赖氨酸丙二酰化的蛋白质组学和生物化学研究表明其在丙二酸尿症中对线粒体功能和脂肪酸氧化具有调节作用。

Proteomic and Biochemical Studies of Lysine Malonylation Suggest Its Malonic Aciduria-associated Regulatory Role in Mitochondrial Function and Fatty Acid Oxidation.

作者信息

Colak Gozde, Pougovkina Olga, Dai Lunzhi, Tan Minjia, Te Brinke Heleen, Huang He, Cheng Zhongyi, Park Jeongsoon, Wan Xuelian, Liu Xiaojing, Yue Wyatt W, Wanders Ronald J A, Locasale Jason W, Lombard David B, de Boer Vincent C J, Zhao Yingming

机构信息

From the Ben May Department of Cancer Research, University of Chicago, Chicago, Illinois 60637.

Laboratory of Genetic Metabolic Diseases, Department of Clinical Chemistry and.

出版信息

Mol Cell Proteomics. 2015 Nov;14(11):3056-71. doi: 10.1074/mcp.M115.048850. Epub 2015 Aug 28.

DOI:10.1074/mcp.M115.048850

PMID:26320211

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4638046/

Abstract

The protein substrates of sirtuin 5-regulated lysine malonylation (Kmal) remain unknown, hindering its functional analysis. In this study, we carried out proteomic screening, which identified 4042 Kmal sites on 1426 proteins in mouse liver and 4943 Kmal sites on 1822 proteins in human fibroblasts. Increased malonyl-CoA levels in malonyl-CoA decarboxylase (MCD)-deficient cells induces Kmal levels in substrate proteins. We identified 461 Kmal sites showing more than a 2-fold increase in response to MCD deficiency as well as 1452 Kmal sites detected only in MCD-/- fibroblast but not MCD+/+ cells, suggesting a pathogenic role of Kmal in MCD deficiency. Cells with increased lysine malonylation displayed impaired mitochondrial function and fatty acid oxidation, suggesting that lysine malonylation plays a role in pathophysiology of malonic aciduria. Our study establishes an association between Kmal and a genetic disease and offers a rich resource for elucidating the contribution of the Kmal pathway and malonyl-CoA to cellular physiology and human diseases.

摘要

沉默调节蛋白5调控的赖氨酸丙二酰化（Kmal）的蛋白质底物仍不清楚，这阻碍了对其功能的分析。在本研究中，我们进行了蛋白质组学筛选，在小鼠肝脏的1426种蛋白质上鉴定出4042个Kmal位点，在人成纤维细胞的1822种蛋白质上鉴定出4943个Kmal位点。丙二酰辅酶A脱羧酶（MCD）缺陷细胞中丙二酰辅酶A水平的升高会诱导底物蛋白中的Kmal水平。我们鉴定出461个因MCD缺陷而增加超过2倍的Kmal位点，以及仅在MCD - / - 成纤维细胞而非MCD + / + 细胞中检测到的1452个Kmal位点，这表明Kmal在MCD缺陷中具有致病作用。赖氨酸丙二酰化增加的细胞表现出线粒体功能和脂肪酸氧化受损，这表明赖氨酸丙二酰化在丙二酸尿症的病理生理学中起作用。我们的研究建立了Kmal与一种遗传疾病之间的关联，并为阐明Kmal途径和丙二酰辅酶A对细胞生理学和人类疾病的贡献提供了丰富的资源。

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Proteomic and Biochemical Studies of Lysine Malonylation Suggest Its Malonic Aciduria-associated Regulatory Role in Mitochondrial Function and Fatty Acid Oxidation.赖氨酸丙二酰化的蛋白质组学和生物化学研究表明其在丙二酸尿症中对线粒体功能和脂肪酸氧化具有调节作用。

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SIRT5 Regulates both Cytosolic and Mitochondrial Protein Malonylation with Glycolysis as a Major Target.SIRT5通过将糖酵解作为主要靶点来调节胞质和线粒体蛋白的丙二酰化。

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