长链非编码RNA在肿瘤发生和天然免疫中的功能与调控机制

摘要:长链非编码RNA(Long non-coding RNA,lncRNA)是长度大于200个核苷酸的不具有编码蛋白质能力的RNA分子。长链非编码RNA一度被认为是转录“噪音”。然而,近年来大量的实验证据表明长链非编码RNA通过表观遗传修饰与转录调控、转录后加工、翻译调控等多种机制,在细胞生命活动中发挥重要作用。lncRNA的异常表达和调控往往与肿瘤发生、宿主抗病原微生物感染的天然免疫应答密切相关,本文就这些方面研究进展进行综述。     

长链非编码RNA-重编码调控因子与肿瘤的研究进展

长链非编码RNA(LncRNA)是一类长度超过200核苷酸且不编码蛋白质的RNA分子。肿瘤基因组学的快速发展使LncRNA在人类肿瘤研究方面的功能更加显著。基因间LncRNA(LincRNA)-重编码调控因子(ROR)作为一种新型LncRNA,其作用机制在结直肠癌、胰腺癌、乳腺癌的发生发展过程中有报道。我们就LincRNA-ROR在肿瘤中的相关调控机制以及在不同肿瘤中的研究现状做简要综述,以便对其有进一步了解。     

植物长链非编码RNA调控发育与胁迫应答的研究进展

长链非编码RNAs（long non-coding RNAs,lncRNAs）是一类长度大于200个核苷酸、缺乏明显开放阅读框、很少或者不具有蛋白编码潜能的内源性RNA。鉴于lncRNAs低表达和低保守性的特点,早期阶段认为其是转录副产物,在生物体内不发挥生物学功能。随着对非编码RNA的深入研究,lncRNAs被认为是一种调控其他类型RNA的重要基因组分,参与发育和胁迫应答生物学过程。本文主要阐述lncRNAs的来源及分类、作用机制、lncRNAs在植物发育和胁迫应答方面的生物学功能,为lncRNAs在作物生产育种中的应用研究提供参考。     

长链非编码RNA研究进展

基因组计划研究表明, 在组成人类基因组的30亿个碱基对中, 仅有1.5%的核酸序列用于蛋白质编码, 其余98.5%的基因组为非蛋白质编码序列。这些序列曾被认为是在进化过程中累积的“垃圾序列”而未予以关注, 但在随后启动的ENCODE研究计划中却发现, 75%的基因组序列能够被转录成RNA, 其中近74%的转录产物为非编码RNA(Non-coding RNA, ncRNA)。在非编码RNA中, 绝大多数转录本的长度大于200个碱基, 这些“长链非编码RNA(Long non-coding RNA, lncRNA)”能够在转录及转录后水平上调节蛋白编码基因的表达, 从而广泛地参与包括细胞分化、个体发育在内的重要生命过程, 其异常表达还与多种人类重大疾病的发生密切相关。文章综述了长链非编码RNA的发现、分类、表达、作用机制以及其在个体发育和人类疾病中的作用。     

转座子来源的植物长链非编码RNA

转座子是基因组的重要组分, 影响基因组的结构与稳定。长链非编码RNA (lncRNA)在转录及转录后水平调控多个生物学过程。转座子与lncRNA是物种进化的重要驱动力。含有转座子序列的lncRNA在自然界广泛存在。该文对植物lncRNA的发掘策略和功能研究进行概述, 围绕植物转座子来源lncRNA (TE-lncRNA)的分布和功能展开综述, 并对植物TE-lncRNA的调控机制、表观修饰及育种潜势等进行探讨与展望。     

长链非编码RNA在生物体中的调控作用

长链非编码RNA(Long non-coding RNA,lncRNA)的发现是基因组学和分子生物学研究领域的重要进展。lncRNA在生命活动中具有重要的调节功能,其表达紊乱与多种人类疾病的发生发展密切相关。研究表明,几乎所有的调控性lncRNA通过与不同种类的生物大分子,如DNA、RNA和蛋白质发生相互作用而行使其功能。文章概述了lncRNA在表观遗传学水平、转录水平及转录后水平调控基因表达的效应机制,并探讨了lncRNA如何在肿瘤发生和宿主防御过程中行使功能。不同于小分子ncRNA通过碱基互补配对调控靶基因的表达,大多数已鉴定的lncRNA通过调节蛋白质活性或维持蛋白质复合物的完整性发挥其生物学功能。因此,鉴定lncRNA-蛋白质相互作用可能是理解lncRNA功能的首要任务。     

长链非编码RNA研究进展

长链非编码RNA(long noncoding RNAs,lncRNAs)是一类长度超过200nt的非编码RNA分子,通过信号分子、诱饵分子、引导分子、支架分子等4种方式在转录水平和转录后水平调控基因的表达。lncRNAs的表达水平相对于蛋白编码基因较低,但它们在X染色体沉默、基因组印迹、染色体修饰、转录激活、转录干扰以及核内运输等方面具有重要的功能。相对于研究较多的非编码小RNA,lncRNAs的功能目前尚不完全清楚。该文从lncRNAs的起源、分类、分子机制、功能和进化等方面综述了lncRNAs的研究进展,为进一步探究lncRNAs的功能和作用机制提供依据。     

长链非编码RNA在心血管疾病发病中的研究进展

心血管疾病是一种威胁人类,特别是中老年人健康的常见疾病。每年死于心血管疾病的人数位居全球榜首。长链非编码RNA是长度大于200个核苷酸且不编码蛋白质的RNA,也是体内表达数量最多的RNA。越来越多的研究发现长链非编码RNA在心血管疾病的发生、发展中有重要的调节作用。本文将就长链非编码RNA和心血管疾病的最新研究进展进行综述。     

植物长链非编码RNA的研究进展

长链非编码RNA(long non-coding RNAs,lnc RNAs)是真核生物中一类长度大于200个核苷酸、无蛋白编码能力或编码能力极低的RNA转录本。lnc RNA种类和功能的多样性导致了对其进行研究的复杂性,特别是对植物中lnc RNA的认识相当有限。该文就近年来植物中已发现的lnc RNA的种类、相关转录酶、参与的生物学过程、发挥功能的分子机制以及其相关的研究策略等方面进行综述和展望,以期为深入认识植物lnc RNA提供借鉴。     

长链非编码RNAs与脑卒中

脑卒中严重影响着患者的生存质量,然而其病理生理机制尚不清晰.研究发现,长链非编码RNAs(long non-coding RNAs,lncRNAs)参与了机体多种生理或病理生理过程.在脑卒中患者或缺血性动物模型中,亦发现数百种异常表达的lncRNAs.因此,本综述主要讲述研究比较清晰并与脑卒中相关的lncRNAs的研究...     

植物长链非编码RNA研究进展

长链非编码RNA(Long non-coding RNA,lncRNA)长度大于200个核苷酸,大量存在于生物体中并具有多种生物学功能。目前,植物中发现的lncRNA大多由RNA聚合酶Ⅱ转录,并通过目标模仿、转录干扰、组蛋白甲基化和DNA甲基化等多种机制介导基因的表达,在植物开花、雄性不育、营养代谢、生物和非生物胁迫等生物过程中起着调节因子的作用。文章综述了近年来发现的植物lncRNA数据库、预测方法、表达及可能的生物学功能。     

长链非编码RNAs与妇科肿瘤

长链非编码RNAs(long non-codiong RNAs,lncRNAs)是具有原始或是剪切转录本功能的RNA,并不符合小分子RNAs和结构RNAs的已知定义。它们分别在宫颈癌、卵巢癌、子宫内膜癌、乳腺癌等妇科肿瘤中出现异常表达的现象,使其有希望成为未来妇科肿瘤的新型标志物和治疗靶点,但其作用机制有待于进一步探索。     

Exosome-derived small non-coding RNAs reveal immune response upon grafting transplantation in Pinctada fucata (Mollusca)

Exosomes, a subset of small extracellular vesicles, carry various nucleic acids, proteins, lipids, amino acids and metabolites. They function as a mode of intercellular communication and molecular transfer. Exosome cargo molecules, including small non-coding RNAs (sncRNAs), are involved in the immune response in various organisms. However, the role of exosome-derived sncRNAs in immune responses in molluscs remains unclear. Here, we aimed to reveal the sncRNAs involved in the immune response during grafting transplantation by the pearl oyster Pinctada fucata. Exosomes were successfully extracted from the P. fucata haemolymph during graft transplantation. Abundant microRNAs (miRNAs) and PIWI-interacting RNAs (piRNAs) were simultaneously discovered in P. fucata exosomes by small RNA sequencing. The expression patterns of the miRNAs and piRNAs at the grafting and initial stages were not substantially different, but varied significantly between the initial and later stages. Target prediction and functional analysis indicate that these miRNAs and piRNAs are related to immune response upon grafting transplantation, whereas piRNAs may also be associated with transposon silencing by targeting with genome transposon elements. This work provides the basis for a functional understanding of exosome-derived sncRNAs and helps to gain further insight into the PIWI/piRNA pathway function outside of germline cells in molluscs.     

Long non-coding RNAs and their implications in cancer epigenetics

LncRNAs (long non-coding RNAs) have emerged as key molecular players in the regulation of gene expression in different biological processes. Their involvement in epigenetic processes includes the recruitment of histone-modifying enzymes and DNA methyltransferases, leading to the establishment of chromatin conformation patterns that ultimately result in the fine control of genes. Some of these genes are related to tumorigenesis and it is well documented that the misregulation of epigenetic marks leads to cancer. In this review, we highlight how some of the lncRNAs implicated in cancer are involved in the epigenetic control of gene expression. While very few lncRNAs have already been identified as players in determining the cancer-survival outcome in a number of different cancer types, for most of the lncRNAs associated with epigenetic regulation only their altered pattern of expression in cancer is demonstrated. Thanks to their tissue-specificity features, lncRNAs have already been proposed as diagnostic markers in specific cancer types. We envision the discovery of a wealth of novel spliced and unspliced intronic lncRNAs involved in epigenetic networks or in highly location-specific epigenetic control, which might be predominantly altered in specific cancer subtypes. We expect that the characterization of new lncRNA (long non-coding RNA)–protein and lncRNA–DNA interactions will contribute to the discovery of potential lncRNA targets for use in therapies against cancer.     

动物长链非编码RNA研究进展

长链非编码RNA(long non-coding RNA,lncRNA)是一类广泛存在于动植物体内、长度大于200nt、基本不编码蛋白质的转录本。研究表明,lncRNA能够协助蛋白质复合体转运、参与基因和染色体的激活与失活调控等,在胚胎发育、肌肉生长、脂肪沉积以及免疫应答等过程中发挥重要作用。近年来,在人类基因组计划和ENCODE(The Encyclopedia of DNA Elements)计划推动下,在动物中不仅鉴定出数量众多的lncRNA,而且在lncRNA调控脂肪代谢、肌肉发育以及免疫抗病等重要生物学过程的机理研究方面也取得了突破性的进展。这些研究结果颠覆了lncRNA不编码蛋白的传统观念,提出了lncRNA编码功能性小肽调控生物学过程的新模型。本文主要介绍了动物lncRNA的特征与类型、常用数据库、生物学功能、分子调控模型以及未来lncRNA的研究方向,以期为动物lncRNA功能研究提供参考信息。     

Interplay between hepatitis B virus and the innate immune responses: implications for new therapeutic strategies

Hepatitis B virus (HBV) infection is still a worldwide health problem; however, the current antiviral therapies for chronic hepatitis B are limited in efficacy. The outcome of HBV infection is thought to be the result of complex interactions between the HBV and the host immune system. While the role of the adaptive immune responses in the resolution of HBV infection has been well characterized, the contribution of innate immune mechanisms remains elusive until recent evidence implicates that HBV appears to activate the innate immune response and this response is important for controlling HBV infection. Here, we review our current understanding of innate immune responses to HBV infection and the multifaceted evasion by the virus and discuss the potential strategies to combat chronic HBV infection via induction and restoration of host innate antiviral responses.     

Interplay between hepatitis B virus and the innate immune responses:implications for new therapeutic strategies

Hepatitis B virus(HBV) infection is still a worldwide health problem;however,the current antiviral therapies for chronic hepatitis B are limited in efficacy.The outcome of HBV infection is thought to be the result of complex interactions between the HBV and the host immune system.While the role of the adaptive immune responses in the resolution of HBV infection has been well characterized,the contribution of innate immune mechanisms remains elusive until recent evidence implicates that HBV appears to activate the innate immune response and this response is important for controlling HBV infection.Here,we review our current understanding of innate immune responses to HBV infection and the multifaceted evasion by the virus and discuss the potential strategies to combat chronic HBV infection via induction and restoration of host innate antiviral responses.     

Siglec1 suppresses antiviral innate immune response by inducing TBK1 degradation via the ubiquitin ligase TRIM27

Type I interferon (IFN) production plays pivotal roles in host antiviral innate immune responses, but an excessive production of type I IFN leads to the development of immunopathological conditions. Investigations on the regulatory mechanisms underlying host type I IFN production are currently of great interest. Here, we found that the expression of lectin family member Siglec1 was upregulated by viral infection in macrophages, which was dependent on the IFN/JAK/STAT1 signaling pathway. Siglec1 was found to negatively regulate viral infection-triggered type I IFN production. Mechanistically, Siglec1 associates with DAP12 to recruit and activate the scaffolding function of SHP2; SHP2 then recruits E3 ubiquitin ligase TRIM27, which induces TBK1 degradation via K48-linked ubiquitination at Lys251 and Lys372. Therefore, viral infection-induced upregulation of Siglec1 feedback loop inhibits type I IFN production and suppresses antiviral innate immune responses. Our study outlines a novel mechanism of negative regulation of type I IFN production, which may help virus to escape immune elimination.