抗病毒天然免疫通路中IRF-3调控新机制

干扰素调节因子-3(interferon regulatory factor-3,IRF-3)是IRF家族中重要 转录因子之一,在调控干扰素(interferon, IFN)基因表达和抗病毒天然免疫反应中具有重要作 用. 最新发现的MITA (mediator of IRF-3 activation, 又称STING/ERIS)蛋白是宿主抗病 毒天然免疫反应中的一种重要调节分子. 病毒侵染时,MITA与IRF-3相互作用,特异性激活 IRF-3,并募集TANK结合激酶1（TANK binding kinase 1, TBK1）与IFN通路中的线粒体抗 病毒信号蛋白MAVS(mitochondrial anti-viral signaling protein)形成复合物,且MITA可 被TBK1磷酸化,诱导Ⅰ型IFN及IFN刺激基因(interferon stimulate genes, ISG)的表达 ,诱发抗病毒天然免疫反应. 同时还发现,泛素连接酶RNF5（ring finger protein 5）可对MITA 发生泛素化修饰从而抑制其对IRF-3活化,实现对宿主抗病毒天然免疫反应负调节作用. 本 室研究发现,严重性急性呼吸系统综合症冠状病毒(severe acute respiratory syndrome co ronavirus, SARS-CoV）和人类新型冠状病毒（human coronavirus NL63, HCoV-NL63）的 木瓜样蛋白酶（papain-like protease, PLP）利用其特有的去泛素化酶（deubiquitinase, DUB）活性,通过宿主细胞泛素-蛋白酶体信号系统对IRF-3的泛素化等翻译后修饰进行调节 ,从而成为该种病毒逃逸机体抗病毒防御系统主要手段之一.     

端粒及端粒酶活性的调控机制

广义的端粒由帽子、双链的串联重复序列的DNA核心部分及亚端粒构成,其结合蛋白是一个复合体,由TRF1、TRF2、TIN2、Pot1、TPP1、RAP1 6个亚单位组成;另外,还结合组蛋白的特定成分H3K9三甲基聚合体和H4K20三甲基聚合体。端粒酶主要由hTerc、hTert、dyskerin构成。端粒的功能主要受端粒酶的活性调控;而端粒酶活性主要受hTert及hTerc的转录水平和转录后的剪切、hTert的翻译等因素的调控。端粒与端粒酶结构和功能的异常与细胞衰老及肿瘤的发生、发展关系密切。     

Interferon Regulatory Factor-8 Is Important for Histone Deacetylase Inhibitor-Mediated Antitumor Activity

The notion that epigenetic alterations in neoplasia are reversible has provided the rationale to identify epigenetic modifiers for their ability to induce or enhance tumor cell death. Histone deacetylase inhibitors (HDACi) represent one such class of anti-neoplastic agents. Despite great interest for clinical use, little is known regarding the molecular targets important for response to HDACi-based cancer therapy. We had previously shown that interferon regulatory factor (IRF)-8, originally discovered as a leukemia suppressor gene by regulating apoptosis, also regulates Fas-mediated killing in non-hematologic tumor models. Furthermore, we and others have shown that epigenetic mechanisms are involved in repression of IRF-8 in tumors. Therefore, in our preclinical tumor model, we tested the hypothesis that IRF-8 expression is important for response to HDACi-based antitumor activity. In the majority of experiments, we selected the pan-HDACi, Trichostatin A (TSA), because it was previously shown to restore Fas sensitivity to tumor cells. Overall, we found that: 1) TSA alone and more so in combination with IFN-γ enhanced both IRF-8 expression and Fas-mediated death of tumor cells in vitro; 2) TSA treatment enhanced IRF-8 promoter activity via a STAT1-dependent pathway; and 3) IRF-8 was required for this death response, as tumor cells rendered IRF-8 incompetent were significantly less susceptible to Fas-mediated killing in vitro and to HDACi-mediated antitumor activity in vivo. Thus, IRF-8 status may underlie a novel molecular basis for response to HDACi-based antitumor treatment.     

Apoptotic Regulation of T Cells and Absence of Immune Deficiency in Virus-Infected Gamma Interferon Receptor Knockout Mice

Acute viral infections often induce a transient period of immune deficiency in which the host’s T cells fail to proliferate in response to T-cell mitogens and fail to make an antigen-specific memory recall response. This has been associated with the enhanced sensitivity of these highly activated T cells to undergo apoptosis, or activation-induced cell death (AICD), upon T-cell receptor ligation. Here we show that gamma interferon receptor-deficient (IFN-γ R^−/−) mice mount a T-cell response to lymphocytic choriomeningitis virus (LCMV) infection but fail to undergo the transient immune deficiency. Instead, their T cells were hyperproliferative and relatively, but not completely, resistant to AICD. The immune response returned to homeostasis, but with delayed kinetics, in parallel with delayed clearance of the virus. Wild-type mice receiving high doses of disseminating LCMV Clone 13 are known to undergo clonal exhaustion of their virus-specific cytotoxic T lymphocytes (CTL). To determine whether this process was mediated by AICD associated with IFN-γ or with Fas-Fas ligand interactions, LCMV-specific precursor CTL frequencies were examined in LCMV Clone 13-infected IFN-γ R^−/− or lpr (Fas-deficient) mice. In both instances, viral persistence was established and CTL precursors were greatly eliminated. This finding indicates that clonal exhaustion of CTL does not require IFN-γ or Fas, even though both molecules influence AICD and the transient immune deficiency seen in the LCMV infection.     

siRNA降低肿瘤细胞端粒酶活性的研究

利用T7RNA聚合酶在体外转录合成针对端粒酶模板RNA(hTR)的两条互补单链RNA,经退火形成siRNA.采用TRAP法检测端粒酶活性,分析siRNA在肿瘤细胞裂解液的干扰作用.结果表明:T7RNA聚合酶可以高效地转录出短的单链RNA,制备的siRNA可明显地降低肿瘤端粒酶的活性,其降低肿瘤端粒酶活性的作用强于等量的反义链RNA.该法廉价、高效、简易,有可能为肿瘤的基因治疗提供一种新的探索途径.     

Notch信号通路对免疫细胞的调节作用

Notch家族是一组进化上高度保守的跨膜蛋白,可以广泛调节细胞的发育和分化.越来越多的研究发现,Notch信号通路可以通过调节多种免疫细胞的发育和功能来调节机体的免疫功能.本文综述了Notch家族的组成,其调控因素及其靶基因,Notch信号通路对造血干细胞、固有免疫细胞和适应性免疫细胞的调节作用以及Notch信号通路参与的免疫相关疾病.Notch信号通路对造血干细胞、巨噬细胞、树突状细胞、肥大细胞、T和B淋巴细胞的发育和功能的发挥都有重要的调节作用,并参与肿瘤、病毒感染、炎症反应和自身免疫疾病等免疫相关疾病的发生.     

Regulatory T Cells and Immune Tolerance in the Intestine

A fundamental role of the mammalian immune system is to eradicate pathogens while minimizing immunopathology. Instigating and maintaining immunological tolerance within the intestine represents a unique challenge to the mucosal immune system. Regulatory T cells are critical for continued immune tolerance in the intestine through active control of innate and adaptive immune responses. Dynamic adaptation of regulatory T-cell populations to the intestinal tissue microenvironment is key in this process. Here, we discuss specialization of regulatory T-cell responses in the intestine, and how a breakdown in these processes can lead to chronic intestinal inflammation.The mammalian host harbors a vast and diverse commensal microbiota. The gastrointestinal tract is a site of preferential colonization by commensal organisms, consisting of fungal, viral, and bacterial species. Initial microbial colonization of the host occurs during birth and continues until a stable commensal microbiota is established during childhood (Tannock 2007). Colonization of the gastrointestinal tract is a vital triggering stimuli for maturation of the mucosal immune system, and the presence of a commensal microbiota further benefits the host by providing resistance to invading pathogens and metabolism of dietary components (Macpherson et al. 2005; Hooper et al. 2012). A dynamic molecular dialogue between microbiota and host ensures this colonization occurs as a state of mutualism, the breakdown of which can result in chronic pathologies of the gastrointestinal tract, such as inflammatory bowel diseases (IBD) (Kaser et al. 2010; Maloy and Powrie 2011). Complex interactions between the microbiota, mucosal immune system, and the intestinal tissue cells provide multiple layers of regulation that control intestinal immunity. Here, we focus on the role of regulatory T cells as key components of intestinal homeostasis and discuss how tissue-specific adaptations contribute to their function when patrolling this challenging frontier.     

致瘤病毒诱导端粒酶活性的几种途径

端粒酶的重新活化是细胞永生化和肿瘤发生发展过程中的一个关键步骤。致瘤病毒通过调控端粒酶催化亚单位TERT的转录、磷酸化和核移位,模拟端粒酶RNA组分(TR),以及失活端粒酶抑制子等多种途径,从而重新活化端粒酶,促使细胞获得无限生长的能力。     

口服卡介菌诱导免疫耐受的CD4+CD25+调节性T 细胞机制研究

目的:研究口服卡介菌诱导免疫耐受对CD4+CD25+调节性T细胞的影响。方法:采用口服MPB制备EAE大鼠模型,随机分为BCG组(0.5mg/kg)和EAE模型组(PBS),每组各15只,连续经口灌服给药14d,同时选取15只健康大鼠作为对照组。分别于免疫后15d、27d流式细胞术检测外周血、胸腺及脾脏中CD4+CD25+T淋巴细胞百分率,ELISA检测血清IL-6、TGF-β、IgE、IgG含量。结果:与EAE模型组相比,免疫后BCG组大鼠外周血、胸腺及脾脏中CD4+CD25+T淋巴细胞百分率增加,血清IL-6、TGF-β含量上升,血清IgE、IgG抗体水平下降。结论:口服BCG通过上调淋巴器官中CD4+CD25+T淋巴细胞比例,抑制效应性T细胞活性,发挥免疫耐受作用。     

Telomerase Activity Impacts on Epstein-Barr Virus Infection of AGS Cells

The Epstein-Barr virus (EBV) is transmitted from host-to-host via saliva and is associated with epithelial malignancies including nasopharyngeal carcinoma (NPC) and some forms of gastric carcinoma (GC). Nevertheless, EBV does not transform epithelial cells in vitro where it is rapidly lost from infected primary epithelial cells or epithelial tumor cells. Long-term infection by EBV, however, can be established in hTERT-immortalized nasopharyngeal epithelial cells. Here, we hypothesized that increased telomerase activity in epithelial cells enhances their susceptibility to infection by EBV. Using HONE-1, AGS and HEK293 cells we generated epithelial model cell lines with increased or suppressed telomerase activity by stable ectopic expression of hTERT or of a catalytically inactive, dominant negative hTERT mutant. Infection experiments with recombinant prototypic EBV (rB95.8), recombinant NPC EBV (rM81) with increased epithelial cell tropism compared to B95.8, or recombinant B95.8 EBV with BZLF1-knockout that is not able to undergo lytic replication, revealed that infection frequencies positively correlate with telomerase activity in AGS cells but also partly depend on the cellular background. AGS cells with increased telomerase activity showed increased expression mainly of latent EBV genes, suggesting that increased telomerase activity directly acts on the EBV infection of epithelial cells by facilitating latent EBV gene expression early upon virus inoculation. Thus, our results indicate that infection of epithelial cells by EBV is a very selective process involving, among others, telomerase activity and cellular background to allow for optimized host-to-host transmission via saliva.     

Small-Molecule PAPD5 Inhibitors Restore Telomerase Activity in Patient Stem Cells

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