microRNAs调控骨骼肌分化的分子机制

microRNA（miRNA）是一大类广泛存在于真核细胞当中的长度约22nt的内源性单链非编码RNA,通过与靶基因mRNA的3’非翻译区（3’untranslated region,3’UTR）结合在转录后水平调控靶基因的表达。miRNA作为调控基因表达的重要分子在骨骼肌分化调控中的作用越来越受到关注,阐明miRNA在骨骼肌增殖与分化中的作用机制具有重要的理论意义,同时也可为骨骼肌相关疾病的治疗提供新的思路。文章总结了miRNA,尤其是miR-1、miR-133和miR-206等肌肉特异性miRNA,在调控骨骼肌分化过程中作用机制的研究进展,以便于进一步工作的开展。     

果蝇微小RNA及其在衰老过程中的作用

微小RNA（microRNA, miRNA）是一类长度在22 nt左右的内源非编码小RNA,广泛存在于动物、植物、病毒等多种有机体中,是机体正常衰老与疾病的重要调控因子。本文对果蝇不同生长时期miRNA的表达模式、主要衰老相关信号通路以及与衰老相关的miRNA进行了综述。在果蝇的不同发育时期均有特定的miRNA发挥重要作用,其表达模式与功能相关;miRNA参与了主要衰老分子信号通路的调控,如胰岛素/胰岛素样生长因子（IIS）通路和雷帕霉素靶蛋白（TOR）通路。研究表明,miRNA通过调控衰老相关信号通路中的靶基因,进而促进或延缓果蝇衰老,如miR-34, miR-8, miR-14, miR let7和miR-277等。因此,研究参与衰老调控的miRNA,为阐明衰老机制及抗衰老药物的设计奠定了基础。     

miRNA调控成肌分化的研究进展

成肌分化过程包括成肌细胞的增殖,然后分化为肌细胞,最后融合形成肌管;microRNA(miRNA)是一类在转录后水平调控基因表达的微小非编码RNA,它通过靶向靶基因mRNA的3'UTR,抑制其翻译或诱导其降解。已有研究表明,miRNA在成肌分化中起重要调控作用。根据表达方式的不同,分为肌肉特异表达的miRNA,有miR-1,miR-133,miR-206,miR-208,miR-499和miR-486;和非肌肉特异表达的miRNA,其中miR-27,miR-29,miR-128,miR-199a和miR-431在成肌分化过程中具有重要的调控功能。另外,阐述了几个与miRNA相互作用从而调控成肌分化的lncRNA的功能。通过介绍两类miRNA的靶基因及调控机制,阐述了最新的研究进展。     

胃癌相关miRNA表达的表观遗传学调控机制

胃癌是人类最常见的肿瘤之一,其发病机制尚不完全清楚.微小RNA(microRNA,miRNA)是一组最近发现的长度为22个核苷酸左右的非编码RNA,具有负性调控基因表达的功能.本文对miRNA在胃癌发生中的作用及其表达调控机制进行综述.不断有文献显示,miRNA在多种肿瘤(包括胃癌)的发生过程中发挥着重要作用.作者和其他研究人员发现,miRNA的表达异常(如:miR-421和miR-21的上调或/和miR-31和miR-218的下调等)与胃癌的发生相关,提示miRNA是胃癌发生的重要因素.目前,miRNA表达的分子机制尚未完全明了.最近研究较清楚地显示,miRNA的表达受到DNA甲基化和组蛋白修饰等机制的调控.这说明,胃癌相关miRNA的表达水平受到表观遗传机制的调控。     

动物microRNA-181的功能与应用前景

microRNA(miRNA)是一类短的、进化上高度保守的非蛋白编码RNA, 长度一般为17~25个核苷酸, 通过阻止靶mRNA的翻译或与之互补配对诱导靶基因降解来调控其表达。文章简要总结了microRNA-181(miR-181)在动物细胞增殖、凋亡和分化中的作用和调控机制, 探讨了miR-181对淋巴细胞的增生分化、自身免疫、炎症和抗病毒等方面的免疫调控作用, 并简要分析了miR-181在肿瘤发生发展、诊断、治疗和预后等方面的功能与价值, 最后对miR-181的应用前景进行了探讨。研究miR-181家族成员的功能对于理解生命活动机制、疾病发生发展和找到诊治相关疾病的新方法等都具有重要的意义。     

与肿瘤相关的MicroRNA研究进展

MicroRNA（smiRNAs）是一类进化上保守的单链非编码小分子RNA,它作为基因表达调控因子在转录后水平调节基因表达。最近研究发现,miRNA能够控制细胞生长、凋亡及分化;miRNA的表达与癌症相关,并在肿瘤的形成过程中发挥着重要的作用。因此,miRNA的研究对于揭示基因表达的调控机理、人类疾病防治及生物进化探索具有重要意义。     

MicroRNA与变应性鼻炎

在变应性鼻炎(allergic rhinitis,AR)发病的免疫细胞分化及免疫应答过程中,micro RNA(miRNA)发挥着非常重要的调控作用。本文旨在对AR中miRNA研究进行回顾,以期为AR的有效治疗提供新的视角。首先,变应性鼻炎患者鼻粘膜中miR-7和miRPlus-E1194等差异表达。其次,在T辅助细胞发育、分化与活化过程中,miR-181a、miR-155、miR-21、miR-1、miR-31、miR-223、miR-139-3p、miR-126、Let-7家族成员会发生显著上调或下降,而且某些miRNA的相关作用靶点也得到验证。再次,嗜酸粒细胞定向分化祖细胞向成熟嗜酸粒细胞的分化过程中,miR-21和miR-223都有所上调。最后,在肥大细胞激活和脱颗粒过程中,miR-221和miR-222以及其他miRNA显著上调。以上miRNA参与了T辅助细胞分化与活化、嗜酸粒细胞发育、肥大细胞脱颗粒等AR病理进程的各个环节,而且,miRNA还会参与前期的抗原提呈等环节。可见miRNA对AR调控呈现出复杂性和多重性。     

肿瘤发生过程中miRNA与lncRNA的相互作用

非编码RNA(non-coding RNA,ncRNA)是生物体内普遍存在,且对生命活动具有重要调控作用的生物分子.以微RNA（microRNA,miRNA）和长链非编码RNA（long non coding RNA,lncRNA）为代表的ncRNA分子在肿瘤发生和发展过程中都有重要的作用.越来越多研究发现,miRNA和lncRNA之间的关系是非常密切的,某些lncRNA(如H19和BIC)可以作为miRNA的前体,通过加工成miRNA而发挥作用.有些miRNA通过作用于lncRNA影响肿瘤的发生(如：miR-129与MEG3,let-7与H19);同样地,有些lncRNA通过作用于miRNA影响肿瘤的发生(如：HULC与miR-372,PTCSC3与miR-574-5p,ciRS-7与miR-7,Sry与miR-138).miRNA与lncRNA之间既可以直接相互作用,也可以通过其它分子（特别是蛋白质或蛋白质复合物）间接地影响着肿瘤的发生和发展.揭示miRNA和lncRNA相互作用在肿瘤发生中的作用可以为肿瘤的诊断和治疗提供新思路.     

病毒致癌相关microRNA的研究进展

microRNA(miRNA)是一类内源性非编码的小RNA,广泛存在于病毒、植物和动物等生物体内。miRNA通过与目标mRNA互补配对,对基因进行转录后的表达调控,在生物体的发育、增殖、分化和凋亡等方面发挥重要的生理作用。最近的研究表明,miRNA与病毒介导的肿瘤之间存在密切关系,尤其在调控乙肝病毒介导的肝癌、人乳头瘤病毒介导的宫颈癌及EB病毒介导的鼻咽癌、淋巴瘤等肿瘤中发挥重要作用。在病毒导致肿瘤的发生与发展过程中,miRNA表达谱出现时间与空间上的改变,其表达调控成为近年来病毒致癌的研究热点。我们简要综述病毒致癌相关mi RNA的研究进展。     

微小RNA-29与恶性肿瘤

miR-29家族是人类重要的miRNA分子,在多数恶性肿瘤中扮演抑癌RNA分子的作用,因而呈现低表达水平,它通过上调抑癌基因表达及调控相关肿瘤信号通路等机制,抑制恶性肿瘤的增殖、分化、侵袭和转移。miR-29家族不仅能作为恶性肿瘤治疗的靶点,而且在肿瘤的诊断及预后评估方面具有重要价值。     

Pluripotency-associated miR-290/302 family of microRNAs promote the dismantling of naive pluripotency

The molecular mechanism controlling the dismantling of naive pluripotency is poorly understood. Here we show that microRNAs (miRNAs) have important roles during naive to primed pluripotency transition. Dgcr8^−/− embryonic stem cells (ESCs) failed to completely silence the naive pluripotency program, as well as to establish the primed pluripotency program during differentiation. miRNA profiling revealed that expression levels of a large number of miRNAs changed dynamically and rapidly during naive to primed pluripotency transition. Furthermore, a miRNA screen identified numerous miRNAs promoting naive to primed pluripotency transition. Unexpectedly, multiple miRNAs from miR-290 and miR-302 clusters, previously shown as pluripotency-promoting miRNAs, demonstrated the strongest effects in silencing naive pluripotency. Knockout of both miR-290 and miR-302 clusters but not either alone blocked the silencing of naive pluripotency program. Mechanistically, the miR-290/302 family of miRNAs may facilitate the exit of naive pluripotency in part by promoting the activity of MEK pathway and through directly repressing Akt1. Our study reveals miRNAs as an important class of regulators potentiating ESCs to transition from naive to primed pluripotency, and uncovers context-dependent functions of the miR-290/302 family of miRNAs at different developmental stages.     

Short-term serum-free culture reveals that inhibition of Gsk3β induces the tumor-like growth of mouse embryonic stem cells

Here, we present evidence that the tumor-like growth of mouse embryonic stem cells (mESCs) is suppressed by short-term serum-free culture, which is reversed by pharmacological inhibition of Gsk3β. Mouse ESCs maintained under standard conditions using fetal bovine serum (FBS) were cultured in a uniquely formulated chemically-defined serum-free (CDSF) medium, namely ESF7, for three passages before being subcutaneously transplanted into immunocompromised mice. Surprisingly, the mESCs failed to produce teratomas for up to six months, whereas mESCs maintained under standard conditions generated well-developed teratomas in five weeks. Mouse ESCs cultured under CDSF conditions maintained the expression of Oct3/4, Nanog, Sox2 and SSEA1, and differentiated into germ cells in vivo. In addition, when mESCs were cultured under CDSF conditions supplemented with FBS, or when the cells were cultured under CDSF conditions followed by standard culture conditions, they consistently developed into teratomas. Thus, these results validate that the pluripotency of mESCs was not compromised by CDSF conditions. Mouse ESCs cultured under CDSF conditions proliferated significantly more slowly than mESCs cultured under standard conditions, and were reminiscent of Eras-null mESCs. In fact, their slower proliferation was accompanied by the downregulation of Eras and c-Myc, which regulate the tumor-like growth of mESCs. Remarkably, when mESCs were cultured under CDSF conditions supplemented with a pharmacological inhibitor of Gsk3β, they efficiently proliferated and developed into teratomas without upregulation of Eras and c-Myc, whereas mESCs cultured under standard conditions expressed Eras and c-Myc. Although the role of Gsk3β in the self-renewal of ESCs has been established, it is suggested with these data that Gsk3β governs the tumor-like growth of mESCs by means of a mechanism different from the one to support the pluripotency of ESCs.     

人类及小鼠胚胎干细胞的不同多能性状态

胚胎干细胞(embryonic stem cells,ESCs)是来源于早期胚胎的全能性细胞,在合适条件下具有分化为任何一类成体细胞的潜力。在小鼠中,根据细胞来源的胚胎发育时间,ESCs可以被分为原始态多能性(na(?)ve pluripotency)和始发态多能性(primed pluripotency)两种状态。这两种状态的细胞在发育上相互联系,具有不同的形态、信号依赖、发育性质、基因表达及表观遗传学性质,并且在特定的条件下可以相互转化。人类胚胎干细胞(human embryonic stem cells,hESCs)的发育潜能曾一度被认为低于小鼠胚胎干细胞(mouse embryonic stem cells,mESCs),直到人类原始态胚胎干细胞的发现证明了hESCs可以表现出与mESCs相似的性质。这对于人类胚胎发育的研究及ESCs在临床治疗上的实际应用都具有重要的意义。     

Selection of RNA aptamers against mouse embryonic stem cells

Embryonic stem cells (ESCs) are capable of unlimited self-renewal and differentiation into multiple cell types. Recent large-scale analyses have identified various cell surface molecules on ESCs. Some of them are considered to be beneficial markers for characterization of cellular phenotypes and/or play an essential role for regulating the differentiation state. Thus, it is desired to efficiently produce affinity reagents specific to these molecules. In this study, to develop such reagents for mouse ESCs (mESCs), we selected RNA aptamers against intact, live mESCs using several selection strategies. The initial selection provided us with several anti-mESC aptamers of distinct sequences, which unexpectedly react with the same molecule on mESCs. Then, to isolate aptamers against different surface markers on mESCs, one of the selected aptamers was used as a competitor in the subsequent selections. In addition, one of the selections further employed negative selection against differentiated mouse cells. Consequently, we successfully isolated three classes of anti-mESC aptamers that do not compete with one another. The isolated aptamers were shown to distinguish mESCs from differentiated mouse cell lines and trace the differentiation process of mESCs. These aptamers could prove useful for developing molecular probes and manipulation tools for mESCs.     

miRNA-105在胃癌组织中的表达情况

目的:分析胃癌组织与癌旁正常胃黏膜组织中miRNA的差异表达情况。方法:收集胃癌组织和其相应癌旁正常胃黏膜组织共33对,经抽提、纯化RNA后,反转录合成荧光分子Hy3的cDNA探针,将其与miRCURYTMLNA Array(v.16.0)(Exiqon公司)芯片进行杂交,应用Axon GenePix 4000B芯片扫描仪来扫描miRNA芯片的荧光强度,GenePix Pro 6.0软件(Axon)把图像转化为数字信号,以差异大于2倍的为标准来确定胃癌黏膜组织中差异表达的miRNA。再用实时荧光定量PCR方法验证芯片结果中表达异常增高的miR-105在33例胃癌组织中的表达情况。结果:miRNA表达谱芯片结果显示:胃癌组织共中有51种miRNA表达异常,其中miR-105、miR-548n、miR-214*、miR-4309等31种miRNA表达上调,miR-31、miR-1275、miR-26b*、miR-744等20种miRNA表达下调;实时荧光定量PCR证实与癌旁正常胃黏膜组织相比,胃癌组织中miR-105表达显著上调(P0.01)。结论:miR-105在胃癌组织的表达明显高于正常胃黏膜组织,可能与胃癌的发生、发展相关。我们的研究为胃癌的发病机制和诊断治疗提供了一个新的研究方向。     

含p53保守结合位点的microRNA表达载体的构建及应用

目的:构建含p53保守结合位点的microRNA(miRNA)表达载体,促进相关miRNA在具有野生型p53蛋白细胞中的高效表达。方法:改构miRNA表达载体pCMV-miR,在其多克隆位点前插入p53保守结合位点,分别将miR-138、miR-34a和miR-21前体序列pre-miR-138、pre-miR-34a和pre-miR-21插入上述改构的载体pCMV/p53-miR,将构建的pCMV/p53-miR-138、pCMV/p53-miR-34a和pCMV/p53-miR-21表达载体转染具有野生型p53的HeLa细胞和不表达p53的H1299细胞,分析p53对上述miRNA表达调控的影响。结果:转染改构的miRNA表达载体后,HeLa细胞中miR-138、miR-34a和miR-21的表达水平明显提高,它们对应的已知靶基因Cyclin D3、CDK2和PTEN的表达同时被显著下调。结论:在p53转录调控作用下,具有p53保守结合位点的miRNA表达载体能够更加有效地提高miRNA的表达水平;构建的载体不但可用于促进相关miRNA的表达,也能用于miRNA是否受p53调控的检测。     

MicroRNA expression profile of bronchioalveolar stem cells from mouse lung

Increasing evidence has suggested that bronchioalveolar stem cell (BASC) is the progenitor cells of lung cancer stem cells. However, the mechanisms by which self-renewal of BSACs is controlled and how BASCs turn into cancer stem cells still remains to be unknown. In the present study, we successfully isolated bronchioalveolar stem cells (BASCs) from mouse lung using FACS. These BASCs were characterized by clonal growth, self-renewal and high capacity for differentiation, suggesting that these BASCs are indeed stem cells. We investigated the microRNA (miRNA) expression profile of these BASCs using miRNA array and quantitative RT-PCR. We discovered that BASCs possessed a unique miRNA profile, with altered expression of several microRNAs, such as miR-142-3p, miR-451, miR-106a, miR-142-5p, miR-15b, miR-20a, miR-106b, miR-25, miR-486, in BASCs compared to control cells. Our results suggest that microRNAs might play important roles in maintaining the self-renewal capacity of BASCs, and suggest the intriguing possibility that aberrant expression of microRNAs could involved in turning BASCs into lung cancer stem cells.