Modulation pré et post-récepteur de l’exposition aux glucocorticoïdes : rôles du diabète de type 1 et de la vitamine A / Modulation of the exposition of the glucocorticoids receptor : role of the type 1 diabetes and the vitamin A

Brossaud, Julie

05 December 2013

L’action physiologique des glucocorticoïdes (GC) est de mobiliser certaines ressources de l’organisme pour s’adapter à des changements d’origine endogène ou exogène susceptibles de perturber l’homéostasie de l’organisme. Des facteurs métaboliques/nutritionnels modifient l’intensité d’action des GC. Ils agissent au niveau i) de l’activation de l’axe corticotrope, ii) de leur biodisponibilité des GC (régulation « pré-récepteur »), iii) de l’activation transcriptionnelle des récepteurs des GC (régulation « post-récepteur »). L’objectif général de ce travail repose sur l’exploration du rôle de certains facteurs métaboliques/nutritionnels dans la modulation pré- et post-récepteur de l’action des GC sur l’organisme. Dans une approche clinique, notre attention s’est tout d’abord focalisée sur le rôle de l’équilibre diabétique et/ou l’état inflammatoire des patients atteints de diabète de type I et le métabolisme pré-récepteur du cortisol. Par l’étude en spectrométrie de masse des métabolites du cortisol, nous montrons une augmentation significative de l’activité de la hydroxystéroïde-déshydrogenase 1, principale enzyme de régénération intracellulaire du cortisol. Cette augmentation est corrélée à des marqueurs de l’inflammation chez les enfants diabétiques. Ces résultats suggèrent un lien entre le diabète et l’existence d’une inflammation à bas bruit et l’augmentation de l’exposition cellulaire aux GC. Dans une approche expérimentale, nous nous sommes ensuite intéressés à l’action de l’acide rétinoïque all trans (atAR), métabolite actif de la vitamine A, sur l’activité transcriptionnelle des GC. Nous avons choisi un modèle in vitro de cellules hippocampiques en raison d’effets contrastés de l’atAR et des GC sur les fonctions mnésiques in vivo. Nous observons une interaction entre les voies de signalisation transcriptionnelle de l’atAR et des GC sur leurs propres récepteurs et sur des protéines de la plasticité synaptique. Par ailleurs, l’atAR est responsable de modifications de la phosphorylation du récepteur aux GC altérant ainsi ses fonctions transcriptionnelles. Enfin atAR et GC modifient différemment l’organisation du cytosquelette d’actine sans modification transcriptionnelle ou traductionnelle. La compréhension du rôle de certains facteurs environnementaux dans la signalisation des GC pourrait permettre de réduire certains des effets délétères du stress. L’utilisation de certains nutriments, vitamine A par exemple, pourrait atténuer certaines conséquences d’un tonus glucocorticoïde excessivement prolongé. / Rôles to mobilize body resources and to adapt to endogenous or exogenous changes that might disrupt the homeostasis of the body. Nutritional & metabolic factors may modify the intensity of GC action in: i) the activation of the corticotrope axis and their secretion by the adrenals, ii) their bioavailability ("pre-receptor" regulation), iii) the transcriptional activation of their receptors ("post-receptor" regulation). The main target of this work is to explore the role of some metabolic/nutritional endogenous or exogenous factors in modulating pre- and post-receptor action of GC. Our attention first focused on the role of diabetes and the related inflammation in patients with type I diabetes, and pre-receptor metabolism of cortisol. We showed that a significant increase in the activity of hydroxysteroid dehydrogenase 1, the main enzyme of intracellular cortisol regeneration, is correlated with markers of inflammation in diabetic children. This suggests a link between diabetes and the low-level chronic inflammation and increased cellular exposure to GC . Then, we focused on the action of all-trans retinoic acid (atRA), the active metabolite of vitamin A on the transcriptional activity of GC. We used an in vitro model of hippocampal cells as GC and atRA have contrasted effects on mnesic processes in vivo. We observed a transcriptional interaction between the GC and retinoic pathways targeting their receptors and genes involved in neuronal plasticity. atRA also affects the phosphorylation of the GC receptor and modifies its transcriptional activity. Lastly, both atRA and GC affect cellular organisation of actin cytoskeleton. The knowledge acquired by studying the action of nutritional molecules on GC action could be used to easily reduce the deleterious effects of GC in chronic stress. Clinical studies have started in this direction.

Glucocorticoïdes

Récepteurs

Diabète de type 1

Vitamine A

Glucocorticoids

Receptors

Type 1 diabetes

Vitamin A

Úloha glukokortikoidů v cirkadiánním systému / The role of glucocorticoids in circadian system

Tejkal, Karel

January 2015

Glucocorticoids are mammalian steroid hormones secreted from the adrenal gland. The basal levels of glucocorticoids show a pronounced diurnal rhythm with maximum at the beginning of the active period and minimum at its end. Glucocorticoids have an influence over a variety of metabolic functions and their secretion is tightly regulated. This regulation also depends on the circadian system, which utilizes glucocorticoids to entrain the peripheral tissues by inducing rhythmic gene expression. The mechanisms by which glucocorticoids influence mammalian circadian system has not yet been precisely defined, especially concerning the influence of glucocorticoid signalling on gene expression in different tissues and the dynamics of glucocorticoid receptor (GR) occupancy. This thesis studies the influence of ablation of glucocorticoid signalization induced by adrenalectomy on the clock gene expression of in the central clock in the suprachiasmatic nucleus and peripheral clocks in the hippocampus and distal colon. The effect of adrenalectomy on gene expression is compared with the effect of restricting the feeding time, which has also been shown to affect glucocorticoid levels in the body. Other experiments were aimed at elucidating impact of changing the activity of GR on gene expression using synthetic GR...

Myeloid corticoid receptors in CNS autoimmunity: Old targets for novel therapies

Montes Cobos, Elena

15 June 2016

No description available.

610

Myeloid cells

Glucocorticoids

Autoimmunity

Medizin (PPN619874732)

Immunologie

Isolamento, identificação e caracterização de seqüências expressas de DNA (ESTs) de genes regulados por glicocorticóides na reversão fenotípica tumoral-normal de células ST1 de glioma de rato / Isolation, identification and characterization of DNA expressed sequences (ESTs) from glycocorticoid-regulated genes in the normal tumor phenotypic reversal of rat glioma ST1 cells

Vedoy, Cleber Giovane

17 November 2000

Os hormônios glicocorticóides causam uma completa reversão tanto \"in vitro\" quanto \"in vivo\" do fenótipo tumoral para normal, na linhagem celular ST1 de glioma de rato (Armelin & Armelin, 1983) que é um variante da linhagem C6 de glioma de rato. Neste trabalho, foram construídas bibliotecas normalizadas de cDNAs subtraídos e normalizadas, através da metodologia de PCR supressivo, para identificar genes regulados por glicocorticóides, potencialmente envolvidos na reversão fenotípica de células ST1. A construção e análise de duas bibliotecas de cDNAs subtraídos, permitiu o isolamento de 7 genes diferencialmente expressos, alguns dos quais são conhecidos efetores do controle da proliferação celular e/ou diferenciação: trombospondina-1, ciclina G, tirosina fosfatase CL100 e NRP/B. Foi isolado, também, um clone similar a tenascina-X, que apresenta um transcrito de tamanho diferente. O isolamento e caracterização de um cDNA completo correspondente a esse transcrito revelou que é constituído apenas por motivos de fibronectina tipo III e fibrinogênio. A dramática indução deste transcrito por hidrocortisona sugere um papel potencial para esse variante de TN-X no controle da proliferação celular. A análise da expressão destes genes em células P7, um variante de C6 que não sofre reversão fenotípica mediada com glicocorticóides, e em células U87 de glioblastoma humano, revelou que são expressos em níveis muito baixos ou indetectáveis, nestas células indicando que o produto destes genes pode ter um papel importante na reversão fenotípica tumoral-normal. A prevalência de transcritos raros e diferencialmente expressos nestas bibliotecas, mostra que são adequadas para o rastreamento, através de métodos automatizados de microarranjos de DNA, para a validação de clones diferencialmente expressos, podendo revelar, rapidamente, um painel de genes candidatos a estarem envolvidos nas respostas anti-proliferativa e anti-tumoral dos glicocorticóides. / Treatment of the C6 rat glioma cell variant, ST1 cells, with glucocorticoids, leads to a complete reversion of their transformed phenotype and loss of tumorigenic potential. In this work, two subtracted and equalized cDNA libraries were constructed, based on suppressive PCR, in order to identify glucocorticoid-regulated genes related to the ST1 phenotypic reversion. Analysis of both subtracted cDNA libraries revealed 7 differentially expressed genes, some of which are well known negative growth regulators: thrombospondin-1, cyclin G, tyrosine phosphatase CL 100 and NRP/B. In addition, a cDNA clone similar to TN-X, but exibiting a different transcript size was also isolated. Isolation and characterization of a full-length cDNA corresponding to this transcript, revealed that it is composed of fibronectin type III repeats and one single fibrinogen domain. Glucocorticoid induction of this transcript may suggest a different role of TN-X variants in controling cell proliferation. Expression analysis of the C6-derived glucocorticoid-resistant, P7 variant, and of the human glioblastoma U87 cells, revealed very low or undectable levels of these transcripts, further suggesting that their expression is related to the ST1 cells\' phenotypic reversion. Prevalence of rare and differentially expressed transcripts in these libraries suggests that they are likely to be useful in automated systems (DNA microarrays) to rapidly validate differentially expressed clones and to reveal a panel of candidate genes that mediate the anti-proliferative and anti-tumor effects of glucocorticoids.

Biologia molecular

cDNA subtraction

Cell cycle

Ciclo celular

Glicocorticóides

Glucocorticoids

Molecular biology

Subtração de cDNAs

Papel de BRG1 e Brm, reguladores globais de transcrição, na reversão fenotípica de células ST1 pela ação de glicocorticóides / Role of the global transcriptional regulators, BRG1 and Brm, in the glucocorticoid induced -phenotypic reversion of ST1 cells

Ortis, Fernanda

20 August 2002

Os hormônios glicocorticóides (GCs) têm sido amplamente empregados como agentes antiinflamatórios e anti-tumorais. Sua ação ocorre via receptores nucleares (GR) sendo dependente da remodelação da estrutura da cromatina. As proteínas Brm e BRG1, componentes essenciais de um complexo regulador global da transcrição (SWI/SNF), por remodelamento da cromatina, exercem um papel-chave na ação de GR. Para estudar o mecanismo de ação de GCs, foram utilizadas as linhagens celulares ST1 e P7, derivadas da linhagem celular C6, de glioma de rato. P7 é insensível ao tratamento com GC, enquanto ST1 apresenta reversão fenotípica tumoral→normal, gerando um bloqueio específico na fase G1. Um anti-soro policlonal específico para Brm e BRG1, foi gerado através da inoculaçâo de coelha com a proteína hBRG1 recombinante. Este antisoro foi utilizado para análisar os níveis destas proteínas nas duas linhagens celulares, sob ação de GC. Enquanto em ST1, Brm é induzida por GC, em células P7, o nível basal de Brm é relativamente alto, mantendo-se inalterado na presença de GC. A possíbilidade de existirem mutações no gene brm de células P7, foi investigada através de amplificação do DNA, por PCR, e seqüenciamento. A superexpressão de brm e BRG1 em células P7 mostrou que clones isolados apresentavam, de um modo geral, achatamento celular, diminuição da taxa de crescimento e da eficiência de plaqueamento em substrato sólido e semi-sólido. Alguns destes clones passaram a responder ao tratamento com GC, porém não tão drasticamente como as células ST1. Co-imunonoprecipitação mostrou algumas diferenças entre os complexos SWI/SNF de células ST1 e P7. / Glucocorticoid hormones (GCs) have been used as anti-inflammatory and anti-tumor agents, acting via nuclear receptors (GR) and being dependent on remodeling of the chromatin structure. As components of the global chromatin remodeling transcription complex (SWI/SNF), Brm and BRG-1 proteins play a key role in the action of GR. In order to study the mechanisms of action of GCs, we have been using the ST1 and P7 cell lines, derived from the C6, a rat glioma cell line. P7 is insensitive to the GC treatment, while ST1 displays a complete phenotypic reversion from tumoral to normal, including a G1-specific block in the cell cycle. A Brm and BRG1-specific polyclonal antiserum was generated, in rabbit, using recombinant hBRG1 protein as antigen. This antiserum was used to analyze the levels of Brm and BRG1 in these two cell lines, under GC treatment. While Brm is induced by GC, in ST1 cells, the basal level of Brm, in P7 cells, is relatively high, remaining unchanged under GC treatment. The possibility of brm mutations occurring in the P7 cells, was analyzed by DNA sequencing. Overexpression of brm and BRG1 in P7 cells led to morphological alterations (cell flattening) and decreased colony formation in agarose suspension and in solid substrate. Some of these clones became partially responsive to GC, when compared to the ST1 cell line. Co-immunoprecipitation assays revealed some differences in the SWI/SNF complex between ST1 and P7 cells.

Cell proliferation control

Cells

Células

Controle da proliferação celular

Glicocorticóides

Glioma

Gliomas

Glucocorticoids

Efeitos da pinealectomia e do bloqueio da sinalização do receptor de glicocorticoides sobre as funções metabólicas e inflamatórias hepáticas / Effects of pinealectomy and blockade of signaling by glucocorticoid receptor on the metabolic and inflammatory liver fuctions.

Rodrigues, Sandra Campos

10 November 2015

Os ritmos biológicos circadianos garantem a relação temporal entre os seres e o ambiente. A regulação metabólica se relaciona à ritmicidade dos ciclos de claro-escuro, com importância das ações da melatonina e dos glicocorticoides no fígado. Investigamos a participação dos glicocorticoides no ajuste metabólico mediado pela secreção rítmica de melatonina e no contexto inflamatório hepático. Ratos Wistar machos pinealectomizados tratados ou não com RU 486 tiveram o padrão circadiano circulante de corticosterona, insulina e glicose aferido ao longo de 8ZTs e no ZT10. Neste ponto, analisou-se a expressão de RNAm e protéica envolvidas em ações metabólicas e inflamatórias. Testes in vivo de tolerância à glicose e ao piruvato e a fosforilação da Akt hepática no ZT10 em resposta à insulina, em conjunto às alterações de peso e composição corpórea, conteúdo de glicogênio e histologia do fígado, apontam maior influência da corticosterona na gliconeogênese e correlação de ambos os hormônios nas alterações energéticas e na instalação de um quadro pró-inflamatório hepático. / Circadian biological rhythms guarantee the temporal relationship between living beings and the environment. Metabolic regulation relates to the rhythm to the light-dark cycle, with importance of the actions of melatonin and glucocorticoids in the liver. We investigated the participation of glucocorticoids in the metabolic adjustment mediated by rhythmic secretion of melatonin on the liver inflammatory context. Male Wistar rats pinealectomized treated or not with RU 486 had the circadian levels of circulating corticosterone, insulin and glucose measured along 8ZTs and on ZT10. At this point, we analyzed mRNA and protein expression related to metabolic and inflammatory actions. In vivo tests to glucose and pyruvate tolerance and rating the phosphorylation of Akt in response to insulin in liver at ZT10, with the changes in weight and body composition, glycogen content and liver histology, indicate influence of corticosterone in gluconeogenesis and correlation of both hormones in energy alterations and on the installation of a hepatic pro-inflammatory process.

Energy metabolism

Fígado

Glicocorticoides

Glucocorticoids

Inflamação

Inflammation

Liver

Melatonin

Melatonina

Metabolismo energético

Effets de la protéine C activée et des glucocorticoïdes dans le choc septique expérimental / Activated protein C and glucocorticoid in experimental septic shock

Bouazza, Youcef

14 November 2011

Le choc septique est la principale cause de mortalité dans les services de réanimation. Les glucocorticoïdes (GC) et la protéine C activée (APC) sont deux traitements adjuvants recommandés au cours du choc septique. Ce travail a pour objectif d'évaluer l'impact de la combinaison d'APC et des GC sur les paramètres hémodynamiques et la survie. Le sepsis expérimental se caractérise par une hypotension artérielle avec acidose lactique et une hyporéactivité vasculaire. L'administration de Dexa et/ou d'APC permet de diminuer les taux de lactates, d'interleukines et de nitrate/nitrite. Chez les groupes traités, la contraction est améliorée ainsi que la relaxation vasculaire des aortes et des artères mésentériques. L'administration d'APC et de Dexa, seul ou en association, entraine une diminution de l'expression induite d'iNOS et la restauration de la voie Akt. La combinaison APC et Dexa améliore le temps de survie de façon synergique. Nos résultats suggèrent que l'APC et les GC devraient être réévalués en association dans le traitement du choc septique / Sepsis remains the major cause of death in intensive care units. International guidelines for management of severe sepsis and septic shock recommend both stress-dose steroid therapy and recombinant activated protein C (APC). The aims of the present study were to compare the effects of APC and dexamethasone (Dexa) alone as well as in combination in resuscitated septic shock on survival, hemodynamics, and vascular reactivity. Sepsis was associated with a decrease in mean arterial pressure, elevation in plasma lactate and nitrite/nitrate concentration. Administration of APC, Dexa, and their combination improve arterial pressure and decrease lactate and nitrite/nitrate concentration. Both APC and Dexa improved arterial contractility and endothelial dysfunction resulting from septic shock in rats. The expression of iNOS was significantly reduced by the administration of Dexa, APC, and combination therapy. All treatments restore the Akt pathway. Moreover, their combination increased the length of survival. These findings suggest that APC and glucocorticoids should be further re-evaluated in combination in septic shock

Choc septique

Glucocorticoïdes

Protéine C activée

No

Septic shock

Glucocorticoids

Activated protein C

Nitric oxide

616.944

Participação dos glicocorticoides na progressão e no prejuízo cognitivo da encefalomielite autoimune experimental em camundongos C57BL/6. / Glucocorticoid involvement in the progression and cognitive impairment of experimental autoimmune encephalomyelitis in C57BL/6 mice.

Santos, Nilton Barreto dos

16 March 2017

A esclerose multipla (EM) é uma doença neurodegenerativa autoimune. As células da glia contribuem para o agravamento da EAE. Este trabalho objetiva mostrar a influência da dexametasona, na progressão da doença e nos défcits cognitivos da EAE. Foram utilizados camundongos C57BL/6, fêmeas, divididos em 4 grupos (CONT, DEX, EAE, EAE+DEX) imunizadas com MOG e Bordetella Pertussis, tratados com dexametasona (50mg/kg). Antes e após o aparecimento dos sintomas, os animais foram submetidos a testes comportamentais de campo aberto, labirinto em cruz elevado, contexto aversivo e reconhecimento de objetos. Os animais tratados com dexametasona (EAE+DEX) apresentaram diminuição do escore clínico em relação ao grupo EAE e apresentaram comportamento do tipo ansioso. Entretanto, o tratamento com DEX promoveu diminuição da memória de trabalho. Houve aumento marcadores inflamatórios e aumento do número de astrócitos no hipocampo do grupo EAE+DEX no 26o dia. Estes dados sugerem que a dexametasona diminui a aquisição da memória e aumenta o número e reatividade astrocitária na EAE. / Multiple sclerosis (MS) is an autoimmune neurodegenerative disease. The glial cells contribute to the aggravation of EAE. This work aims to show an influence of dexamethasone, the progression of the disease and the cognitive deficits of EAE. Female C57BL/6 mice were divided into 4 groups (CONT, DEX, EAE, EAE+DEX) immunized with MOG and Bordetella Pertussis, treated with dexamethasone (50mg/kg). Before and after the onset of symptoms, the animals were submitted to behavioral tests open field, the elevated plus maze, the aversive context and the object recognition test. The animals treated with dexamethasone (EAE+DEX) presented a decrease in the clinical score in relation to the EAE group and presented an anxious type behavior. However, treatment with DEX promoted a decrease in the work memory. There were increased inflammatory markers and increased number of hippocampal astrocytes from the EAE+DEX group on the 26th day. These data suggest that dexamethasone decreases memory acquisition and increases the astrocytic number and reactivity in EAE.

Animal memory

Astrócitos

Astrocytes

Esclerose múltipla

Glicocorticoides

Glucocorticoids

Hipocampo

Hippocampus

Memória animal

Multiple sclerosis

Efeitos da Anandamida sobre a esfera neuroimune de camundongos: avaliação comportamental, endócrina e de parâmetros da atividade imune adquirida / Anandamide effects on neuroimmune interactions in mice: Behavioral, endocrine, and parameters of adaptative immune activity evaluation

Ribeiro, Alison

06 December 2007

A neuroimunomodulação é um ramo da ciência que estuda as inter-relações existentes entre o SNC e o SI. O termo inter-relações foi empregado porque, sabe-se hoje serem estas relações bidirecionais. Conhecendo-se a existência desta comunicação, não é difícil de se supor que substâncias que atuem no sistema neuro-endócrino tenham a capacidade de influenciar as respostas imunes seja por uma ação neuroimune indireta ou por outra que se faça diretamente nas células imunes. Os canabinóides (endógenos, derivados da planta e sintéticos) apresentam um amplo espectro de ações, dentre as quais cabe destacar aquelas sobre o comportamento (ansiedade e medo), o sistema neuro-endócrino (ativação do eixo HHA) e imune (resposta imune inata e adquirida). Estes efeitos são geralmente atribuídos à ligação dos canabinóides a receptores específicos presentes no SNC (receptores CB1) e na periferia (receptores CB2). Neste sentido, buscamos neste trabalho avaliar os efeitos da Anandamida (AEA), uma agonista canabinóide endógeno, sobre o comportamento, a ativação do eixo HHA e alguns parâmetros de atividade imune adquirida, e o fizemos à luz de mecanismos neuroimunomodulatórios. Nossos resultados mostraram que os efeitos da AEA sobre o comportamento são dependentes da dose e, também, do tempo de latência para as observações. Neste sentido, 10 minutos após a administração de doses crescentes de AEA observou-se, tanto no campo aberto como no LCE, um efeito que seguiu um padrão de curva em U invertido dependente da dose. Nossos resultados mostraram, também, que a AEA na dose de 0,1mg/kg administrada 90 minutos antes das observações, aumentou o tempo gasto pelos animais em movimento na zona periférica e diminui o tempo gasto em movimento na zona central do campo aberto. Mostrou-se, ainda, que a AEA na dose de 0,1mg/kg aumentou acentuadamente os níveis séricos de corticosterona nos animais medidos 45 e 90 minutos após a administração. Finalmente, mostrou-se que uma dose de 0,1mg/kg de AEA previamente a uma imunização com OVA promoveu um aumento da reposta de hipersensibilidade do tipo tardia (DTH) e um aumento na porcentagem de proliferação de células T CD4+. Estes resultados em seu conjunto permitem sugerir que a AEA (0,1mg/kg) administrada 90 minutos antes das observações tenha se comportado como um estressor químico, promovendo efeito semelhante ao de ansiogênicos no campo aberto e aumentando os níveis séricos de corticosterona; esses níveis aumentados de corticosterona teriam sido os responsáveis pelo aumento da resposta imune celular (Th1) observada. / Neuroimmunomodulation is a field of research concerned with the relationships between the CNS and the IS. The term relationship is frequently employed because it is assumed that such communication is bidirectional. In this regard, if we consider that this communication exists, it should be accetable that substances acting on the neuroendocrine system are able of modifying immune responses, either acting via a neuroimmune indirect pathway, or acting directly on immune cells. Cannabinoids (endogenous, plant derived, and synthetic) show a large spectrum of actions over the body. We emphasize here, behavioral (anxiety and fear), endocrine (HPA axis activation), and immune (innate and adaptative immunity) effects. These effects are generally attributed to cannabinoid bind to specific receptors present on CNS (CB1 receptors) and in the periphery (CB2 receptors). In this sense, we evaluated Anandamide (AEA, an endogenous cannabinoid agonist) effects, on behavior, HPA axis activation, and parameters of adaptative immunity, particularly neuroimmune relationships. Briefly, our results show that the AEA effects on behavior are dependent on the dose and time. Thus, 10 minutes after injection of growing increasing doses of AEA, we found in the open field and plus maze an inverted U-shape dose-response for AEA which is characteristic of cannabinoids in this type of behavioral evaluation. Additionally we show, that AEA 0,1mg/kg after 90 minutes of administration increased the time spent in the peripheral zone, and decreased the time spent in the central zone of the open field. Furthermore, we found that AEA 0.1mg/kg strongly increased the serum levels of corticosterone after 45 and 90 minutes of administration. Finally, we show that AEA 0.1mg/kg prior to immunization promoted an increase of delayed-type hypersensitivity (DTH) and an increase in the percentage of CD4+ T cell proliferation. These results allow us to suggest that AEA 0.1mg/kg 90 minutes after administration acted as a chemical stressor, promoting an anxiogenic-like effect in the open field, and increasing the serum levels of corticosterone. Additionally, the increased levels of corticosterone at the moment of antigenic exposition could be responsible for the increased cell-mediated immunity (Th1) observed.

Anandamida

Anandamide

Ansiedade

Anxiety

Cell-mediated immunity

Glicocorticóides

Glucocorticoids

Imunidade celular

Neuroimmunomodulation

Neuroimunomodulação

Alterações na expressão de Dexras1 mediada pela cooperação entre STAT5 e GR contribuem para modulação da secreção de insulina na gestação e lactação. / Alterations in Dexras1 expression mediated by STAT5 and GR cross-talk contribute to the modulation of insulin secretion during pregnancy and lactation.

Santos, Camilo de Lellis

23 June 2010

Não é claro como o receptor de glicocorticóide (GR) contrarregula a atividade do STAT5 na transição da gestação para a lactação. Dexras1 é uma pequena proteína G ativada por dexametasona (DEX), que regula morfologia celular, crescimento, etc. Neste estudo detectamos a expressão de Dexras1 em células beta de ilhotas pancreáticas. DEX induz a expressão de Dexras1 em células RINm5F, que está aumentada na gestação e diminuída na lactação. A expressão protéica de 11<font face=\"Symbol\">&#946HSD1, enzima ativadora de glicocorticóides (GCs), segue esse perfil. A ligação tanto do GR como do STAT5, analisada por ChIP assay, ao promotor do gene da Dexras1 aumentada por DEX é revertida por prolactina (PRL), e está diminuída e aumentada na gestação e lactação, respectivamente. DEX induz a associação ao GR, fosforilação e translocação nuclear do STAT5b. O silenciamento gênico de Dexras1 promoveu aumento da secreção de insulina, e aumentou os níveis de pERK1/2, pCREB, pPKC<font face=\"Symbol\">&#948 e PKA. Sendo assim, a regulação de Dexras1 por PRL e GCs contribui para a secreção de insulina característica do periparto. / It is not clear how glucocorticoid receptor (GR) counteracts STAT5 activity during the transition of pregnancy to lactation. Dexras1 is a small G protein activated by dexamethasone (DEX) that controls cell morphology, growth, etc. In the present study we detected Dexras1 expression in pancreatic beta cell. DEX induces Dexras1 expression in RINm5F cells, which is increased in pregnancy and decreased in lactation. The expression of 11<font face=\"Symbol\">&#946HSD1, the glucocorticoids (GCs) activating enzyme, followed Dexras1 profile in pancreatic islet. Both GR and STAT5b bindings to Dexras1 gene promoter, analyzed by ChIP assay, are increased by DEX and PRL counteracts this effect. Both bindings are decreased in pregnancy and increased in lactation. DEX induces STAT5b association to GR, phosphorylation and nuclear translocation. Dexras1 knockdown using small interference RNA (si-RNA) promoted an increase in insulin secretion, as well as increased levels of pERK1/2, pCREB, pPKC<font face=\"Symbol\">&#948 and PKA. Thus, Dexras1 regulation by PRL and GCs contributes to insulin secretion during peripartum.

Dexras1

Dexras1

Glicocorticóides

Glucocorticoids

Gravidez

Ilhotas pancreáticas

Lactação

Lactation

Pancreatic Islets

Pregnancy

Prolactin

Prolactina