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HDAC3 在心肌病中的去乙酰化酶依赖和非依赖作用。

Deacetylase-dependent and -independent role of HDAC3 in cardiomyopathy.

机构信息

Department of Biochemistry and Molecular Biology, College of Hengyang Medical, University of South China, Hengyang, China.

Development Aging and Regeneration Program, Sanford Burnham Prebys Medical Discovery Institute, La Jolla, California, USA.

出版信息

J Cell Physiol. 2023 Mar;238(3):647-658. doi: 10.1002/jcp.30957. Epub 2023 Feb 6.

DOI:10.1002/jcp.30957
PMID:36745702
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10152801/
Abstract

Cardiomyopathy is a common disease of cardiac muscle that negatively affects cardiac function. HDAC3 commonly functions as corepressor by removing acetyl moieties from histone tails. However, a deacetylase-independent role of HDAC3 has also been described. Cardiac deletion of HDAC3 causes reduced cardiac contractility accompanied by lipid accumulation, but the molecular function of HDAC3 in cardiomyopathy remains unknown. We have used powerful genetic tools in Drosophila to investigate the enzymatic and nonenzymatic roles of HDAC3 in cardiomyopathy. Using the Drosophila heart model, we showed that cardiac-specific HDAC3 knockdown (KD) leads to prolonged systoles and reduced cardiac contractility. Immunohistochemistry revealed structural abnormalities characterized by myofiber disruption in HDAC3 KD hearts. Cardiac-specific HDAC3 KD showed increased levels of whole-body triglycerides and increased fibrosis. The introduction of deacetylase-dead HDAC3 mutant in HDAC3 KD background showed comparable results with wild-type HDAC3 in aspects of contractility and Pericardin deposition. However, deacetylase-dead HDAC3 mutants failed to improve triglyceride accumulation. Our data indicate that HDAC3 plays a deacetylase-independent role in maintaining cardiac contractility and preventing Pericardin deposition as well as a deacetylase-dependent role to maintain triglyceride homeostasis.

摘要

心肌病是一种常见的心肌疾病,会对心脏功能产生负面影响。HDAC3 通常作为核心抑制剂,通过从组蛋白尾部去除乙酰基来发挥作用。然而,也描述了 HDAC3 的去乙酰化酶非依赖性作用。心脏中 HDAC3 的缺失会导致心肌收缩力降低,并伴有脂质积累,但 HDAC3 在心肌病中的分子功能仍不清楚。我们使用强大的遗传工具在果蝇中研究了 HDAC3 在心肌病中的酶和非酶作用。使用果蝇心脏模型,我们表明心脏特异性的 HDAC3 敲低(KD)导致收缩期延长和心肌收缩力降低。免疫组织化学显示,HDAC3 KD 心脏存在结构异常,表现为肌纤维断裂。心脏特异性 HDAC3 KD 显示全身甘油三酯水平升高和纤维化增加。在 HDAC3 KD 背景下引入去乙酰化酶失活的 HDAC3 突变体,在收缩性和 Pericardin 沉积方面与野生型 HDAC3 具有可比的结果。然而,去乙酰化酶失活的 HDAC3 突变体未能改善甘油三酯的积累。我们的数据表明,HDAC3 在维持心肌收缩力和防止 Pericardin 沉积方面发挥去乙酰化酶非依赖性作用,以及在维持甘油三酯稳态方面发挥去乙酰化酶依赖性作用。

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