酵母 Nat4 通过其 N 端对组蛋白 H4 的乙酰转移酶活性调节 DNA 损伤检查点信号传导。

IF 4 2区 生物学 Q1 GENETICS & HEREDITY PLoS Genetics Pub Date : 2024-10-02 eCollection Date: 2024-10-01 DOI:10.1371/journal.pgen.1011433
Mamantia Constantinou, Evelina Charidemou, Izge Shanlitourk, Katerina Strati, Antonis Kirmizis
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引用次数: 0

摘要

DNA 损伤应答(DDR)是保障基因组完整性的重要细胞过程。这一生物过程涉及染色质结构的重大改变,通常由表观遗传酶来协调。在这里,我们发现表观遗传修饰因子 N-末端乙酰转移酶 4(Nat4)参与了 S. cerevisiae 对 DNA 损伤的反应,已知它能对组蛋白 H4 和 H2A 上丝氨酸 1 的α-氨基进行乙酰化。我们初步证明,与野生型细胞相比,缺乏 Nat4 的酵母细胞对 DNA 损伤的敏感性更高,积累的 DNA 断裂也更多。因此,DNA损伤时,NAT4基因表达升高,该酶被特异性地招募到双链断裂处。深入研究其对 DNA 损伤信号级联的影响,NAT4 缺失的细胞表现出较低水平的损伤诱导修饰 H2AS129ph(γH2A),同时双链断裂周围的检查点控制蛋白 Rad9 结合减少。在 nat4Δ 细胞中,对 H2AS129ph 沉积和 Rad9 保持至关重要的 Mec1 激酶在双链断裂处的招募受到了明显的影响。因此,Mec1依赖的下游效应激酶Rad53的磷酸化减少,这表明DNA损伤检查点被激活。重要的是,我们发现,Nat4 在调节检查点信号级联方面的作用是由其 N 端乙酰转移酶活性介导的,该活性专门针对组蛋白 H4。总之,这项研究指出了组蛋白N-端乙酰转移酶Nat4与DDR之间新的功能联系,在维护基因组完整性的过程中产生了一种新的组蛋白修饰活性。
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Yeast Nat4 regulates DNA damage checkpoint signaling through its N-terminal acetyltransferase activity on histone H4.

The DNA damage response (DDR) constitutes a vital cellular process that safeguards genome integrity. This biological process involves substantial alterations in chromatin structure, commonly orchestrated by epigenetic enzymes. Here, we show that the epigenetic modifier N-terminal acetyltransferase 4 (Nat4), known to acetylate the alpha-amino group of serine 1 on histones H4 and H2A, is implicated in the response to DNA damage in S. cerevisiae. Initially, we demonstrate that yeast cells lacking Nat4 have an increased sensitivity to DNA damage and accumulate more DNA breaks than wild-type cells. Accordingly, upon DNA damage, NAT4 gene expression is elevated, and the enzyme is specifically recruited at double-strand breaks. Delving deeper into its effects on the DNA damage signaling cascade, nat4-deleted cells exhibit lower levels of the damage-induced modification H2AS129ph (γH2A), accompanied by diminished binding of the checkpoint control protein Rad9 surrounding the double-strand break. Consistently, Mec1 kinase recruitment at double-strand breaks, critical for H2AS129ph deposition and Rad9 retention, is significantly impaired in nat4Δ cells. Consequently, Mec1-dependent phosphorylation of downstream effector kinase Rad53, indicative of DNA damage checkpoint activation, is reduced. Importantly, we found that the effects of Nat4 in regulating the checkpoint signaling cascade are mediated by its N-terminal acetyltransferase activity targeted specifically towards histone H4. Overall, this study points towards a novel functional link between histone N-terminal acetyltransferase Nat4 and the DDR, associating a new histone-modifying activity in the maintenance of genome integrity.

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PLoS Genetics
PLoS Genetics GENETICS & HEREDITY-
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期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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