Vliv kortikosteroidů a hybného deficitu na rozvoj osteoporózy u pacientů s roztoušenou sklerózou / Influence of corticosteroids and movement disorder on development of osteoporosis in patients with multiple sclerosis (MS)

Týblová, Michaela

January 2017

Introduction: Multiple sclerosis (MS) is associated with impaired bone health in comparison to an equally healthy population, even already in patients at the onset of this disease. The main risk factors for development of osteoporosis in MS patients are known. The aim of the study was to find the relationship of the decrease in bone mineral density (BMD) to the administered cumulative dose of steroids and to other risk factors in MS, mainly to the degree of motor deficit. Further goal was to evaluate the occurence of the risk of low-trauma fractures in multiple sclerosis patients.. The BMD and muscle mass was compared in MS patients (women and men) and control subjects, to examine the effect of main ones - physical disability and long-term glucocorticoid (GC) therapy on BMD. Clinical values of bone remodeling markers were evaluated in assessment of rate of bone loss in patients with multiple sclerosis long term treated with low dose of GC. Patients and methods: We used dual -energy X-ray absorptiometry for a measurement of BMD in 591 MS patients (455 females and 136 males) in 2004 and in cross-sectional longitudinal study published in 2014 with 474 patients (353 women and 121 men). Out of the whole study group body composition was evaluated in 250 MS females, 104 males and 247 healthy controls (193...

Health consequences of group living in wild Verreaux’s sifakas (Propithecus verreauxi)

Rudolph, Katja

07 February 2020

No description available.

570

Group size

Glucocorticoids

Parasites

Gut microbiome

Affiliation

Propithecus verreauxi

Ranging

Habitat quality

Dominance

Reproduction

Biologie (PPN619462639)

Corticosterone up-Regulates Expression and Function of Norepinephrine Transporter in SK-N-BE(2)C Cells

Sun, Zhongwen, Fan, Yan, Zha, Qinqin, Zhu, Meng Y.

01 April 2010

Glucocorticoids affect cellular and molecular events in brains by modulating the expression of many genes during stress. In the present study, we examined the regulatory effect of corticosterone on the expression and function of the norepinephrine transporter (NET) in vitro. The results show that exposure of SK-N-BE(2)C cells to corticosterone for 14 days significantly increased mRNA (up to 43%) and protein (up to 71%) levels of NET in the concentration- dependent manner. Longer exposure (21 days) resulted in greater increases in the levels of mRNAs (up to about 160%) and proteins (up to about 250%) of the NET. The up-regulatory effect of corticosterone on NET expression lasted a persistent period after cessation of exposure. Associated with the corticosterone-induced enhancement in NET expression, there was a parallel increase in the uptake of [3H]norepinephrine by SK-N-BE(2)C cells. Increased NET expression and function were abolished after exposure of cells to corticosterone in combination with mifepristone or spironolactone, two specific antagonists of corticosteroid receptors. This is consistent with the hypothesis that corticosterone-induced NET up-regulation is mediated by corticosteroid receptors. Nevertheless, there was no synergistic effect for a combination of both corticosteroid receptor antagonists. A similar up-regulation of NET protein levels was also observed after exposing PC12 cells to corticosterone. The present findings demonstrate that corticosterone up-regulates the expression and function of NET in vitro, indicating the action of corticosterone on the noradrenergic phenotype may play an important role in the correlation between stress and the development of depression.

corticosteroid receptor

gene regulation

glucocorticoids

noradrenergic neurons

norepinephrine transporter

SK-N-BE(2)C cells

Biomedical Sciences

The Effects of Excess Corticosterone on LKB1 and AMPK Signaling in Skeletal Muscle of Rats

Nakken, Gary N.

04 December 2008

Cushing's syndrome and glucocorticoid therapy lead to central obesity, insulin resistance, and symptoms of altered energy regulation similar to those observed in the metabolic syndrome. We hypothesized that excess glucocorticoids alter energy sensing/signaling in skeletal muscle through mediation of the LKB1/AMPK signaling pathway. To test this hypothesis, three 100 mg pellets of corticosterone were implanted subcutaneously in each of nine rats for two weeks. Responses were compared with sham operated controls fed ad libitum or food restricted to produce the body weights similar to the treatment group rats. After the treatment period, animals were anesthetized and the right gastrocnemius-plantaris and soleus were removed for analysis. After tibial nerve stimulation for 5 min, the left gastrocnemius-plantaris and soleus were also removed. We assessed AMPK activity and subunit expression, as well as several metabolic indicators including ATP, creatine phosphate, creatine, glycogen, and malonyl-CoA levels in rested and stimulated gastrocnemius-plantaris and soleus muscles. We found that high levels of glucocorticoids decreased AMPKγ3 subunit expression in the gastrocnemius-plantaris. We also observed reduced AMPKα2 activity in the stimulated gastrocnemius-plantaris, but not the soleus; and that this decreased activity corresponded to a significant reduction in phosphorylated TBC1D1, a protein involved in signaling GLUT-4 translocation. Finally, in the gastrocnemius-plantaris, we also noted an increase in glycogen stores in the hypercorticosteronemic rats. Our data suggest that altered energy sensing/signaling associated with high levels of glucocorticoids may be due in part to inhibition of AMPKα2 activity and the high energy state produced by increased glycogen stores. We also conclude that high levels of glucocorticoids decrease the levels of AMPKγ3 and diminish insulin/contraction signaling through phosphorylated TBC1D1.

AMPK

Corticosterone

Cushing's syndrome

Glucocorticoids

GLUT-4

Glycogen

Insulin signaling

Metabolic syndrome

TBC1D1

Cell and Developmental Biology

Physiology

Sex-dependent effects of acute stress on hippocampal synaptic plasticity

Rogers, Benjamin

12 1900

Essentiel à la survie, le stress est une expérience connue de tous les organismes. Son excès, tout comme son manque, peut cependant induire des conséquences néfastes pour la santé. Ainsi, un stress aigu peut engendrer des déficits au niveau des fonctions cognitives via l’activation de récepteurs aux glucocorticoïdes (GRs). L’activation de ces-derniers peut perturber les fonctions neuronales et induire des altérations du comportement et même de la physiologie neuronale. À ce jour, très peu d’information est disponible quant aux effets précis de l’activation des GRs sur la plasticité et la fonction synaptique; d’autant moins lorsque les différences sexuelles sont prises en compte. De plus, la manière dont la signalisation GR dans les types de cellules non- neuronales contribue au dysfonctionnement synaptique associé au stress reste encore moins claire. Ainsi, notre but était de caractériser les effets du stress aigu sur la fonction synaptique de l’hippocampe chez les souris mâles et femelles afin de mettre en évidence le rôle de la signalisation aux glucocorticoïde au sein des cellules non-neuronales. À cet effet, des souris ont été soumises à un test de nage forcée (acute swim stress), puis des tranches d’hippocampe ont été préparées in-vitro pour l’étude électrophysiologique. Les souris mâles ont exprimé une réponse neuroendocrine plus prononcée au stress aigu, alors que cette dernière est demeurée absente chez les femelles. Dans cet ordre d’idées, les déficits de potentialisation à long-terme (LTP) obtenus en réponse au stress ont aussi été observés exclusivement chez les mâles. Finalement, les enregistrements électrophysiologiques en cellule-attachée ont montré qu’un stress aigu augmente l’excitabilité intrinsèque dans CA1 chez les deux sexes, mais que des modifications aux afférences excitatrices de CA1 sont observés seulement chez les mâles. / Stress is a global experience across all organisms, and although important for our survival, stress can have detrimental effects on brain health. More specifically, acute stress induces an intense deficit in cognitive function via the activation of glucocorticoid receptors (GRs). The activation of GRs can modify neuronal function and structure to promote lasting changes in behaviour and physiology. Despite this, the effects and precise mechanisms of stress and GR activation on synaptic function and plasticity in male and female mice remain unclear. Furthermore, how GR signalling in non-neuronal cell types contributes to the synaptic dysfunction associated with stress remains even less clear. Thus, we aimed to conduct a detailed characterization of the effects of acute stress on hippocampal synaptic function in male and female mice and highlight the role of GR signalling in non-neuronal cell types in governing these effects. To accomplish this, mice were subjected to an acute swim stress and hippocampal brain slices were prepared for in-vitro electrophysiology. We found that male mice have a pronounced neuroendocrine response to acute stress, accompanied by an increase in astrocyte GR signalling. However, these changes were absent in female mice. In line with this, we have also found that stress-induced impairments of hippocampal long-term potentiation (LTP) are specific to males. Finally, whole-cell patch clamp recordings demonstrate that acute stress increases the intrinsic excitability of CA1 neurons in male and female mice; however, only male mice have changes in the excitatory inputs of CA1 neurons. Overall, our results demonstrate a sexually dimorphic response to an acute swim stress.

astrocytes

Stress

Hippocampe

Hippocampus

Glucocorticoïdes

Glucocorticoids

Électrophysiologie

Electrophysiology

Différences sexuelles

Sex differences

Corticostérone

Excitabilité

Excitability

The effects of early life trauma on the neurochemistry and behaviour of the adult rat

Uys, Joachim De Klerk

12 1900

Thesis (PhD (Biomedical Sciences. Medical Physiology))--University of Stellenbosch, 2006. / Early life trauma leads to behavioural abnormalities later in life. These include mood and anxiety disorders such as depression and posttraumatic stress disorder (PTSD). This association may be due in part to the effects of trauma on brain development. Data from basic and clinical experiments suggest that alterations in the hippocampus may be fundamental to the development of these disorders. Here we used an animal model of early life trauma to investigate its effects on the behaviour and neurochemistry of the adult rat. Adolescent rats were subjected to time-dependent sensitization stress consisting of a triple stressor (2 hours restraint, 20 min swim stress and exposure to ether vapour) on post-natal day (PND) 28, a single re-stress on PND 35 (20 min swim stress), and a second re-stress in adulthood (PND 60, 20 min swim stress). The rationale was that the frequency of exposure to situational reminders contributes to the maintenance over time of fear-related behavioural disturbances. The effects of trauma on the hypothalamus-pituitary-adrenal-axis, hippocampal and plasma neurotrophin levels, behaviour and phosphoinositide-3 kinase (PI-3 kinase) signaling proteins were initially investigated. In addition, proteomic technologies such as protein arrays and 2D-SDS PAGE combined with liquid chromatography tandem mass spectrometry (LC-MS/MS) were employed to study trauma-induced effects on the hippocampus. Traumatized animals showed a decrease in glucocorticoid receptors in the dentate gyrus of the hippocampus and an increase in basal corticosterone levels 24 hours after adulthood re-stress. These effects were reversed by pretreatment with the serotonin selective reuptake inhibitor, escitalopram. A decrease in the neurotrophins, BDNF and NT-3 were evident 8 days, but not 24 hours after adulthood re-stress. This decrease was not accompanied by decreases in plasma neurotrophin or PI-3 kinase, protein kinase B (PKB), phosphatase and tensin homologue (PTEN), phospho-forkhead and phospho-AFX protein levels. In addition, traumatized animals showed increased rearing in both the elevated plus maze and open field. Proteomic analysis of trauma-induced changes in the hippocampus show increases in Ca2+ homeostasis / signaling proteins such as S-100B, phospho-JNK and calcineurin. Apoptotic initiator proteins, including caspase 9, -10 and -12 were increased and there was evidence of cytoskeletal protein dysregulation. Furthermore, cell cycle regulators and energy metabolism proteins were decreased. These effects indicate to a cellular state of cell cycle arrest after increased calcium influx to avoid apoptosis. Our data suggest that adolescent trauma with adulthood re-stress may affect numerous systems at different levels. These include neuroendocrine-, protein systems and behaviour, and confirmed that a systems biology approach is needed for a better understanding of the neurobiology of mental disorders.

Theses -- Medical physiology

Dissertations -- Medical physiology

Hippocampus (Brain)

Psychic trauma

Stress (Psychology)

Anxiety

Glucocorticoids -- Receptors

Rats as laboratory animals

Rats -- Effect of stress on

Neurochemistry

Medicine

Kidney Hyaluronan : Regulatory Aspects During Different States of Body Hydration, Nephrogenesis & Diabetes

Rügheimer, Louise

January 2008

<p>The kidney regulates the excretion of water and electrolytes, which maintains homeostasis and enables control of arterial blood pressure. Hyaluronan, a large negatively charged interstitial glucosaminoglycan, is heterogeneously distributed within the kidney, primarily found in the medulla.</p><p>Medullary hyaluronan content changes depending on the state of body hydration and plays a part in fluid regulation through its water binding and viscoelastic properties. </p><p>The aim of this thesis was to provide new insight into the regulation of intrarenal hyaluronan during different states of body hydration, during completion of kidney development, and during diabetes mellitus.</p><p>Dehydration reduces medullary interstitial hyaluronan in parallel with reduced hyaluronan synthase 2 gene expression and increased urinary hyaluronidase activity. Acute hydration results in an increase in medullary hyaluronan, an increase that requires nitric oxide and prostaglandins. Urinary hyaluronidase activity decreases during hydration. The elevation of hyaluronan is important for reducing water permeability of the interstitium i.e. favoring diuresis.</p><p>Changes in hyaluronan concentration constitute a morphoregulatory pathway that plays a key role in nephrogenesis. The reduction in neonatal hyaluronan depended on an angiotensin II mediated process that does not appear dependent on lymph vessel formation. If angiotensin II is blocked with an ACE inhibitor, hyaluronan accumulates, which results in structural and functional abnormalities in the kidney. </p><p>Renomedullary hyaluronan is elevated during uncontrolled diabetes, which coincides with induction of hyaluronan synthase 2 mRNA, hyperglycemia, glucosuria, proteinuria and overt diuresis. The levels of hyaluronan are probably at a <i>terminus ad quem</i> as no further response was seen during hydration. The higher interstitial expression of hyaluronan during diabetes may be involved in the progression of diabetic nephropathy.</p><p>This thesis in physiology provides new mechanistic insights into the regulation of renal hyaluronan during various aspects of fluid handling.</p>

Physiology

hyaluronan

kidney

dehydration

hydration

diabetes

nephrogenesis

renomedullary interstitial cells

CD44

hyaluronan synthase

hyaluronidase

vasopressin

nitric oxide

prostaglandins

glucocorticoids

angiotensin II

diuresis

lymph vessel

podoplanin

Fysiologi

Procena efikasnosti kombinovane antiinflamatorne terapije u postizanju dobre kontrole astme u zavisnosti od navike pušenja / Efficacy assessment of the combined anti-inflammatory treatment in the improvement of asthma control in regard to the smoking habit

Hromiš Sanja

07 June 2016

<p>Uvod: Pu&scaron;enje predstavlja jedan od najznačajnijih uzroka lo&scaron;e kontrole astme, zbog iritativnog dejstva duvanskog dima na disajne puteve i razvoja rezistencije na inhalatorne kortikosteroide. Stoga je pu&scaron;ače sa astmom često potrebno lečiti kombinovanom antiinflamatornom terapijom, iako je efikasnost ovakvog tretmana jo&scaron; uvek nedovoljno ispitana. Cilj: utvrditi efikasnost kombinovane antiinflamatorne terapije: inhalatorni kortikosteroidi (ICS) u kombinaciji sa dugodelujućim beta2-adrenergičkim agonistima (DDBA) u odnosu na ICS u kombinaciji sa antagonistima leukotrijenskih receptora (ALTR) u postizanju dobre kontrole astme, pobolj&scaron;anju kvaliteta života i plućne funkcije kod pu&scaron;ača u odnosu na nepu&scaron;ače sa astmom. Metod: Pacijenti starosti od 18-50 godina sa astmom (&ge;6meseci), FEV1 većim od 60%, podeljeni su u grupu nepu&scaron;ača &ndash;NP (N=60) i aktivnih pu&scaron;ača &ndash;PU (&le;2 &ge;15 p/g i &ge;10&le;40 cigareta na dan; N=60). Obe grupe su randomizovane u jednu od dve, otvorene, terapijske grupe (ICS uz dodatak DDBA ili ALTR) u trajanju od 24 nedelje. Rezultati: u svakoj od 4 randomizovane grupe (NP-DDBA, NP-ALTR, PU-DDBA, PU-ALTR) je bilo po 30 pacijenata. Tokom 24 nedelje, PU su imali lo&scaron;ije kontrolisanu astmu od NP (p=0,02), bez ralizke između DDBA vs ALTR (0,677 vs 0,634). Konstantno dobru kontrolu astme (ACQ&lt;0,75) tokom 24 nedelje je postiglo 48% NP i 32% PU (p=0,094), bez značajne razlike u odnosu na terapiju (DDBA vs ALTR; p=1,000). NP su imali bolji kvalitet života od PU, ali razlika nije dostigla statističku značajnost (p=0,056)- Kod NP i kod PU u oba modaliteta lečenja (LABA, ALTR) je do&scaron;lo do statistički značajne promene srednjeg skora AQLQ (p&lt;0,001). Povećanje FEV1(%) je bilo statistički značajno i u grupi NP i u grupi PU (p=0,001 vs. p=0,002). Kod pacijenata lečenih DDBA povećenje FEV(%) je bilo na nivou p=0,001, dok je u grupu ALTR bilo na nivou p=0,005. Multivarijantnom analizom je utvrđeno da su nezavisni faktori postizanja dobre kontrole astme BMI&ge;24, nepu&scaron;ač, FEV1&ge;90%, ACQ&le;2,2 i AQLQ&ge;4,2 Zaključak: Kombinovana antiinflamatorna terapija je efikasnija kod NP u odnosu na PU, dok su u populaciji aktivnih pu&scaron;ača, oba dodatna leka (DDBA, ALTR) bila podjednako efikasna u pobolj&scaron;anju kontrole astme, kvaliteta života i plućne funkcije.</p> / <p>Introduction: Smoking is one of the major causes of a bad asthma control, due to negative effects of the tobacco smoke on the airways and consequent resistance to inhalant corticosteroids. Smoking asthmatics should therefore often be treated with combined anti-inflammatory therapy, although the efficacy of this treatment regimen has not been completely examined yet. Objective: To examine the efficacy of the combined anti-inflammatory therapy (ICS combined to LABA vs.LTRA) in achieving a good asthma control, better quality of life and improved lung function in smoking vs. nonsmoking asthmatics. Method: The patients at 18-50 years of age with asthma (&ge;6 months), FEV1 &gt; 60%, were subclassified into the group of nonsmokers &ndash;NS (N=60), and the group of active smokers - SM (&le;2 &ge;15 p/g and &ge;10&le;40 cigarettes a day; N=60). Both groups were randomized into one of the two open therapy groups (ICS combined to DDBA or ALTR), receiving the selected treatment for 24 weeks. Results: Any of the four randomized groups (NS-LABA, NS-LTRA, SM-LABA, SM-LTRA) consisted of 30 patients. During the 24-week period, SM had a worse control of their asthma than NS (p=0.02), but no difference was registered between DDBA vs. ALTR therapy subgroups (0.677 vs. 0.634). Over the 24-week period, a constantly good asthma control (ACQ&le;0,75) was achieved by 48% of NS and 32% of SM (p=0.094), and no significant difference related to the applied therapy regimen (LABA vs. LTRA; p=1.000). NS had a better life quality than SM, but this difference remained statistically insignificant (p=0.056). Both the NS and the SM group in either treatment modality (LABA, ALTR) had a statistically significant change of the AQLQ score (p&lt;0.001). FEV1 (%) improvement was statistically significant t in both the NS and the SM group (p=0.001 vs. p=0.002). The LABA and LTRA treated patients had their FEV (%) improvement at the level of p=0.001, and p=0.005 respectively. The multivariate analysis has established the following independent factors of a good asthma control: BMI&ge;24, nonsmoker, FEV1&ge;90%, ACQ&le;2.2, and AQLQ&ge;4.2. Conclusion: The combined anti-inflammatory therapy is more efficient in NS than in SM asthmatics, while in the population of active smokers, both additional drugs (LABA, LTRA) were equally efficient in improving asthma control, life quality, and lung function.</p>

Syndrome de détresse respiratoire aiguë (SDRA) : étude de mécanismes impliqués dans la phase exsudative

Chupin, Cécile

08 1900

Le syndrome de détresse respiratoire aiguë (SDRA) se développe suite à une atteinte pulmonaire lésionnelle, induisant un œdème et une inflammation excessive, généralement suivis d’une réparation atypique menant à la fibrose. Malgré de signifiants progrès dans les traitements, la mortalité reste élevée : ~ 40 %. Mon hypothèse de travail est que l’atténuation de l’œdème ou de la réponse inflammatoire pourrait freiner le développement ou la sévérité de la phase exsudative. Nous avons évalué cette hypothèse à l’aide d’un modèle de phase exsudative du SDRA, i.e. instillation intra-trachéale de bléomycine, chez les souris.  La modulation des fluides alvéolaires est étudiée avec des souris transgénique (Tg) pour le canal ENaC, qui sont sensibles à la formation d’un œdème. Cependant, ces souris Tg ne sont pas plus sensibles au développement de la phase exsudative en condition lésionnelle (bléomycine). Nous avons déterminé par une étude électrophysiologique des cellules épithéliales alvéolaires de type II (AT II) que ce n’est pas lié à une inhibition par la bléomycine de la fonction du canal ENaC.  Le traitement de la réponse inflammatoire associée au SDRA par des glucocorticoïdes est une thérapie potentielle mais controversée. Les glucocorticoïdes dans notre modèle murin ne réduisent pas la sévérité des lésions. Nous avons pu déterminé lors d’expériences in vitro que ce serait dû à une réduction de la capacité de réparation des AT II. En résumé :  La modulation du canal ENaC ne modifie pas le développement de la phase exsudative, suggérant que la régulation de l’œdème n’est pas suffisante pour modifier l’évolution du SDRA.  La modulation de l’inflammation par les glucocorticoïdes est ineffective, possiblement à cause d’une altération de la réparation. Mon étude suggère que le traitement de la phase exsudative du SDRA est complexe. En effet, la régulation de l’œdème ou de l’inflammation de façon isolée ne peut pas modifier l’évolution du SDRA. L'hétérogénéité des sources du SDRA et la redondance des mécanismes cellulaires impliqués dans l’évolution des lésions pulmonaires suggèrent que le traitement nécessitera une approche visant plusieurs cibles mécanistiques afin d’en accélérer la résolution. / Although much has been learned about the mechanisms leading to acute respiratory distress syndrome (ARDS), mortality remains high: ~ 40%. This syndrome is associated with lung injury where alveolar edema and excessive inflammatory response can progress to abnormal epithelial repair and fibrosis. The hypothesis of the work presented in this thesis is that attenuation of edema or of the inflammatory response in the initial stage of the acute lung injury would decrease the severity of injury. I evaluated this hypothesis in an ARDS acute phase, modeled by an intratracheal instillation of bleomycin in mice, using two distinct experimental strategies.  The importance of edema clearance was studied in a transgenic (Tg) ENaC mouse, a mouse known to be sensitive to the formation of edema. However, our results show that these Tg mice were not more susceptible to the development of the ARDS acute phase induced by bleomycin. Furthermore, we have been able to show that bleomycin itself did not interfere with the ENaC channel function of alveolar epithelial cells type II (AT II).  The treatment of the inflammatory response associated with ARDS by glucocorticoid therapy is subject to controversy. In our mouse model, glucocorticoids decrease the level of cytokine in the alveolar milieu but did not decrease the severity of lung injury. Using in vitro experiments, we show that this lack of response could be secondary to the impact of the treatment on the epithelial repair capacity of AT II. In summary:  The ENaC channel expression did not have an impact on the development of the exudative phase, suggesting that the regulation of edema is not sufficient to alter the course of ARDS.  The modulation of inflammation by glucocorticoids was ineffective, possibly because of impaired repair of the epithelium. These results suggest that the control of edema or inflammation separately does not modify the evolution of lung injury. The heterogeneity of the ARDS origins and the redundancy of cellular mechanisms involved in lung injury will require therapy aimed at multiple pathophysiological targets to permit the resolution of lung injury.

SDRA

bléomycine

souris transgénique

ENaC

oedème

inflammation

glucocorticoïdes

AT II

réparation

ARDS

bleomycin

transgenic mice

edema

glucocorticoids

epithelial repair

Effet du statut en vitamine A sur la voie d'action des glucocorticoïdes et impact sur les processus mnésiques chez le rongeur / Effect of vitamin A status on glucocorticoid pathway and consequences on memory processes in rodents

Bonhomme, Damien

19 December 2013

Il est maintenant bien établi que la vitamine A et son métabolite actif l’aciderétinoïque (AR), joueraient un rôle important dans les fonctions cognitives du cerveau adulte. La diminution de l’activité de la voie de signalisation des rétinoïdes et l’augmentation de celle des glucocorticoïdes (GC), se manifestent de manière concomitante au cours du vieillissementet participeraient aux altérations de plasticité et à l’étiologie du déclin cognitif lié à l’âge. De plus, certaines données ont mis en évidence des effets antagonistes de la voie des rétinoïdessur celle des glucocorticoïdes.L'objectif de ce travail visait donc à mieux comprendre les interactions entre ces deux voies de signalisation et leur impact sur les processus de plasticité cérébrale et les fonctions mnésiques chez le rongeur. L'approche expérimentale a consisté à étudier les effets d'une supplémentation nutritionnelle en vitamine A ou d'un traitement par l’AR sur le niveau corticostérone plasmatique et hippocampique, sur les mécanismes impliqués dans la biodisponibilité de la corticostérone, sur les processus de plasticité cérébrale (neurogenèse et plasticité synaptique) et sur la mémoire hippocampo-dépendante dans un modèle nutritionnel de carence en vitamine A mais également au cours du vieillissement.Nous avons montré qu’une carence en vitamine A entraînait une hyperactivation de la voie des glucocorticoïdes se traduisant par une hypersécrétion de corticostérone au niveau périphérique et hippocampique qui pourrait être liée à une diminution de capacité de liaison de la CBG mais également à une hyperactivation de la 11β-HSD1 au niveau hippocampique.D’autre part, une supplémentation nutritionnelle en vitamine A chez les rats carencés normalise les effets délétères observés sur la voie des glucocorticoïdes et supprime les altérations de neurogenèse hippocampique ainsi que les déficits de mémoire hippocampodépendante.De plus, un traitement par l’AR permettrait de moduler positivement la voie de signalisation des rétinoïdes chez la souris d’âge intermédiaire afin de diminuer l’amplitude de libération de corticostérone intrahippocampique, s’opposant ainsi aux effets délétères d’un excès de glucocorticoïdes sur les processus neurobiologiques et cognitifs au cours du vieillissement.Ce travail contribue à la démonstration d'une modulation de la biodisponibilité des glucocorticoïdes par le statut en vitamine A observée au cours d'une carence en vitamine A et du vieillissement. Il offre de nouvelles perspectives dans le développement d'une prévention du déclin cognitif lié à l'âge axée sur les facteurs nutritionnels tels que la vitamine A. / It is now established that vitamin A and its active metabolite, retinoic acid (RA), are required for cognitive functions in the adult hood. The hyposignaling of retinoic acid and the hyperactivity of the glucocorticoid (GC) pathway appear concomitantly during aging and both would contribute to the deterioration of hippocampal plasticity and functions. Moreover, recent data have evidenced counteracting effects of retinoids on the GC signaling pathway.The goal of the present study has been to shed more light on the interactions between both signaling pathways and their consequences on cerebral plasticity and memory processes.We have investigated them not only in a well-established nutritional model of vitamin A deficiency but also during aging. Indeed, our experimental approach has consisted inmanipulating the status in vitamin A (deficiency and/or supplementation or RA treatment) inrodents to better understand its impact on plasma and intrahippocampal corticosterone levelsand the mechanisms involved in corticosterone bioavailability. Hippocampus-dependentmemory and plasticity (adult neurogenesis and synaptic plasticity-related gene expression)have also been assessed.We have shown a hyperactivity of the glucocorticoid pathway in vitamin A-deficientrats, leading to elevated peripheral and hippocampal corticosterone levels. This is probably due to a decrease in CBG binding capacity and to the hyperactivity of the hippocampal 11β-HSD1. Furthermore, a vitamin A supplementation normalizes glucocorticoid activity and hippocampal neurogenesis levels and corrects memory deficits.Besides, in middle-aged mice, a RA treatment is able to positively modulate the retinoidsignaling pathway inducing a decreased hypersecretion of intrahippocampal corticosterone. It thus counteracts the deleterious effects of an excess of glucocorticoids on neurobiological and memory processes.Altogether, these results contribute to the demonstration that in vitamin A deficiency and during aging, the status in vitamin A modulates GC activity. This work proposes new preventive perspectives based on nutritional factors such as vitamin A in order to delay agerelated cognitive decline.

Supplémentation en vitamine A

Acide rétinoïque

Glucocorticoïdes

Carence en vitamine A

Vieillissement

Neurogenèse

Plasticité synaptique

Mémoire

Hippocampe

Vitamin A supplementation

Retinoic acid

Glucocorticoids

Vitamin A deficiency

Aging

Neurogenesis

Cerebral plasticity

Memory

Hippocampus