RNA结合蛋白调节mRNA稳定性的作用机制

免疫稳态的维持涉及多种细胞因子的基因表达调控,其中在转录后水平对mRNA稳定性的调控起重要作用。ARE(AU-rich element)位于mRNA 3'UTR(非编码区),富含AU碱基,某些RNA结合蛋白通过识别结合ARE影响mRNA的稳定性。本文综合最新研究,概述了TTP、HUR等RNA结合蛋白对mRNA稳定性的调节机制及其在信号通路中的作用。     

HLA分子表达的转录调控及其意义

HLA分子是免疫应答过程中的重要分子,其表达受到多种因素的影响,调控HLA基因表达的主要环节在转录水平,转录起始点上游250bp中顺式作用元件和反式作用因子的相互作用是影响HLA基因转录的重要因素。了解HLA分子表达的复杂调控机制在免疫学中有着重要的理论和实用价值。     

microRNAs在肿瘤免疫中的调控作用

microRNAs（miRNAs）是一类转录后调控基因表达的内源性非编码微小RNA。愈来愈多的研究显示,miRNAs在肿瘤免疫应答中发挥重要调控作用。一方面,miRNAs通过转录后调控ICAM（intercellular adhesion molecule）、B7（CD80／86）和HLA—G（human leucocyte antigen—G）等肿瘤表面分子的表达,影响肿瘤的免疫原性;另一方面,miRNAs通过平衡肿瘤局部的细胞因子微环境或调控肿瘤免疫相关细胞的分化、发育及功能发挥,调节机体抗肿瘤免疫应答。为后续深入研究肿瘤与宿主的相互作用机制,以及发展更有效的肿瘤生物治疗手段,就目前miRNAs在肿瘤免疫中的调控作用的研究进展做一综述。     

植物MicroRNA功能的研究进展

MicroRNA(miRNA)是真核生物基因表达的一类负调控因子,植物miRNA主要在转录水平上通过介导靶基因的甲基化、在转录后水平介导靶mRNA的切割或降低靶mRNA的翻译来调节基因的表达,从而调控植物器官的形态建成、生长发育、激素分泌与信号转导以及植物对逆境胁迫因素的应答能力。该文主要综述了近年来植物miRNA在植物生长发育、激素调节与信号转导以及逆境胁迫应答中的重要作用,并针对miRNA的网络调控特征提出了今后miRNA功能研究的方向。     

P-body及其与mRNA的转录后调节之间的关系

mRNA在真核生物基因表达的转录后调控中发挥着重要作用.然而最新研究发现,一种被命名为P-body胞浆复合体是mRNA转录后调控过程中的一个重要场所,在基因表达过程中起到了至关重要的调控作用.该复合体富含多种功能的蛋白,同时还有细胞因子与RNA等成分组成,其功能特征为参与mRNA降解、翻译抑制、mRNA监视以及RNA介导基因沉默等重要生命活动过程.研究发现,P-body是特化的细胞成分.本文详细阐述P-body的发现、结构特征以及与mRNA转录后调控的关系,使人们对P-body的生物学功能有更深入地了解和认识,另一方面将有助于更进一步深入探讨基因的表达调节机制..     

马传染性贫血病毒减毒疫苗诱导马外周血单个核细胞白细胞介素12的转录

目的 探讨马传染性贫血病毒(EIAV)驴白细胞减毒疫苗(DLV)免疫马后,外周血单个核细胞(PBMC)中白细胞介素12(IL-12)mRNA转录水平与免疫保护应答的关系,揭示DLV的免疫保护机制。方法 应用分子克隆及实时定量反转录-聚合酶链反应(RT-PCR)技术,建立马PBMC中IL-12 mRNA转录水平的定量检测方法,在不同时间点定期观察4组(疫苗免疫组、阴性对照组、强毒株阳性对照组和EIAV自然感染组)12匹马PBMC中IL-12 mRNA转录水平及分布特征,同时监测体温变化等指标。疫苗株免疫动物8个月后,用EIAV强毒株攻击,观察攻击前、后IL-12 mRNA转录水平的变化。结果 DLV免疫马在免疫期内,PBMC中IL-12 mRNA转录的量略高于阴性对照组及自然感染组,但免疫后8个月用EIAV强毒株攻击,IL-12 mRNA转录量显著升高,4匹免疫马获得完全保护;强毒株阳性对照组IL-12转录量随疾病进展波动,发热期下降。结论 本研究首次证明EIAV减毒疫苗可诱导马外周血PBMC中IL-12基因高效转录,其转录水平与DLV的免疫保护密切相关。此结果在分子水平为阐明DLV的免疫保护机制提供了新的实验依据。     

病毒感染激活和抑制炎症小体的研究进展

促炎细胞因子白细胞介素1β(IL-1β)和白细胞介素18(IL-18)主要由巨噬细胞和树突细胞产生,是宿主针对各种侵入病原体产生先天免疫应答的重要介质。这些促炎细胞因子从病毒感染的细胞中分泌,被称为炎症小体的多蛋白复合物严格调控。根据炎症小体识别蛋白的种类,炎症小体主要分为两类,即核苷酸结合寡聚结构域样受体(NOD-like receptors,NLRs)和黑色素瘤缺乏因子2样受体(Absent in melanoma 2,AIM2)炎症小体。与其他宿主防御机制不同,炎症小体活化后,会诱导促炎细胞因子IL-1β、IL-18的成熟及分泌。适量的促炎细胞因子有利于控制病理性感染,但如果过量,则会对机体造成一定免疫损伤。本文主要对近几年有关病毒感染对炎症小体的激活和抑制机制进行了综述,总结分析了炎症小体在参与天然免疫反应及病毒感染致病过程中具有的重要作用。     

长链非编码RNA——抗病毒天然免疫应答的新兴调控因子

长链非编码RNA(long non-coding RNAs, lncRNAs)是长度超过200nt的非编码RNA分子的总称。作为一类重要的基因调控因子,lncRNAs在表观遗传学、转录及转录后等多个水平调控靶基因的表达。近年来的研究表明,许多lncRNAs可被病毒或干扰素(interferon, IFN)诱导表达,并作为调控因子在IFN介导的抗病毒天然免疫应答中调节抗病毒相关基因的表达。本文重点阐述了lncRNAs在IFN介导的抗病毒天然免疫应答中的调控作用,尤其是对干扰素刺激基因(interferon-stimulated genes, ISGs)转录的调控作用,并归纳了lncRNAs、IFN和ISGs形成的调控网络,以期为从事lncRNAs调控IFN介导的抗病毒天然免疫应答机制研究的相关科研人员提供参考。     

miRNA调控树突状细胞的分化、成熟和功能

miRNA是一类高度保守的内源性非编码小RNA,主要作用于靶mRNA的3′-非翻译区,在转录后水平调控基因表达。miRNA可调控造血细胞的增殖、分化及免疫系统的内环境稳定,在固有免疫和适应性免疫中发挥重要的作用。树突状细胞(dendritic cell,DC)是目前发现的抗原递呈能力最强的细胞,是启动、调控并维持免疫应答的中心环节。证据显示,miRNA也参与了树突状细胞的发育、分化和功能的调控,本文将综述miRNA与树突状细胞的关系的最新研究进展。     

植物水孔蛋白研究进展

水孔蛋白是植物重要的膜功能蛋白,不仅介导植物各组织间水分的高效转运,还参与植物体内其他物质的跨膜转运,同时在植物光合作用、生长发育、免疫应答以及信号转导等生理过程中也发挥重要作用。本文主要综述了植物水孔蛋白结构特征和分类,多种生理功能,以及其转录水平和转录后水平活性调节等方面的最新研究进展,并就如何系统全面地开展水孔蛋白参与植物生长发育过程的分子调控机制研究提出展望。植物水孔蛋白的深入研究有助于阐明植物体内物质转运的分子机理及其生理作用机制,对指导农业生产中作物的生长发育调控有重要理论意义。     

Poxviruses: Capturing Cytokines and Chemokines

Cytokines play a critical role in the regulation of immune responses and constitute important targets for virus immune evasion mechanisms. One strategy used by large DNA viruses is to encode proteins that mimic cytokines or cytokine receptors, which modulate the activity of cytokines during infection. Poxviruses encode a unique set of proteins that are secreted from the infected cell and function as soluble cytokine receptors or binding proteins and sequester tumor necrosis factor, interleukin-1β, or chemokines. Characterization of these poxvirus proteins is providing information on virus pathogenesis, the function of cytokines, and new strategies for immune modulation and therapeutic intervention.     

Distinct profiles of human B cell effector cytokines: a role in immune regulation?

There is growing interest in the fundamental roles that B cells may play in regulating immune responses. Emerging animal studies point to an important contribution of B cell effector cytokines to immune modulation, yet little is known about the factors regulating such cytokine production. We report that the profile of human B cell cytokine production is context dependent, being critically influenced by the balance of signals through the B cell receptor and CD40. B cells appropriately stimulated by sequential B cell receptor and CD40 stimulation proliferate and secrete TNF-alpha, lymphotoxin, and IL-6, which can act not only as autocrine growth and differentiation factors, but also serve to amplify the ongoing immune response. In contrast, CD40 stimulation alone, a mimic of a B cell receiving bystander T cell help in the absence of specific Ag recognition, induces negligible proinflammatory cytokines, but significant production of IL-10 that serves to suppress inappropriate immune responses. We thus describe a novel paradigm of reciprocal regulation of B cell effector cytokines, and ascribe active roles for human B cells in either promoting or suppressing local immune responses through context-dependent cytokine production.     

C-type lectin receptors and cytokines in fungal immunity

Fungi are the cause of opportunistic infections, predominantly in immunocompromised individuals although, primary fungal infections can occur in apparently healthy individuals. Successful host defence requires an effective innate and adaptive immune response. Central to host immune responses are the induction of cytokines; the signals which help to activate the innate immune system and which play a central role in directing the development of pathogen-specific immunity. C-type lectins play a central role in the recognition and shaping of immune responses to fungal pathogens, in part, through the induction and modulation of cytokine responses. Understanding which cytokines induce protective responses to these pathogens and how C-type lectins and other receptors direct cytokine production may allow development of novel antifungal therapies. Here we review the C-type lectins, their influence on cytokine production and subsequent immune responses in antifungal immunity.     

New weapons in the war on worms: identification of putative mechanisms of immune-mediated expulsion of gastrointestinal nematodes

Parasitic nematode infections of humans and livestock continue to impose a significant public health and economic burden worldwide. Murine models of intestinal nematode infection have proved to be relevant and tractable systems to define the cellular and molecular basis of how the host immune system regulates resistance and susceptibility to infection. While susceptibility to chronic infection is propagated by T helper cell type 1 cytokine responses (characterised by production of IL-12, IL-18 and interferon-gamma), immunity to intestinal-dwelling adult nematode worms is critically dependent on a type 2 cytokine response (controlled by CD4+T helper type 2 cells that secrete the cytokines IL-4, IL-5, IL-9 and IL-13). However, the immune effector mechanisms elicited by type 2 cytokines in the gut microenvironment that precipitate worm expulsion have remained elusive. This review focuses on new studies that implicate host intestinal epithelial cells as one of the dominant immune effector cells against this group of pathogens. Specifically, three recently identified type 2 cytokine-dependent pathways that could offer insights into the mechanisms of expulsion of parasitic nematodes will be discussed: (i) the intelectins, a new family of galactose-binding lectins implicated in innate immunity, (ii) the resistin-like molecules, a family of small cysteine-rich proteins expressed by multiple cell types, and (iii) cytokine regulation of intestinal epithelial cell turnover. Identifying how the mammalian immune response fights gastrointestinal nematode infections is providing new insights into host protective immunity. Harnessing these discoveries, coupled with identifying what the targets of these responses are within parasitic nematodes, offers promise in the design of a new generation of anti-parasitic drugs and vaccines.     

Cytokines and autoimmunity

Cytokines have crucial functions in the development, differentiation and regulation of immune cells. As a result, dysregulation of cytokine production or action is thought to have a central role in the development of autoimmunity and autoimmune disease. Some cytokines, such as interleukin-2, tumour-necrosis factor and interferons--ostensibly, the 'bad guys' in terms of disease pathogenesis--are well known for the promotion of immune and inflammatory responses. However, these cytokines also have crucial immunosuppressive functions and so, paradoxically, can also be 'good guys'. The balance between the pro-inflammatory and immunosuppressive functions of these well-known cytokines and the implications for the pathogenesis of autoimmune disease is the focus of this review.     

Distinct effector cytokine profiles of memory and naive human B cell subsets and implication in multiple sclerosis

Although recent animal studies have fuelled growing interest in Ab-independent functions of B cells, relatively little is known about how human B cells and their subsets may contribute to the regulation of immune responses in either health or disease. In this study, we first confirm that effector cytokine production by normal human B cells is context dependent and demonstrate that this involves the reciprocal regulation of proinflammatory and anti-inflammatory cytokines. We further report that this cytokine network is dysregulated in patients with the autoimmune disease multiple sclerosis, whose B cells exhibit a decreased average production of the down-regulatory cytokine IL-10. Treatment with the approved chemotherapeutic agent mitoxantrone reciprocally modulated B cell proinflammatory and anti-inflammatory cytokines, establishing that the B cell cytokine network can be targeted in vivo. Prospective studies of human B cells reconstituting following in vivo depletion suggested that different B cell subsets produced distinct effector cytokines. We confirmed in normal human B cell subsets that IL-10 is produced almost exclusively by naive B cells while the proinflammatory cytokines lymphotoxin and TNF-alpha are largely produced by memory B cells. These results point to an in vivo switch in the cytokine "program" of human B cells transitioning from the naive pool to the memory pool. We propose a model that ascribes distinct and proactive roles to memory and naive human B cell subsets in the regulation of memory immune responses and in autoimmunity. Our findings are of particular relevance at a time when B cell directed therapies are being applied to clinical trials of several autoimmune diseases.     

IL-10 Dependent Suppression of Type 1, Type 2 and Type 17 Cytokines in Active Pulmonary Tuberculosis

Background

Although Type 1 cytokine responses are considered protective in pulmonary tuberculosis (PTB), their role as well as those of Type 2, 17 and immunoregulatory cytokines in tuberculous lymphadenitis (TBL) and latent tuberculosis (LTB) have not been well studied.

Aim and Methods

To identify cytokine responses associated with pulmonary tuberculosis (TB), TB lymphadenitits and latent TB, we examined mycobacterial antigen-specific immune responses of PTB, TBL and LTB individuals. More specifically, we examined ESAT-6 and CFP-10 induced Type 1, Type 2 and Type 17 cytokine production and their regulation using multiplex ELISA.

Results

PTB individuals exhibited a significantly lower baseline as well as antigen-specific production of Type 1 (IFNγ, TNFα and IL-2); Type 2 (IL-4) and Type 17 (IL-17A and IL-17F) cytokines in comparison to both TBL and LTB individuals. TBL individuals exhibited significantly lower antigen-specific IFNγ responses alone in comparison to LTB individuals. Although, IL-10 levels were not significantly higher, neutralization of IL-10 during antigen stimulation resulted in significantly enhanced production of IFNγ, IL-4 and IL-17A in PTB individuals, indicating that IL-10 mediates (at least partially) the suppression of cytokine responses in PTB.

Conclusion

Pulmonary TB is characterized by an IL-10 dependent antigen-specific suppression of Type 1, Type 2 and Type 17 cytokines, reflecting an important association of these cytokines in the pathogenesis of active TB.     

Potential effects of HMGB1 on viral replication and virus infection-induced inflammatory responses: A promising therapeutic target for virus infection-induced inflammatory diseases

Inflammatory responses, characterized by the overproduction of numerous proinflammatory mediators by immune cells, is essential to protect the host against invading pathogens. Excessive production of proinflammatory cytokines is a key pathogenic factor accounting for severe tissue injury and disease progression during the infection of multiple viruses, which are therefore termed as “cytokine storm”. High mobility group box 1 (HMGB1), a ubiquitous DNA-binding protein released either over virus-infected cells or activated immune cells, may act as a proinflammatory cytokine with a robust capacity to potentiate inflammatory response and disease severity. Moreover, HMGB1 is a host factor that potentially participates in the regulation of viral replication cycles with complicated mechanisms. Currently, HMGB1 is regarded as a promising therapeutic target against virus infection. Here, we provide an overview of the updated studies on how HMGB1 is differentially manipulated by distinct viruses to regulate viral diseases.