Identification of short-lived long non-coding RNAs as surrogate indicators for chemical stress response

Abiotic and biotic stressors in human cells are often a result of sudden and/or frequent changes in environmental factors. The molecular response to stress involves elaborate modulation of gene expression and is of homeostatic, ecological, and evolutionary importance. Although attention has primarily focused on signaling pathways and protein networks, long non-coding RNAs (ncRNAs) are increasingly involved in the molecular mechanisms associated with responses to cellular stresses. We identified six novel short-lived long ncRNAs (MIR22HG, GABPB-AS1, LINC00152, IDI2-AS1, SNHG15, and FLJ33630) that responded to chemical stressors (cisplatin, cycloheximide, and mercury (II) oxide) in HeLa Tet-off cells. Our results indicate that short-lived long ncRNAs respond to general and specific chemical stressors. The expression levels of the short-lived long ncRNAs were elevated because of prolonged decay rates in response to chemical stressors and interruption of RNA degradation pathways. We propose that these long ncRNAs have the potential to be surrogate indicators of cellular stress responses.     

长链非编码RNA生物学功能及其意义研究进展

人类基因组DNA核苷酸序列中约93%能被转录为RNA,其中仅2%的转录产物被翻译为蛋白质,余下98%属于非编码RNA（non-coding RNA,ncRNA）。ncRNA中长度超过200 nt的称为长链非编码RNA（long non-coding RNA,LncRNA）,长期以来LncRNA被认为是转录过程中的副产物而不具有生物学功能。近年随着微小RNA（microRNA,miRNA）的研究进展,揭示了ncRNA在人类基因转录后调节、细胞生长、分化、增殖中起着相当重要的作用。同时也提示,相比miRNA,在细胞内转录比例更高的LncRNA具有极其复杂而重要的生物学功能,并与人类疾病密切相关。结合LncRNA的表观遗传学功能及其病理生理意义作一简述。     

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。     

长非编码RNA在基因调控和肿瘤形成中的作用

哺乳动物中,只有小部分基因转录成为编码蛋白质的RNA,大量的基因则转录为不能编码蛋白质的RNA,即ncRNA。长非 编码RNA(lncRNAs)是分子长度在200-100000 nt 之间的一类ncRNA。lncRNAs 的数量超过蛋白质编码基因的数量。目前,对长非 编码RNA(lncRNAs)的生物学特性,转录调控以及其在肿瘤发生发展中的作用机制的研究任然是RNA研究的热点。lncRNAs 通 过控制染色质重塑,转录调控和录转录后调控而在基因的转录调节中发挥了重要作用。lncRNAs 与多种肿瘤相关,并且在抑制因 素和促进因素中都具有重要的作用。众多文献报道的结果表明lncRNAs 参与调控基因表达,在正常细胞与肿瘤细胞的转换中起 到至关重要的作用。     

Melatonin promotes Cashmere goat (Capra hircus) secondary hair follicle growth: a view from integrated analysis of long non-coding and coding RNAs

The role of melatonin in promoting the yield of Cashmere goat wool has been demonstrated for decades though there remains a lack of knowledge regarding melatonin mediated hair follicle growth. Recent studies have demonstrated that long non-coding RNAs (lncRNAs) are widely transcribed in the genome and play ubiquitous roles in regulating biological processes. However, the role of lncRNAs in regulating melatonin mediated hair follicle growth remains unclear. In this study, we established an in vitro Cashmere goat secondary hair follicle culture system, and demonstrated that 500 ng/L melatonin exposure promoted hair follicle fiber growth. Based on long intergenic RNA sequencing, we demonstrated that melatonin promoted hair follicle elongation via regulating genes involved in focal adhesion and extracellular matrix receptor pathways and further cis predicting of lncRNAs targeted genes indicated that melatonin mediated lncRNAs mainly targeted vascular smooth muscle contraction and signaling pathways regulating the pluripotency of stem cells. We proposed that melatonin exposure not only perturbed key signals secreted from hair follicle stem cells to regulate hair follicle development, but also mediated lncRNAs mainly targeted to pathways involved in the microvascular system and extracellular matrix, which constitute the highly orchestrated microenvironment for hair follicle stem cell. Taken together, our findings here provide a profound view of lncRNAs in regulating Cashmere goat hair follicle circadian rhythms and broaden our knowledge on melatonin mediated hair follicle morphological changes.     

植物长链非编码RNA的生物信息学预测与分析研究进展

长链非编码RNA(Long non-coding RNAs,lncRNAs)是一类广泛存在于真核生物中,长度大于200个核苷酸、无蛋白编码功能,具有调控基因转录后表达的RNA转录本。新近研究表明,lncRNA在多种生物途径中起着重要调节作用。生物信息学由生物、数学、计算机科学,统计学等多学科交叉产生,能从全局和系统水平对大数据信息进行深入挖掘与分析。采用生物信息学方法预测与分析lncRNA是当前发现和鉴定植物lncRNA的重要策略之一。本文梳理和总结了近年来采用生物信息学预测植物lncRNA及其靶基因的方法策略,以期为今后深入认知植物lncRNA在植物的生长发育过程、抗逆境胁迫及系统进化等过程中的作用研究提供一定参考。     

The emerging roles of long non-coding RNAs in polyglutamine diseases

Polyglutamine (polyQ) diseases are characterized by trinucleotide repeat amplifications within genes, thus resulting in the formation of polyQ peptides, selective neuronal degeneration and possibly death due to neurodegenerative diseases (NDDs). Long non-coding RNAs (lncRNAs), which exceed 200 nucleotides in length, have been shown to play important roles in several pathological processes of NDDs, including polyQ diseases. Some lncRNAs have been consistently identified to be specific to polyQ diseases, and circulating lncRNAs are among the most promising novel candidates in the search for non-invasive biomarkers for the diagnosis and prognosis of polyQ diseases. In this review, we describe the emerging roles of lncRNAs in polyQ diseases and provide an overview of the general biology of lncRNAs, their implications in pathophysiology and their potential roles as future biomarkers and applications for therapy.     

Roles of long, non-coding RNA in chromosome-wide transcription regulation: lessons from two dosage compensation systems

A large part of higher eukaryotic genomes is transcribed into RNAs lacking any significant open reading frame. This "non-coding part" has been shown to actively contribute to regulating gene expression, but the mechanisms are largely unknown. Particularly instructive examples are provided by the dosage compensation systems, which assure that the single X chromosome in male cells and the two X chromosomes in female cells give rise to similar amounts of gene product. Although this is achieved by very different strategies in mammals and fruit flies, long, non-coding RNAs (lncRNAs) are involved in both cases. Here we summarize recent progress towards unraveling the mechanisms, by which the Xist and roX RNAs mediate the selective association of regulators with individual target chromosomes, to initiate dosage compensation in mammals and fruit flies, respectively.     

Screening and bioinformatics analysis of mRNA,long non-coding RNA and circular RNA expression profiles in mucoepidermoid carcinoma of salivary gland

Mucoepidermoid carcinoma (MEC) of salivary gland is a disease characterized by high rate of diatant metastasis, and associated with poor outcomes. However, the molecular mechanisms underlying the MEC remain poorly understand. Here, we simultaneously detected, for the first time, the expression profiles of mRNAs, lncRNAs, and circRNAs in four pairs of MEC and matched non-carcinoma tissues by microarrays. A total of 3612?mRNA, 3091 lncRNAs, and 284 circRNAs were altered during the pathogenesis of MEC. The functions of these differentially expressed RNAs were predicted by Gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis. Co-expression networks of lncRNA-mRNA and circRNA-miRNA were conducted to uncovered the hidden ceRNA mechanisms. Moreover, NONHSAT154433.1 that associated with ADAM12 and hsa_circ_0012342 were further screened and confirmed using qRT-PCR analysis. In conclusion, this study provides a systematic perspective on the potential function of non-coding RNAs (ncRNAs) in the molecular mechanisms of MEC. Among these, NONHSAT154433.1 and hsa_circ_0012342 might be served as potential prognostic biomarkers and therapeutic target of MEC.     

Population-scale tissue transcriptomics maps long non-coding RNAs to complex disease

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链球菌非编码小RNA研究进展

非编码小RNA(Small non-coding RNA,sRNA)是一种存在于原核和真核生物中的新型调控RNA,长度约为40～500个核苷酸。作为一类关键的调控因子,sRNA通过与靶mRNA或蛋白质结合来调控细胞内的基因表达。大部分细菌sRNA在大肠杆菌等革兰氏阴性菌中被发现并研究,但近十年来越来越多的sRNA在革兰氏阳性菌中被逐步发现。作为一类革兰氏阳性菌,链球菌属中sRNA目前研究主要集中在毒力调节,鲜有其他调控的报道。本文总结了链球菌中sRNA的最新进展,并介绍其主要功能和机理,以期为细菌sRNA研究提供借鉴。     

High expression of long non-coding RNA H19 is required for efficient tumorigenesis induced by Bcr-Abl oncogene

Dysregulation of non-coding RNA H19 has been observed in various tumors. However, it remains unknown whether H19 is involved in Bcr-Abl-induced leukemia. Here, we demonstrate a critical requirement for H19 in Bcr-Abl-mediated tumorigenesis. H19 was highly expressed in Bcr-Abl-transformed cell lines and primary cells derived from patients in a Bcr-Abl kinase-dependent manner. Silencing H19 expression sensitized leukemic cells to undergo imatinib-induced apoptosis and inhibited Bcr-Abl-induced tumor growth. Furthermore, H19 was shown to be regulated by c-Myc in Bcr-Abl-expressing cells. These results reveal an important role H19 plays in Bcr-Abl-mediated transformation and provide novel insights into complex mechanisms underlying Bcr-Abl-induced cancers.