pathological outcomes. The mesocortical dopamine (DA) system, terminating in the medial prefrontal cortex (mPFC), plays an adaptive role in protecting against stress, yet the functional interactions between glucocorticoids (eg. corticosterone) and the mesocortical DA system are not clear. In the present studies, we investigated the effects of glucocorticoids on prefrontal DA function using osmotic minipumps to chronically elevate corticosterone levels in the high physiological range (1 mg/kg/hr for 7 days). Chronic corticosterone treatment did not significantly affect post mortem levels of DA and its metabolites in PFC tissue in either unstressed or stressed rats. However, using in vivo voltammetry to monitor changes in extracellular DA release in PFC, corticosterone significantly increased DA release in response to both types of stress examined, exposure to predator odor and tail pinch stress. We conclude that corticosterone indeed potentiates mesocortical DA function, which in turn facilitates negative feedback regulation in times of stress.

Glucocorticoïdes

Stress

Cortex préfrontal

Dopamine

Voltamétrie

Dépression

Axe hypothalamo-hypophyso-surrénalien

Corticostérone

Système dopaminergique mésocortical

Glucocorticoids

Prefrontal cortex

Hypothalamic-pituitary-adrenal axis

Corticosterone

Mesocortical dopamine system