Molecular regulation of hypoxia through the lenses of noncoding RNAs and epitranscriptome.

IF 6.4 2区 生物学 Q1 CELL BIOLOGY Wiley Interdisciplinary Reviews: RNA Pub Date : 2023-03-01 DOI:10.1002/wrna.1750
Safirul Islam, Chandrama Mukherjee
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引用次数: 5

Abstract

Cells maintain homeostasis in response to environmental stress through specific cell stress responses. Hypoxic stress, well known to be associated with diverse solid tumors, is one of the main reasons for cancer-related mortality. Although cells can balance themselves well during hypoxic stress, the underlying molecular mechanisms are not well understood. The enhanced appreciation of diverse roles played by noncoding transcriptome and epigenome in recent years has brought to light the involvement of noncoding RNAs and epigenetic modifiers in hypoxic regulation. The emergence of techniques like deep sequencing has facilitated the identification of large numbers of long noncoding RNAs (lncRNAs) that are differentially regulated in various cancers. Similarly, proteomic studies have identified diverse epigenetic modifiers such as HATs, HDACs, DNMTs, polycomb groups of proteins, and their possible roles in the regulation of hypoxia. The crosstalk between lncRNAs and epigenetic modifiers play a pivotal role in hypoxia-induced cancer initiation and progression. Besides the lncRNAs, several other noncoding RNAs like circular RNAs, miRNAs, and so forth are also expressed during hypoxic conditions. Hypoxia has a profound effect on the expression of noncoding RNAs and epigenetic modifiers. Conversely, noncoding RNAs/epigenetic modifies can regulate the hypoxia signaling axis by modulating the stability of the hypoxia-inducible factors (HIFs). The focus of this review is to illustrate the molecular orchestration underlying hypoxia biology, especially in cancers, which can help in identifying promising therapeutic targets in hypoxia-induced cancers. This article is categorized under: RNA Turnover and Surveillance > Regulation of RNA Stability RNA in Disease and Development > RNA in Disease RNA Structure and Dynamics > RNA Structure, Dynamics and Chemistry.

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通过非编码rna和表转录组对缺氧的分子调控。
细胞通过特定的细胞应激反应来维持环境应激的稳态。众所周知,低氧应激与多种实体瘤有关,是癌症相关死亡的主要原因之一。虽然细胞在缺氧胁迫下可以很好地平衡自己,但其潜在的分子机制尚不清楚。近年来,人们对非编码转录组和表观基因组的多种作用的认识不断增强,揭示了非编码rna和表观遗传修饰因子在缺氧调控中的作用。深度测序等技术的出现促进了对大量长链非编码rna (lncrna)的识别,这些rna在各种癌症中受到差异调节。同样,蛋白质组学研究已经确定了多种表观遗传修饰因子,如HATs、hdac、dnmt、多梳蛋白群,以及它们在缺氧调节中的可能作用。lncrna和表观遗传修饰子之间的串扰在缺氧诱导的癌症的发生和发展中起着关键作用。除了lncrna外,其他几种非编码rna如环状rna、mirna等也在缺氧条件下表达。缺氧对非编码rna和表观遗传修饰因子的表达有深远的影响。相反,非编码rna /表观遗传修饰可以通过调节缺氧诱导因子(hif)的稳定性来调节缺氧信号轴。这篇综述的重点是阐明低氧生物学,特别是在癌症中的分子协调,这有助于确定低氧诱导癌症的有希望的治疗靶点。本文分类为:RNA周转与监测> RNA稳定性调控> RNA在疾病与发展中的作用> RNA在疾病中的作用> RNA结构与动力学> RNA结构、动力学与化学。
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来源期刊
CiteScore
14.80
自引率
4.10%
发文量
67
审稿时长
6-12 weeks
期刊介绍: WIREs RNA aims to provide comprehensive, up-to-date, and coherent coverage of this interesting and growing field, providing a framework for both RNA experts and interdisciplinary researchers to not only gain perspective in areas of RNA biology, but to generate new insights and applications as well. Major topics to be covered are: RNA Structure and Dynamics; RNA Evolution and Genomics; RNA-Based Catalysis; RNA Interactions with Proteins and Other Molecules; Translation; RNA Processing; RNA Export/Localization; RNA Turnover and Surveillance; Regulatory RNAs/RNAi/Riboswitches; RNA in Disease and Development; and RNA Methods.
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