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通过原肌球蛋白3赖氨酸141的2-羟基异丁酰化调节异常血管收缩:以组蛋白去乙酰化酶3为关键靶点。

Modulation of Abnormal Vasoconstriction Through 2-Hydroxyisobutyrylation of Tropomyosin 3 Lys141: Targeting Histone Deacetylase 3 as a Key Approach.

作者信息

Pang Pan-Pan, Liu Jiang-Xin, Su Wen-Bin, Gao Wen-Cong, Qiao Guan-Rong, Yuan Jing, Zheng Yong-Tang, Zheng Chang-Bo

机构信息

School of Pharmaceutical Science and Yunnan Key Laboratory of Pharmacology for Natural Products Kunming Medical University Kunming China.

Key Laboratory of Bioactive Peptides of Yunnan Province, KIZ-CUHK Joint Laboratory of Bioresources and Molecular Research in Common Diseases Kunming Institute of Zoology, Chinese Academy of Sciences Kunming China.

出版信息

J Am Heart Assoc. 2025 Jan 7;14(1):e037400. doi: 10.1161/JAHA.124.037400. Epub 2024 Dec 24.

DOI:10.1161/JAHA.124.037400
PMID:39719422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12054413/
Abstract

BACKGROUND

TPM3 (tropomyosin 3) is an actin-binding protein in vascular smooth muscle cells, where posttranslational modifications critically regulate its actin affinity, influencing cardiovascular function. Emerging evidence suggests that Khib (2-hydroxyisobutyrylation) plays a significant role in the cardiovascular system. Histone deacetylase 3 (HDAC3) serves as an "eraser" of Khib marks. However, the impact of TPM3 de-2-hydroxyisobutyrylation on vascular contraction remains unclear.

METHODS AND RESULTS

In this study, we employed mouse models and in vitro experiments to elucidate the mechanism by which phenylephrine-induced HDAC3 activation drives vasoconstriction via de-2-hydroxyisobutyrylation of TPM3. Our findings demonstrate that phenylephrine triggers HDAC3 nuclear export and promotes its interaction with TPM3, resulting in decreased Khib modification and enhanced vasoconstriction. Coimmunoprecipitation experiments confirmed that phenylephrine reduces Khib levels on TPM3 in mouse aorta. Additionally, ex vivo vascular tension assays using mouse aortic rings revealed that treatment with the Khib donor, ethyl 2-hydroxyisobutyrate, induces endothelium-independent vasodilation and ameliorates hypertensive vascular dysfunction. Molecular docking and kinetic simulations identified Lys141 of TPM3 as the primary site targeted by HDAC3-mediated de-2-hydroxyisobutyrylation. This was further validated by adenoviral transfection of isolated blood vessels with a Lys141-mutated TPM3 construct, which abolished the effects of HDAC3 on TPM3 Khib modification and vascular contractility.

CONCLUSIONS

These findings underscore the critical role of TPM3 de-2-hydroxyisobutyrylation in vasoconstriction and suggest that modulating this posttranslational modification could provide a novel therapeutic strategy for hypertensive vascular dysfunction.

摘要

背景

TPM3(原肌球蛋白3)是血管平滑肌细胞中的一种肌动蛋白结合蛋白,其翻译后修饰对其肌动蛋白亲和力起关键调节作用,影响心血管功能。新出现的证据表明,2-羟基异丁酰化(Khib)在心血管系统中发挥重要作用。组蛋白去乙酰化酶3(HDAC3)充当Khib标记的“擦除器”。然而,TPM3去2-羟基异丁酰化对血管收缩的影响仍不清楚。

方法和结果

在本研究中,我们使用小鼠模型和体外实验来阐明去氧肾上腺素诱导的HDAC3激活通过TPM3的去2-羟基异丁酰化驱动血管收缩的机制。我们的研究结果表明,去氧肾上腺素触发HDAC3核输出并促进其与TPM3的相互作用,导致Khib修饰减少和血管收缩增强。免疫共沉淀实验证实,去氧肾上腺素降低了小鼠主动脉中TPM3上的Khib水平。此外,使用小鼠主动脉环进行的离体血管张力测定表明,用Khib供体2-羟基异丁酸乙酯处理可诱导非内皮依赖性血管舒张并改善高血压血管功能障碍。分子对接和动力学模拟确定TPM3的Lys141是HDAC3介导的去2-羟基异丁酰化的主要靶点。用Lys141突变的TPM3构建体对分离的血管进行腺病毒转染进一步验证了这一点,该构建体消除了HDAC3对TPM3 Khib修饰和血管收缩性的影响。

结论

这些发现强调了TPM3去2-羟基异丁酰化在血管收缩中的关键作用,并表明调节这种翻译后修饰可为高血压血管功能障碍提供一种新的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/3f2cfb53752a/JAH3-14-e037400-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/72ab91b2d7a9/JAH3-14-e037400-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/d5aef9c01189/JAH3-14-e037400-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/c7d1de886907/JAH3-14-e037400-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/c21c422f07c7/JAH3-14-e037400-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/371a8a952f3a/JAH3-14-e037400-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/3f2cfb53752a/JAH3-14-e037400-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/72ab91b2d7a9/JAH3-14-e037400-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/d5aef9c01189/JAH3-14-e037400-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/c7d1de886907/JAH3-14-e037400-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/c21c422f07c7/JAH3-14-e037400-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/371a8a952f3a/JAH3-14-e037400-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f35/12054413/3f2cfb53752a/JAH3-14-e037400-g001.jpg

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