整合组学方法揭示了持续的 DNA 损伤通过 MYS-1/Tip60 重编脂质代谢和组蛋白超乙酰化。

Integrated -omics approach reveals persistent DNA damage rewires lipid metabolism and histone hyperacetylation via MYS-1/Tip60.

机构信息

Aging Institute of UPMC and the University of Pittsburgh School of Medicine, 100 Technology Dr., Pittsburgh, PA 15219, USA.

Department of Critical Care Medicine, University of Pittsburgh School of Medicine, Pittsburgh, PA 15260, USA.

出版信息

Sci Adv. 2022 Feb 18;8(7):eabl6083. doi: 10.1126/sciadv.abl6083. Epub 2022 Feb 16.

DOI:10.1126/sciadv.abl6083

PMID:35171671

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8849393/

Abstract

Although DNA damage is intricately linked to metabolism, the metabolic alterations that occur in response to DNA damage are not well understood. We use a DNA repair-deficient model of ERCC1-XPF in to gain insights on how genotoxic stress drives aging. Using multi-omic approach, we discover that nuclear DNA damage promotes mitochondrial β-oxidation and drives a global loss of fat depots. This metabolic shift to β-oxidation generates acetyl-coenzyme A to promote histone hyperacetylation and an associated change in expression of immune-effector and cytochrome genes. We identify the histone acetyltransferase MYS-1, as a critical regulator of this metabolic-epigenetic axis. We show that in response to DNA damage, polyunsaturated fatty acids, especially arachidonic acid (AA) and AA-related lipid mediators, are elevated and this is dependent on . Together, these findings reveal that DNA damage alters the metabolic-epigenetic axis to drive an immune-like response that can promote age-associated decline.

摘要

尽管 DNA 损伤与新陈代谢密切相关，但对于 DNA 损伤所引起的代谢变化，我们还知之甚少。我们使用 ERCC1-XPF 基因缺陷型模型来深入了解遗传毒性应激如何导致衰老。通过多组学方法，我们发现核 DNA 损伤会促进线粒体 β-氧化，并导致脂肪组织的全面丧失。这种代谢向β-氧化的转变产生乙酰辅酶 A，促进组蛋白过度乙酰化，并导致免疫效应和细胞色素基因表达的变化。我们确定了组蛋白乙酰转移酶 MYS-1 是这个代谢-表观遗传轴的关键调节因子。我们表明，在 DNA 损伤的情况下，多不饱和脂肪酸，特别是花生四烯酸 (AA) 和与 AA 相关的脂质介质，会升高，而这取决于。总之，这些发现表明，DNA 损伤会改变代谢-表观遗传轴，引发类似于免疫的反应，从而促进与年龄相关的衰退。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf31/8849393/9472d976f303/sciadv.abl6083-f1.jpg

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整合组学方法揭示了持续的 DNA 损伤通过 MYS-1/Tip60 重编脂质代谢和组蛋白超乙酰化。

Integrated -omics approach reveals persistent DNA damage rewires lipid metabolism and histone hyperacetylation via MYS-1/Tip60.

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