LSD1 通过组蛋白去乙酰化酶 1 介导的组蛋白 H4 赖氨酸 16 的去乙酰化作用调节胚胎干细胞/癌细胞的多能性。

LSD1 regulates pluripotency of embryonic stem/carcinoma cells through histone deacetylase 1-mediated deacetylation of histone H4 at lysine 16.

机构信息

Laboratory of Chemical Genomics, Peking University Shenzhen Graduate School, Shenzhen, China.

出版信息

Mol Cell Biol. 2014 Jan;34(2):158-79. doi: 10.1128/MCB.00631-13. Epub 2013 Nov 4.

DOI:10.1128/MCB.00631-13

PMID:24190971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3911295/

Abstract

LSD1 is essential for the maintenance of pluripotency of embryonic stem (ES) or embryonic carcinoma/teratocarcinoma (EC) cells. We have previously developed novel LSD1 inhibitors that selectively inhibit ES/EC cells. However, the critical targets of LSD1 remain unclear. Here, we found that LSD1 interacts with histone deacetylase 1 (HDAC1) to regulate the proliferation of ES/EC cells through acetylation of histone H4 at lysine 16 (H4K16), which we show is a critical substrate of HDAC1. The LSD1 demethylase and HDAC1 deacetylase activities were both inactivated if one of them in the complex was chemically inhibited in ES/EC cells or in reconstituted protein complexes. Loss of HDAC1 phenocopied the selective growth-inhibitory effects and increased the levels of H3K4 methylation and H4K16 acetylation of LSD1 inactivation on ES/EC cells. Reduction of acetylated H4K16 by ablation of the acetyltransferase males absent on the first (MOF) is sufficient to rescue the growth inhibition induced by LSD1 inactivation. While LSD1 or HDAC1 inactivation caused the downregulation of Sox2 and Oct4 and induction of differentiation genes, such as FOXA2 or BMP2, depletion of MOF restored the levels of Sox2, Oct4, and FoxA2 in LSD1-deficient cells. Our studies reveal a novel mechanism by which LSD1 acts through the HDAC1- and MOF-mediated regulation of H4K16 acetylation to maintain the pluripotency of ES/EC cells.

摘要

LSD1 对于维持胚胎干细胞（ES）或胚胎癌细胞/畸胎瘤细胞（EC）的多能性至关重要。我们之前开发了新型 LSD1 抑制剂，它们可以选择性地抑制 ES/EC 细胞。然而，LSD1 的关键靶标仍不清楚。在这里，我们发现 LSD1 与组蛋白去乙酰化酶 1（HDAC1）相互作用，通过组蛋白 H4 赖氨酸 16（H4K16）的乙酰化来调节 ES/EC 细胞的增殖，我们证明 H4K16 是 HDAC1 的关键底物。如果 LSD1 复合物中的一个在 ES/EC 细胞或重建的蛋白质复合物中被化学抑制，LSD1 的去甲基酶和 HDAC1 的去乙酰化酶活性都会被失活。在 ES/EC 细胞中，HDAC1 的缺失模拟了 LSD1 失活的选择性生长抑制作用，并增加了 H3K4 甲基化和 H4K16 乙酰化的水平。通过消融乙酰转移酶男性缺失于第一（MOF）来减少乙酰化的 H4K16，足以挽救 LSD1 失活引起的生长抑制。虽然 LSD1 或 HDAC1 的失活导致 Sox2 和 Oct4 的下调和分化基因的诱导，如 FOXA2 或 BMP2，但 MOF 的耗竭恢复了 LSD1 缺陷细胞中 Sox2、Oct4 和 FoxA2 的水平。我们的研究揭示了 LSD1 通过 HDAC1 和 MOF 介导的 H4K16 乙酰化调节来维持 ES/EC 细胞多能性的新机制。

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