MYC acetylated lysine residues drive oncogenic cell transformation and regulate select genetic programs for cell adhesion-independent growth and survival.

IF 7.5 1区生物学 Q1 CELL BIOLOGY

Genes & development Pub Date : 2023-10-01 Epub Date: 2023-10-18 DOI:10.1101/gad.350736.123

Matthew Hurd, Jeffrey Pino, Kay Jang, Michael M Allevato, Marina Vorontchikhina, Wataru Ichikawa, Yifan Zhao, Ryan Gates, Emily Villalpando, Michael J Hamilton, Francesco Faiola, Songqin Pan, Yue Qi, Yu-Wen Hung, Thomas Girke, David Ann, Victoria Seewaldt, Ernest Martinez

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Abstract

The MYC oncogenic transcription factor is acetylated by the p300 and GCN5 histone acetyltransferases. The significance of MYC acetylation and the functions of specific acetylated lysine (AcK) residues have remained unclear. Here, we show that the major p300-acetylated K148(149) and K157(158) sites in human (or mouse) MYC and the main GCN5-acetylated K323 residue are reversibly acetylated in various malignant and nonmalignant cells. Oncogenic overexpression of MYC enhances its acetylation and alters the regulation of site-specific acetylation by proteasome and deacetylase inhibitors. Acetylation of MYC at different K residues differentially affects its stability in a cell type-dependent manner. Lysine-to-arginine substitutions indicate that although none of the AcK residues is required for MYC stimulation of adherent cell proliferation, individual AcK sites have gene-specific functions controlling select MYC-regulated processes in cell adhesion, contact inhibition, apoptosis, and/or metabolism and are required for the malignant cell transformation activity of MYC. Each AcK site is required for anchorage-independent growth of MYC-overexpressing cells in vitro, and both the AcK148(149) and AcK157(158) residues are also important for the tumorigenic activity of MYC transformed cells in vivo. The MYC AcK site-specific signaling pathways identified may offer new avenues for selective therapeutic targeting of MYC oncogenic activities.

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MYC乙酰化赖氨酸残基驱动致癌细胞转化，并调节细胞粘附无关生长和存活的选择性遗传程序。

MYC致癌转录因子被p300和GCN5组蛋白乙酰转移酶乙酰化。MYC乙酰化的意义和特定乙酰化赖氨酸（AcK）残基的功能尚不清楚。在这里，我们发现人（或小鼠）MYC中的主要p300乙酰化K148（149）和K157（158）位点以及主要GCN5乙酰化K323残基在各种恶性和非恶性细胞中可逆地乙酰化。MYC的致癌过表达增强了其乙酰化，并改变了蛋白酶体和脱乙酰酶抑制剂对位点特异性乙酰化的调节。MYC在不同K残基上的乙酰化以细胞类型依赖的方式不同地影响其稳定性。赖氨酸到精氨酸的取代表明，尽管没有AcK残基是MYC刺激粘附细胞增殖所必需的，但单个AcK位点具有控制细胞粘附、接触抑制、细胞凋亡和/或代谢中选择的MYC调节过程的基因特异性功能，并且是MYC的恶性细胞转化活性所必需的。每个AcK位点对于体外MYC过表达细胞的锚定非依赖性生长是必需的，并且AcK148（149）和AcK157（158）残基对于体内MYC转化细胞的致瘤活性也是重要的。所鉴定的MYC-AcK位点特异性信号通路可能为MYC致癌活性的选择性治疗靶向提供新的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Genes & development 生物-发育生物学

CiteScore

17.50

自引率

1.90%

发文量

审稿时长

3-6 weeks

期刊介绍： Genes & Development is a research journal published in association with The Genetics Society. It publishes high-quality research papers in the areas of molecular biology, molecular genetics, and related fields. The journal features various research formats including Research papers, short Research Communications, and Resource/Methodology papers. Genes & Development has gained recognition and is considered as one of the Top Five Research Journals in the field of Molecular Biology and Genetics. It has an impressive Impact Factor of 12.89. The journal is ranked #2 among Developmental Biology research journals, #5 in Genetics and Heredity, and is among the Top 20 in Cell Biology (according to ISI Journal Citation Reports®, 2021).