外周血miR-150-5p、SOCS1 mRNA对类风湿关节炎“病”“证”诊断意义的初步探讨＊

目的 探讨类风湿关节炎患者外周血miR-150-5p、细胞因子信号抑制因子1（suppressor of cytokine signaling 1，SOCS1）mRNA的表达及对类风湿关节炎（Rheumatoid Arthritis，RA）疾病诊断、中医证型判断的意义。方法 纳入符合诊断标准的RA患者57例及健康对照组19例，根据《22个专业95个病种中医诊疗方案》有关RA的中医证候诊断标准，判断RA的中医证型。qPCR检测RA患者及健康对照组miR-150-5p、SOCS1mRNA的相对表达水平，同时检测血常规、肝功能、肾功能等常规指标。双荧光素酶分析方法判断两者是否存在靶向关系。统计分析miR-150-5p、SOCS1 mRNA对RA疾病的诊断意义及其与中医证型的相关性。结果 RA患者外周血miR-150-5p的相对表达水平下调，低于正常人群（t = -19.019，P < 0.05）；其表达水平随疾病活动度升高，有下降趋势；患者外周血SOCS1 mRNA的相对表达水平上调，低于正常人群（t = 5.333，P < 0.05）；其表达水平随疾病活动度升高，有上升趋势。MiR-150-5p与SOCS1 mRNA有靶向结合关系（P < 0.05）。通过AUC曲线比较，miR-150-5p的相对表达水平区分RA的敏感性及特异性分别为98.1%、92.1%（AUC = 0.972，P < 0.05）；SOCS1 mRNA的相对表达水平无法区分RA（AUC = 0.472，P > 0.05）。RA患者中miR-150-5p的相对表达水平低于3.06，RA患者风湿痹阻证、寒湿痹阻证的相对风险分别为8.33、250.00（P < 0.05）。结论 miR-150-5p、SOCS1 mRNA在RA患者中有差异性表达，且有靶向结合关系。miR-150-5p可能是RA的疾病诊断及中医风湿痹阻证、寒湿痹阻证证型诊断的潜在生物标志物。     

SOCS1与T细胞分化发育及功能调控的研究进展

细胞因子参与介导了机体天然免疫和获得性免疫应答反应，SOCS家族是近年来发现的通过JAK／STAT途径抑制细胞因子信号转导通路的负性调控蛋白。目前SOCS家族成员中以SOCS1的研究最为深入。SOCS1的缺失会导致T细胞胸腺选择受阻，以IFNγ为主的多种细胞因子的过量分泌，T细胞表面活化分子表达增加等等。因此，SOCS1的正常表达对于T细胞的分化发育和自身稳定发挥了重要作用。     

人早孕母胎界面SOCS1、SOCS2、SOCS3表达

目的：研究正常早孕绒毛及蜕膜组织细胞因子信号转导负调控因子（Suppressors of cytoldne signaling，SOCS）基因和蛋白水平表达，以揭示SOCS在母胎界面生理性调节作用。方法：半定量RT-PCR检测早孕绒毛组织、蜕膜组织及原代培养早孕滋养细胞、蜕膜基质细胞SOCS1、SOCS2、SOCS3 mRNA水平；Western blot检测早孕绒毛组织及蜕膜组织SOCS1、SOCS2、SOCS3蛋白表达；免疫组化定位SOCS1、SOCS2、SOCS3在早孕绒毛组织、蜕膜组织表达；ELISA检测滋养细胞、蜕膜基质细胞分泌IL-10、IFN-γ。结果：正常母胎界面见SOCS1、SOCS2、SOCS3基因表达，其中SOCS3绒毛／蜕膜阳性率73．7％／71．1％；SOCS2绒毛／蜕膜阳性率50．0％／39．5％，SOCS1最少，绒毛／蜕膜阳性率34．2％／31．6％；SOCS1、SOCS2、SOCS3蛋白表达与转录水平基本一致；正常母胎界面SOCS1、SOCS2、SOCS3表达主要定位于绒毛滋养细胞和蜕膜间质；体外无血清培养滋养细胞和蜕膜基质细胞SOCS2、SOCS3低表达，SOCS1未见表达，其分泌的IL-10随时间而增高（P〈0．05）。结论：正常早孕母胎界面表达SOCS1、SOCS2、SOCS3，无刺激条件下滋养细胞和蜕膜基质细胞低表达SOCS2、SOCS3，SOCS在正常妊娠Th平衡中具有重要意义。     

慢性乙型肝炎患者外周血SOCS3 mRNA的表达及其与Th17的关系

 目的 研究慢性乙型肝炎(CHB)患者外周血辅助性T细胞17(Th17)以及细胞因子信号转导抑制因子3(SOCS3) mRNA的表达状况,探索CHB患者SOCS3 mRNA表达与Th17的关系。方法 选取2021年2—8月于某院门诊就诊的30例CHB患者为研究对象,并选取同期正常体检者15例为对照组。采用流式细胞术(FCM)检测外周血Th17细胞频数,酶联免疫吸附试验(ELISA)检测血清细胞因子IL-17A和IL-23表达水平,实时荧光定量逆转录聚合酶链反应(qRT-PCR)法测定外周血SOCS3、维甲酸相关孤儿核受体γt (RORγt) mRNA表达水平,并比较两组患者的检测结果。结果 CHB患者外周血Th17细胞频数及其效应分子IL-17A、IL-23表达水平高于对照组(均P＜0.05),Th17细胞频数、IL-17A与HBV DNA水平之间存在正相关(r值分别为0.570、0.563,均P＜0.005)。CHB患者外周血SOCS3、RORγt mRNA表达水平高于对照组(均P＜0.05),两者与HBV DNA水平正相关(r值分别为0.662、0.561,均P＜0.05)。CHB患者SOCS3 mRNA与RORγt mRNA、Th17细胞频数、IL-17A之间存在正相关(r值分别为0.552、0.626、0.826,均P＜0.05)。结论 CHB患者外周血SOCS3 mRNA的异常高表达,可能通过调节RORγt mRNA的表达来影响Th17的分化及其效应分子的分泌。     

Reconstruction of an active SOCS3-based E3 ubiquitin ligase complex in vitro: identification of the active components and JAK2 and gp130 as substrates

Abstract

SOCS3 (suppressor of cytokine signaling 3) inhibits the intracellular signaling cascade initiated by exposure of cells to cytokines. SOCS3 regulates signaling via two distinct mechanisms: directly inhibiting the catalytic activity of Janus kinases (JAKs) that initiate the intracellular signaling cascade and catalysing the ubiquitination of signaling components by recruiting components of an E3 ubiquitin ligase complex. Here we investigate the latter mode-of-action biochemically by reconstructing a SOCS3-based E3 ubiquitin ligase complex in vitro using fully purified, recombinant components and examining its ability to promote the ubiquitination of molecules involved in the cytokine signaling cascade. We show that SOCS3 is an active substrate recruitment module for a Cullin5-based E3 ligase and have defined the core protein components required for ubiquitination. SOCS3-induced polyubiquitination was rapid and could proceed through a number of different ubiquitin lysines. SOCS3 catalyzed the ubiquitination of both the IL-6 receptor common chain (gp130) and JAK2.     

What is the impact of SOCS3, IL-35 and IL17 in immune pathogenesis of recurrent pregnancy loss?

Objective: To investigate the plasma levels of interleukin-4 (IL-4), IL-6, IL-10, tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), transforming growth factor-beta (TGF-beta), IL-17, IL-35 and suppressor of cytokine signaling 3 (SOCS3) in the women with history of idiopathic recurrent pregnancy loss (RPL) and in the fertile controls.

Methods: This study was conducted with 60 idiopathic RPL cases and 40 age-matched fertile controls. Mid-follicular plasma levels of IL-17, IFN-gamma, TNF-alpha, TGF-beta, IL-6, IL-4, IL-10, SOCS3 and IL-35 were assayed by an enzyme linked immunosorbent assay.

Results: The mean age of RPL and control cases were 31.6?±?0.6 and 32.1?±?0.7 years, respectively. While plasma IL-35 and SOCS3 levels of RPL group were significantly lower than that of the control group; IFN-gamma, TNF-alpha, IL-4, IL-6, IL-10, IL-17 and TGF-beta levels of RPL group were significantly higher than that of the control group. The comparison of cytokine ratios between RPL and control groups indicated significantly high TNF-alpha/IL-10, TNF-alpha/IL-4, IFN-gamma/IL-10, IFN-gamma/IL-6 and IFN-gamma/IL-4 ratios in the RPL group. IL-35/IL-17 ratio was significantly low in the RPL group compared to that in the control group. Overstimulation of TNF-alpha presented moderate influence on recurrent miscarriage risk.

Conclusion: Decreased SOCS3 and IL-35 plasma levels and increased Th1/Th2 cytokine ratios in RPL cases pointed out the supression of anti-inflammatory process and this supression might play an important role in the pathogenesis of idiopathic RPL.     

Modulation of insulin action

Insulin is a key hormone regulating the control of metabolism and the maintenance of normoglycaemia and normolipidaemia. Insulin acts by binding to its cell surface receptor, thus activating the receptors intrinsic tyrosine kinase activity, resulting in receptor autophosphorylation and phosphorylation of several substrates. Tyrosine phosphorylated residues on the receptor itself and on subsequently bound receptor substrates provide docking sites for downstream signalling molecules, including adapters, protein serine/threonine kinases, phosphoinositide kinases and exchange factors. Collectively, those molecules orchestrate the numerous insulin-mediated physiological responses.A clear picture is emerging of the way in which insulin elicits several intracellular signalling pathways to mediate its physiologic functions. A further challenge, being pursued by several laboratories, is to understand the molecular mechanisms that underlie insulin action at the peripheral level, deregulation of which ultimately leads to hyperglycaemia and Type 2 diabetes.We review how circulating factors such as insulin itself, TNF-, interleukins, fatty acids and glycation products influence insulin action through insulin signalling molecules themselves or through other pathways ultimately impinging on the insulin-signalling pathway. Understanding how the mechanism by which molecular insulin action is modulated by these factors will potentially provide new targets for pharmacological agents, to enable the control of altered glucose and lipid metabolism and diabetes.Abbreviations AMPK Adenosine 5-monophosphate-activated protein kinase - Erk1/2 extracellular regulated kinase 1 and 2 - GSK-3 glycogen synthase kinase 3 - IKK inhibitor kappa B kinase - IR insulin receptor - JAKs janus kinases - JNK jun amino terminal kinase - MAPK mitogen activated protein kinase - PI3K phosphoinositide 3-kinase - PKB protein kinase B - PKC protein kinase C - S/T serine/threonine - SOCS suppressor of cytokine signalling - TOR target of rapamycin