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。     

疱疹病毒编码的miRNAs的研究进展

MicroRNAs (miRNAs)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miRNAs,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。最近研究发现某些病毒基因组也能够编码miRNAs,其中大部分为疱疹病毒,这些miRNAs在调控病毒自身表达以及病毒与宿主相互作用方面可能起到重要的作用。找出病毒可能编码的miRNAs,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。     

Virus-encoded microRNAs: novel regulators of gene expression

MicroRNAs (miRNAs) are a class of small RNAs that have recently been recognized as major regulators of gene expression. They influence diverse cellular processes ranging from cellular differentiation, proliferation, apoptosis and metabolism to cancer. Bioinformatic approaches and direct cloning methods have identified >3500 miRNAs, including orthologues from various species. Experiments to identify the targets and potential functions of miRNAs in various species are continuing but the recent discovery of virus-encoded miRNAs indicates that viruses also use this fundamental mode of gene regulation. Virus-encoded miRNAs seem to evolve rapidly and regulate both the viral life cycle and the interaction between viruses and their hosts.     

Identification of Ebola virus microRNAs and their putative pathological function

Ebola virus(EBOV),a member of the filovirus family,is an enveloped negative-sense RNA virus that causes lethal infections in humans and primates.Recently,more than 1000 people have been killed by the Ebola virus disease in Africa,yet no specific treatment or diagnostic tests for EBOV are available.In this study,we identified two putative viral microRNA precursors(pre-miRNAs)and three putative mature microRNAs(miRNAs)derived from the EBOV genome.The production of the EBOV miRNAs was further validated in HEK293T cells transfected with a pcDNA6.2-GW/EmGFP-EBOV-pre-miRNA plasmid,indicating that EBOV miRNAs can be produced through the cellular miRNA processing machinery.We also predicted the potential target genes of these EBOV miRNAs and their possible biological functions.Overall,this study reports for the first time that EBOV may produce miRNAs,which could serve as non-invasive biomarkers for the diagnosis and prognosis of EBOV infection and as therapeutic targets for Ebola viral infection treatment.     

Adenovirus and miRNAs

Adenovirus infection has a tremendous impact on the cellular silencing machinery. Adenoviruses express high amounts of non-coding virus associated (VA) RNAs able to saturate key factors of the RNA interference (RNAi) processing pathway, such as Exportin 5 and Dicer. Furthermore, a proportion of VA RNAs is cleaved by Dicer into viral microRNAs (mivaRNAs) that can saturate Argonaute, an essential protein for miRNA function. Thus, processing and function of cellular miRNAs is blocked in adenoviral-infected cells. However, viral miRNAs actively target the expression of cellular genes involved in relevant functions such as cell proliferation, DNA repair or RNA regulation. Interestingly, the cellular silencing machinery is active at early times post-infection and can be used to control the adenovirus cell cycle. This is relevant for therapeutic purposes against adenoviral infections or when recombinant adenoviruses are used as vectors for gene therapy. Manipulation of the viral genome allows the use of adenoviral vectors to express therapeutic miRNAs or to be silenced by the RNAi machinery leading to safer vectors with a specific tropism. This article is part of a "Special Issue entitled:MicroRNAs in viral gene regulation".     

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.     

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。     

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。