Understanding T cells in type 1 diabetes: a role for c-Maf and characterization of intracellular signaling following engagement of transgenic Ly49A.

Leavenworth, Jianmei Wu

01 January 2008

Activated islet specific T cells are central to the destructive autoimmune response observed in type 1 diabetes (T1D). Not surprisingly, intense focus is placed on understanding how autoreactive T cell responses arise and contribute to disease pathology in the hope of using this information to develop novel therapeutic strategies for treatment of T1D. Here we investigate the mechanisms underlying defective c-Maf binding to the IL-4 promoter in T cells from diabetes prone mice and identify the mechanisms responsible for suppression of T cells by the inhibitory receptor Ly49A. It is not clear why development of protective Th2 cells is poor in T1D. c-Maf transactivates the IL-4 gene promoting Th2 cell development; therefore abnormalities in c-Maf may contribute to reduced IL-4 production by CD4 cells from nonobese diabetic (NOD) mice. Here we demonstrate that, despite normal expression, c-Maf binds poorly to the IL-4 promoter (IL-4p) in NOD CD4 cells. Immunoblots demonstrate that c-Maf can be modified at lysine 33 by small ubiquitin-like modifier-1 (SUMO-1). Sumoylation is facilitated by direct interaction with the E2 conjugating enzyme Ubc9 and increases following T cell stimulation. In addition, c-Maf physically interacts with p65/RelA. This interaction is dependent on the DNA binding domain of c-Maf and phosphorylation of p65 at serine 536. In transfected cells, overexpression of SUMO-1 or p65 decreases c-Maf transactivation of IL-4p-driven luciferase reporter activity, reduces c-Maf binding to the IL-4p in chromatin immunoprecipitation (ChIP) assays and enhances c-Maf localization into promyelocytic leukemia nuclear bodies (PML-NBs) or nucleoli, respectively. Sumoylation of c-Maf and phosphorylation of p65 are increased in NOD CD4 cells compared to CD4 cells from diabetes-resistant B10.D2 mice, suggesting that increased c-Maf sumoylation and interaction with p65 contribute to immune deviation in T1D by reducing c-Maf access to and transactivation of the IL-4 gene. Islet specific CD4 cells expressing inhibitory receptors may be a useful therapeutic tool for treating T1D. Engagement of transgenic Ly49A inhibits CD4 cell activation and delays onset of T1D in mice. However, in vitro studies suggest the inhibitory effect of Ly49A is incomplete. Here we report that following simultaneous T cell receptor (TCR) and Ly49A engagement, phosphorylation of Zap70, Erk1/2 and c-Jun were significantly diminished. Kinetic studies indicated that Ly49A did not simply delay activation but had a long-lasting effect. In contrast, when only costimulatory signals were provided through CD28, Ly49A engagement did not block p38 MapK or Akt phosphorylation. Likewise, expression of the downstream targets Bcl-xl and Baff were unaffected. Together these data suggest that engagement of Ly49A selectively inhibits signals downstream of the TCR but spares those unique to CD28. These results suggest that when considering its use as an immunotherapy, the potency of inhibitory receptors such as Ly49A may be further improved by pairing them with costimulatory blockade. Take together, these studies suggest that abnormal post-translational regulation of c-Maf function is a novel marker of altered T cell function in T1D and use of inhibitory receptors such as Ly49A may be optimized combining this approach with other complementary therapies.

c-Maf

IL-4

Ly49A

p65/RelA

SUMO-1

type 1 diabetes

Expressão do fator de transcrição nuclear kB (NF-kB) em neurônios ocitocinérgicos de ratos submetidos à sobrecarga salina : influência da dexametasona / Expression of nuclear transcription factor kB (NF-kB) in rat ocxytocinergic neurons submitted to salt loading : the influence of dexamethasone

Santos, Patricia Rabelo dos

27 January 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The hypothalamic-neurohypophysial system is the main system through which the brain maintains homeostasis of bodily fluids. Specifically, the supraoptic (SON) and paraventricular (PVN) hypothalamic nuclei are directly involved with hydroelectrolytic equilibrium and are specialized in the synthesis and secretion of vasopressin and oxytocin (OT). Changes in the milieu intérieur are conceived as stressors by the central nervous system (CNS) and are modulated by the hypothalamic-pituitary-adrenal axis (HPA). Nuclear transcription factor kappa B (NF-κB) mediates immunosuppressant and anti-inflammatory of glucocorticoids. Thus, the aim of this study was to verify the expression profile of component p65 of the NF-κB classical pathway in SON and PVN oxytocinergic neurons in response to dehydration, glucocorticoid treatment, and in normal conditions. Methods: Wistar rats (250-300g) were maintained in controlled environment with temperature (23 ± 2ºC), light/dark cycle of 12 hours and water and food specific for rodents ad labitum until the beginning of experimental period. All procedures were approved by Ethical Comitee of Research with Animals from UFS (Protocol # 60/2012). Animals were grouped into Control (water ad libitum for 4 days, n = 6-7); Control + Dexa (water ad libitum and treated with dexamethasone, n = 6-7); SL4 (salt overloading ad libitum, 1.8% NaCl for 4 days, n = 6-7); SL4 + Dexa (salt overloading ad libitum, 1.8% NaCl for 4 days and dexamethasone, n = 6-7). Dexamethasone (10 mg/kg i.p.) was administered 12 and 2 hours before perfusion and removal of brains for OT/p65 immunofluorescence, or before sacrifice for blood sampling and angiotensin II (ANGII) dosage. We applied two-way ANOVA and Bonferroni posthoc test to analyze behavioral and hormonal dosage data. Results obtained from imunohistochemestry for evaluation of oxytocin and/or p65 neuronal activity, were subjected to qualitative evaluation. We verified SL4 animals ingested more fluid than control, on second (p<0.01), third (p<0.01) and forth (p<0.001) experimental day. SL4 also increased plasmatic concentration of ANGII (p<0.01). Qualitative analysis of double labeling OT/p65 on PVN and SON revealed a weak immunoreactivity for oxytocin on SL4 and SL4 + Dexa groups, when compared to control and Control + Dexa groups. Was observed expression of p65 subunit of NF-κB in all hypothalamic studied areas, with predominant cytoplasmic imunoreactivity in all groups. These data demonstrate that p65 subunit of NF-κB are present in oxytocinergic neurons from the most important hypothalamic areas that integrates the stress axis (HPA) and hidroelectrolyte balance (SHNH). More studies are necessary to clarify the real participation of NF-κB intracellular pathway evoked by intracellular dehydration on endocrines and behavioral hidroelectrolyte adjustments. / O sistema hipotálamo neuro-hipofisário (SHNH) é o principal sistema pelo qual o cérebro mantém a homeostase dos líquidos corporais. Especificamente, os núcleos supra-óptico (SON) e paraventricular (PVN) do hipotálamo estão diretamente envolvidos com o controle do balanço hidroeletrolítico e são especializados na síntese e secreção de vasopressina (AVP) e ocitocina (OT). Alterações no milieu intérieur são vistas como estressoras pelo sistema nervoso central (SNC) e moduladas pelo eixo hipotálamo-hipófise-adrenal (HHA). O fator de transcrição nuclear kappa B (NF-κB) é conhecido por mediar os efeitos imunossupressores e anti-inflamatórios dos glicocorticoides. Sendo assim, o objetivo do presente estudo foi verificar o perfil de expressão do componente p65 da via clássica do NF-κB em neurônios ocitocinérgicos do PVN e SON, em resposta à desidratação crônica, associada, ou não, ao tratamento com glicocorticoides. Métodos: Ratos wistar (250-300 g) foram mantidos em ambiente com temperatura (23 ± 2ºC) e luminosidade, ciclo claro-escuro de 12 horas (luz das 6 às 18 horas), controladas, com água e ração específica para roedores (Labina®- Purina) ad libitum até o início dos experimentos. Todos os procedimentos foram aprovados pelo Comitê de Ética em Pesquisa com Animais da UFS (Protocolo # 60/2012). Os animais foram divididos de modo a constituir os grupos Controle (ratos com acesso à água ad libitum, durante quatro dias, n = 6 - 7); Controle + Dexa (ratos com acesso à água ad libitum, durante quatro dias, e tratados com dexametasona, n = 6 - 7); SL4 (ratos com acesso à sobrecarga salina ad libitum, solução de NaCl 1,8%, durante quatro dias, n = 6 - 7); SL4 + Dexa (ratos com acesso à sobrecarga salina ad libitum, NaCl 1,8%, durante quatro dias e tratados com dexametasona, n = 6 - 7). A dexametasona (10 mg / kg, i.p.) foi administrada apenas no 4º dia, 12h e 2 h antes da perfusão para coleta do cérebro e realização da dupla imunofluorescência OT/p65 ou eutanásia para coleta de sangue do tronco e posterior dosagem de angiotensina II (ANGII). Os dados comportamentais e de dosagem hormonal obtidos foram submetidos ao teste ANOVA de duas vias e pós-teste Bonferroni. Os resultados obtidos da imuno-histoquímica, para a marcação de neurônios expressando ocitocina e/ou p65, foram submetidos à avaliação qualitativa. Verificou-se que os animais SL4 ingeriram mais fluido que seus controles, no segundo (p < 0,01), terceiro (p < 0,001) e quarto (p < 0,001) dia experimental. A SL4 elevou a concentração plasmática de ANGII (p < 0,01). A análise qualitativa da dupla imunofluorescência OT/p65 no PVN e SON revelou uma fraca imunorreatividade à ocitocina nos grupos SL4 e SL4 + Dexa, quando comparados aos grupos Controle e Controle + Dexa. Observou-se expressão da subunidade p65 do NF-κB em todas áreas hipotalâmicas estudadas, com imunorreatividade predominantemente citoplasmática em todos os grupos. Estes dados mostram que a subunidade p65 do NF-κB está presente em neurônios ocitocinérgicos das principais áreas hipotalâmicas que integram os eixos do estresse (HHA) e do equilíbrio hidroeletrolítico (SHNH). Mais estudos são necessários a fim de esclarecer sobre a real participação da via intracelular do NF-κB evocada pela desidratação intracelular, nos ajustes hidroeletrolíticos endócrinos e comportamentais.

Fisiologia

Ocitocina

Dexametasona

Equilíbrio hidro-eletrolítico

P65/RelA

Sobrecarga salina

Núcleo supra-óptico

Núcleo paraventricular

Paraventricular nucleus

Oxytocin

Dexamethasone

Salt loading

Supraoptic nucleus

CIENCIAS BIOLOGICAS::FISIOLOGIA