Jumonji 组蛋白去甲基酶作为新兴的治疗靶点。

Jumonji histone demethylases as emerging therapeutic targets.

机构信息

Ischemic/Hypoxic Disease Institute, Seoul National University College of Medicine, Seoul 110-799, Republic of Korea.

Ischemic/Hypoxic Disease Institute, Seoul National University College of Medicine, Seoul 110-799, Republic of Korea; Department of Biomedical Sciences, Seoul National University College of Medicine, Seoul 110-799, Republic of Korea.

出版信息

Pharmacol Res. 2016 Mar;105:146-51. doi: 10.1016/j.phrs.2016.01.026. Epub 2016 Jan 24.

DOI:10.1016/j.phrs.2016.01.026

PMID:26816087

Abstract

The methylation status of lysine residues in histones determines the transcription of surrounding genes by modulating the chromatin architecture. Jumonji domain-containing histone-lysine demethylases (Jmj-KDMs) remove the methyl moiety from lysine residues in histones by utilizing Fe(2+) and α-ketoglutarate. Since genetic alterations in Jmj-KDMs occur in various human cancers, the roles of Jmj-KDMs in cancer development and progression have been investigated, but still controversial. The KDM7 subfamily, which belongs to the Jmj-KDM family, is an emerging class of transcriptional coactivators because its members erase the repressive marks H3K9me2/1, H3K27me2/1, and H4K20 me1. Recently, KDM7C (alternatively named PHF2) was discovered as a new KDM7 member and identified to play a tumor-suppressive role through the reinforcement of p53-driven growth arrest and apoptosis. In this article, we generally reviewed the roles of Jmj-KDMs in human cancers and more discussed the molecular functions and the clinical significances of KDM7C.

摘要

组蛋白赖氨酸残基的甲基化状态通过调节染色质结构来决定周围基因的转录。组蛋白赖氨酸去甲基酶（Jmj-KDMs）通过利用 Fe（2+）和α-酮戊二酸，从组蛋白的赖氨酸残基上去除甲基部分。由于 Jmj-KDM 中的遗传改变发生在各种人类癌症中，因此已经研究了 Jmj-KDM 在癌症发生和发展中的作用，但仍存在争议。KDM7 亚家族属于 Jmj-KDM 家族，是一类新兴的转录共激活因子，因为其成员可以消除抑制性标记 H3K9me2/1、H3K27me2/1 和 H4K20me1。最近，KDM7C（也称为 PHF2）被发现为一个新的 KDM7 成员，并通过增强 p53 驱动的生长停滞和凋亡被鉴定为具有肿瘤抑制作用。在本文中，我们综述了 Jmj-KDM 在人类癌症中的作用，并更深入地讨论了 KDM7C 的分子功能和临床意义。

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Jumonji 组蛋白去甲基酶作为新兴的治疗靶点。

Jumonji histone demethylases as emerging therapeutic targets.

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