病毒miRNA与免疫逃逸

微小RNA（microRNA,miRNA）是一种非编码的小分子RNA,长度一般在22 nt左右,通过与mRNA 3＇UTR的特异性结合介导转录后调控过程。现已鉴定出的miRNA涵盖了从植物到人类的多个物种,并参与了调节生长、免疫、凋亡等多种生命活动。最近发现,DNA病毒感染宿主时也能编码产生miRNA,并在病毒免疫逃逸中扮演着重要角色。病毒感染是一个复杂的过程,病毒需要逃脱免疫系统才能对宿主产生持续性感染,而病毒miRNA能调控宿主和自身基因表达,帮助病毒感染宿主,且因其本身没有免疫原性,而成为病毒逃避免疫应答的重要工具,但其中的分子机制尚不十分清楚。该文就病毒miRNA如何调控病毒自身与宿主基因进行免疫逃逸的近期研究作一综述。     

病毒编码的miRNA:基因表达新的调控因子

微小RNA(microRNA,miRNA)是一类长约22个核苷酸的RNA,在数量、序列、结构、表达和功能上具有多样性。目前,通过生物信息学手段和分子克隆方法,已发现了3518种miRNA,在控制细胞的生长发育、分化、凋亡等过程中发挥着十分重要的作用。最近研究发现疱疹病毒、多瘤病毒、逆转录病毒的某些病毒基因组也能够编码miRNA,这些miRNA在调控病毒基因自身表达以及病毒与宿主相互作用方面可能起重要的作用。某些病毒甚至能够利用宿主体内的miRNA调控其自身表达。找出病毒可能编码的miRNA,探索其对病毒感染、复制、表达的作用,有助于病毒分子生物学的研究,也会为研发防治病毒的新方法和新途径提供新的思路。     

病毒来源的microRNA的研究进展

微小RNA(microRNA,miRNA/miR)是一类长度约为18～22个核苷酸的小非编码单链RNA,能够参与机体发育、细胞增殖、分化和肿瘤发生等一系列生物过程。病毒与宿主细胞一样,也可以编码miRNA,并在病毒感染过程中发挥重要的作用。本文从病毒编码miRNA的发现,经典与非经典的生物合成途径,以及病毒编码miRNA对宿主细胞和病毒自身作用机制等方面进行概述,以期为研究病毒来源的miRNA的生物学功能提供一定参考。     

病毒miRNA的研究进展

MicmRNA（miRNA）是指一组由多细胞生物产生的小片段非编码RNA,是真核生物基因调控重要的组成成分。近些年来有研究者在病毒中也同样发现编码产生的miRNA,其可通过RNA干扰途径参与调节感染过程以及促进癌症的发生。因此阻止病毒小RNA生成有望成为治疗病毒相关疾病的新方法。     

microRNA在人类免疫缺陷病毒感染中的作用

microRNA(miRNA)对调控基因表达有着重要作用,病毒与宿主在miRNA水平存在着复杂的"对话"。研究显示,人类免疫缺陷病毒(HIV)可能编码病毒miRNA(vmiRNA),通过维持病毒潜伏、保护感染细胞免于凋亡或外力刺激下的细胞死亡等方式,在HIV病理过程中发挥重要作用。宿主miRNA则参与到了抗HIV的防御性机制中,但也面临HIV调控相应宿主miRNA、编码RNA沉默抑制物等多种阻力。深入研究HIV与宿主间miRNA水平上的动态相互作用,有助于进一步了解HIV的致病机理,开发新的治疗策略。     

脊椎动物病毒与微RNA

抗病毒作用是RNA干扰(RNAi)在植物及低等动物中的一个重要功能。一方面,宿主细胞编码并表达短干扰RNA(siRNA),对入侵细胞的病毒产生抑制作用;另一方面,病毒编码并表达特定的RNA或蛋白质,以对抗宿主细胞的RNAi。在部分脊椎动物病毒中已经发现多种由病毒编码的微RNA(miRNA),它们对病毒及细胞基因的表达有重要的调节作用。同时,某些细胞miRNA也可影响脊椎动物病毒的复制。然而,RNAi在脊椎动物细胞中是否具有广谱抗病毒活性、脊椎动物病毒又是否普遍编码miRNA及普遍具备拮抗RNAi的机制?目前尚无定论,有待于进一步的研究加以阐明。     

病毒microRNA研究进展

microRNA(miRNA)是一类存在于多细胞生物中长约21-24nt的非编码RNA分子,它们与靶mRNA分子互补结合抑制蛋白翻译或导致mRNA降解,从而调控靶基因表达。miRNA已被证实在多种代谢途径中发挥重要作用,调节包括细胞分化和分裂、细胞凋亡及癌症发生在内的多个细胞过程。利用生物信息学以及分子克隆的方法在线虫、哺乳动物以及植物中已发现超过4000条miRNA。最近在病毒中也发现有miRNA基因存在,通过对病毒miRNA靶基因的预测,推测其在病毒复制过程中发挥重要的调控作用。目前病毒编码的miRNA分子的特点、转录机制、功能、进化保守性以及病毒与宿主miRNA的关系都已有一定的了解。对于病毒相关miRNA研究的深入,必将对认识病毒-宿主相互作用以及相关疾病的治疗带来新的启示。     

疱疹病毒编码的miRNA与病毒潜伏

MicroRNA(miRNA)是一类长度约为22核苷酸的非编码小RNA,能够在转录后水平上对基因的表达进行调节,进而影响细胞活动。病毒依赖宿主细胞进行复制。宿主可以通过免疫系统抵御病毒的入侵,病毒会发展不同的策略用于逃避宿主的免疫。目前,一些病毒已经被证明可以编码miRNA来重塑细胞环境。疱疹病毒是一类双链DNA病毒,该类病毒能够在宿主体内保持长久的潜伏状态。疱疹病毒家族的很多成员都能够表达miRNA。越来越多实验结果表明,疱疹病毒的miRNA对于调节病毒潜伏以及抑制宿主的抗病毒免疫反应方面发挥着重要的作用。该文讨论了疱疹病毒所编码的miRNA的产生过程和功能,希望有助于了解疱疹病毒的潜伏感染以及病毒与宿主的相互作用。     

miRNA调控昆虫与病毒互作的研究进展

miRNA是一类重要的非编码小分子RNA,可在转录后水平调控基因表达,参与并调控机体的生长发育、细胞分化、细胞凋亡、抗病毒、激素分泌、神经系统等重要生物过程。本文介绍了miRNA的合成途径及其生物学功能,并重点阐述miRNA在昆虫宿主与病毒互作中的调控作用:通过mRNA剪切或抑制靶标蛋白的翻译负调控靶标基因,实现基因沉默,调控约50%的蛋白质编码基因的表达,许多miRNA已被发现在人体和植物中参与调控病毒的复制侵染,因此也有可能控制害虫对病毒抗性的产生,恢复病毒对害虫的防控作用。最近有研究将害虫特异的miRNA转入植物,干扰昆虫蜕皮过程导致幼虫的死亡,作为Bt转基因作物的替代,成为抗虫基因工程的新选择。研究miRNA在昆虫对病毒抗性产生中的作用,将为昆虫抗病毒机制的研究提供新的思路,为害虫生物防治措施的应用及改进提供理论参考。     

病毒编码的miRNAs研究进展

miRNA是一类在多种基因调控过程中起重要作用的小RNA分子。最近已经发现了许多病毒编码miRNAs,这表明病毒也利用这一重要的基因调控模式。尽管大多数病毒编码miRNAs的功能还不知道,但是目前已经发现一些病毒miRNAs参与了CTL逃避、潜伏感染介导和凋亡抑制等过程。揭示病毒miRNA（viral miRNA,vmiRNA）在致病过程中的作用不仅有助于开发有效的抗病毒疗法,而且能为开发抗病毒药物提供新的分子靶标。因此,本文就将vmiRNAs的最新研究进展做以综述。     

MicroRNAs and their role in viral infection

Recently, a class of about 22 nucleotides (nt) small RNA has been discovered in many eukaryotes, termed microRNAs (miRNAs), which have a variety of functions. Many recent findings have demonstrated that viruses can also encode their own miRNAs. Meanwhile, other findings reveal a relationship between host miRNA and viral infection. These findings suggest a tight relationship between host and viral infection via miRNA pathway. This article introduces the miRNAs encoded by viruses and reviews the advances of the interaction of the mammalian host miRNAs and viral infection.     

MicroRNAs and their role in viral infection

Recently,a class of about 22 nucleotides (nt)small RNA has been discovered in many eukaryotes,termed microRNAs (miRNAs),which have a variety of functions.Many recent findings have demonstrated that viruses can also encode their own miRNAs.Meanwhile,other findings reveal a relationship between host miRNA and viral infection.These findings suggest a tight relationship between host and viral infection via miRNA pathway.This article introduces the miRNAs encoded by viruses and reviews the advances of the interaction of the mammalian host miRNAs and viral infection.     

Identification and function of MicroRNAs encoded by herpesviruses

MicroRNAs (miRNAs) play important roles in eukaryotes,plants and some viruses.It is increasingly clear that miRNAs-encoded by viruses can affect the viral life cycle and host physiology.Viral miRNAs could repress the innate and adaptive host immunity,modulate cellular signaling pathways,and regulate the expression of cellular and viral genes.These functions facilitate viral acute and persistent infections,and have profound effects on the host cell survival and disease progression.Here,we discuss the miRNAs encoded by herpesviruses,and their regulatory roles involved in virus-host interactions.     

常见肝炎病毒感染性疾病相关miRNA功能研究进展

病毒感染引发的疾病一直威胁着人类健康。Mi RNA是真核生物表达的一类重要的小分子RNA,可特异性的调节基因与蛋白的表达。mi RNA的研究为病毒性疾病的发生发展提供了新思路,为目前热点研究领域。随着mi RNA的研究深入,一些病毒感染中相关mi RNA的功能也被相继报道,如有些mi RNA具有抑制病毒感染宿主细胞的功能,有些mi RNA则可促进病毒在宿主细胞中的复制,有些mi RNA却参与病毒相关疾病的发生,还有些mi RNA则可作为病毒感染性疾病的特异性生物标志物。本文主要以两种常见肝炎病毒:HBV、HCV为例来系统阐述mi RNA在病毒感染中的相关功能。     

MicroRNAs and human retroviruses

MicroRNAs (miRNAs) are small non-coding RNAs that control a multitude of critical processes in mammalian cells. Increasing evidence has emerged that host miRNAs serve in animal cells to restrict viral infections. In turn, many viruses encode RNA silencing suppressors (RSS) which are employed to moderate the potency of the cell's miRNA selection against viral replication. Some viruses also encode viral miRNAs. In this review, we summarize findings from human immunodeficiency virus type 1 (HIV-1) and human T-cell leukemia virus type 1 (HTLV-1) that illustrate examples of host cell miRNAs that target the viruses, of RSS encoded by viruses, and of host cell miRNA profile changes that are seen in infected cells. This article is part of a Special Issue entitled: MicroRNAs in viral gene regulation.     

Functional similarity analysis of human virus-encoded miRNAs

miRNAs are a class of small RNAs that regulate gene expression via RNA silencing machinery. Some viruses also encode miRNAs, contributing to the complex virus-host interactions. A better understanding of viral miRNA functions would be useful in designing new preventive strategies for treating diseases induced by viruses. To meet the challenge for how viruses module host gene expression by their encoded miRNAs, we measured the functional similarities among human viral miRNAs by using a method we reported previously. Higher order functions regulated by viral miRNAs were also identified by KEGG pathway analysis on their targets. Our study demonstrated the biological processes involved in virus-host interactions via viral miRNAs. Phylogenetic analysis suggested that viral miRNAs have distinct evolution rates compared with their corresponding genome.     

Identification of microRNAs of the herpesvirus family

Epstein-Barr virus (EBV or HHV4), a member of the human herpesvirus (HHV) family, has recently been shown to encode microRNAs (miRNAs). In contrast to most eukaryotic miRNAs, these viral miRNAs do not have close homologs in other viral genomes or in the genome of the human host. To identify other miRNA genes in pathogenic viruses, we combined a new miRNA gene prediction method with small-RNA cloning from several virus-infected cell types. We cloned ten miRNAs in the Kaposi sarcoma-associated virus (KSHV or HHV8), nine miRNAs in the mouse gammaherpesvirus 68 (MHV68) and nine miRNAs in the human cytomegalovirus (HCMV or HHV5). These miRNA genes are expressed individually or in clusters from either polymerase (pol) II or pol III promoters, and share no substantial sequence homology with one another or with the known human miRNAs. Generally, we predicted miRNAs in several large DNA viruses, and we could neither predict nor experimentally identify miRNAs in the genomes of small RNA viruses or retroviruses.