microRNA-31 在人类癌症中的双重作用;侧重于癌症发病机制和信号通路。

IF 3.3 3区 生物学 Q3 CELL BIOLOGY Experimental cell research Pub Date : 2024-09-06 DOI:10.1016/j.yexcr.2024.114236
Paul Rodrigues , Jasur Alimdjanovich Rizaev , Ahmed Hjazi , Farag M.A. Altalbawy , Malathi H , Kirti Sharma , Satish Kumar Sharma , Yasser Fakri Mustafa , Mohammed Abed Jawad , Ahmed Hussein Zwamel
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引用次数: 0

摘要

癌症中微小 RNA 表达的广泛变化会导致控制这些基因的 miRNA 的基因表达异常,进而引起整个分子网络和通路的变化。经常发生变化的 miR-31 存在于多种癌症中,它是一种与癌症相关的 miRNA,尤其引人关注。miR-31 具有一系列非常复杂的生物学功能,根据肿瘤类型的不同,它可能既是肿瘤抑制因子,又是致癌基因。miR-31 的内源性表达水平似乎是决定异常表达所带来的表型的关键因素。不同表达水平的 miR-31 可通过靶向 BRCA1 相关蛋白-1(BAP1)、大肿瘤抑制激酶 1(LATS1)和蛋白磷酸酶 2(PP2A)等多种机制影响细胞生长、转移、耐药性和其他过程。这篇综述重点介绍了目前对 miR-31 靶向基因的了解,同时总结了 miR-31 在人类癌症中的复杂表达模式以及 miR-31 表达改变带来的不同表型。
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Dual role of microRNA-31 in human cancers; focusing on cancer pathogenesis and signaling pathways

Widespread changes in the expression of microRNAs in cancer result in abnormal gene expression for the miRNAs that control those genes, which in turn causes changes to entire molecular networks and pathways. The frequently altered miR-31, which is found in a wide range of cancers, is one cancer-related miRNA that is particularly intriguing. MiR-31 has a very complicated set of biological functions, and depending on the type of tumor, it may act both as a tumor suppressor and an oncogene. The endogenous expression levels of miR-31 appear to be a key determinant of the phenotype brought on by aberrant expression. Varied expression levels of miR-31 could affect cell growth, metastasis, drug resistance, and other process by several mechanisms like targeting BRCA1-associated protein-1 (BAP1), large tumor suppressor kinase 1 (LATS1) and protein phosphatase 2 (PP2A). This review highlights the current understanding of the genes that miR-31 targets while summarizing the complex expression patterns of miR-31 in human cancers and the diverse phenotypes brought on by altered miR-31 expression.

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来源期刊
Experimental cell research
Experimental cell research 医学-细胞生物学
CiteScore
7.20
自引率
0.00%
发文量
295
审稿时长
30 days
期刊介绍: Our scope includes but is not limited to areas such as: Chromosome biology; Chromatin and epigenetics; DNA repair; Gene regulation; Nuclear import-export; RNA processing; Non-coding RNAs; Organelle biology; The cytoskeleton; Intracellular trafficking; Cell-cell and cell-matrix interactions; Cell motility and migration; Cell proliferation; Cellular differentiation; Signal transduction; Programmed cell death.
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