Short-chain fatty acid metabolites propionate and butyrate are unique epigenetic regulatory elements linking diet, metabolism and gene expression

IF 18.9 1区医学 Q1 ENDOCRINOLOGY & METABOLISM

Nature metabolism Pub Date : 2025-01-09 DOI:10.1038/s42255-024-01191-9

Michael Nshanian, Joshua J. Gruber, Benjamin S. Geller, Faye Chleilat, Samuel M. Lancaster, Shannon M. White, Ludmila Alexandrova, Jeannie M. Camarillo, Neil L. Kelleher, Yingming Zhao, Michael P. Snyder

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Abstract

The short-chain fatty acids (SCFAs) propionate and butyrate have beneficial health effects, are produced in large amounts by microbial metabolism and have been identified as unique acyl lysine histone marks. To better understand the function of these modifications, we used chromatin immunoprecipitation followed by sequencing to map the genome-wide location of four short-chain acyl histone marks, H3K18pr, H3K18bu, H4K12pr and H4K12bu, in treated and untreated colorectal cancer (CRC) and normal cells as well as in mouse intestines in vivo. We correlate these marks with open chromatin regions and gene expression to access the function of the target regions. Our data demonstrate that propionate and butyrate bind and act as promoters of genes involved in growth, differentiation and ion transport. We propose a mechanism involving direct modification of specific genomic regions by SCFAs resulting in increased chromatin accessibility and, in the case of butyrate, opposing effects on the proliferation of normal versus CRC cells.

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短链脂肪酸代谢物丙酸酯和丁酸酯是连接饮食、代谢和基因表达的独特表观遗传调控元件

短链脂肪酸（SCFAs）丙酸酯和丁酸酯具有有益的健康作用，通过微生物代谢大量产生，并已被确定为独特的酰基赖氨酸组蛋白标记。为了更好地了解这些修饰的功能，我们使用染色质免疫沉淀和测序技术在治疗和未治疗的结直肠癌（CRC）和正常细胞以及小鼠肠道中绘制了四个短链酰基组蛋白标记H3K18pr、H3K18bu、H4K12pr和H4K12bu的全基因组定位。我们将这些标记与开放的染色质区域和基因表达联系起来，以获取目标区域的功能。我们的数据表明丙酸盐和丁酸盐结合并作为参与生长、分化和离子运输的基因的启动子。我们提出了一种机制，包括SCFAs直接修饰特定的基因组区域，从而增加染色质的可及性，并且在丁酸盐的情况下，对正常细胞和CRC细胞的增殖产生相反的影响。

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来源期刊

Nature metabolism ENDOCRINOLOGY & METABOLISM-

CiteScore

27.50

自引率

2.40%

发文量

170

期刊介绍： Nature Metabolism is a peer-reviewed scientific journal that covers a broad range of topics in metabolism research. It aims to advance the understanding of metabolic and homeostatic processes at a cellular and physiological level. The journal publishes research from various fields, including fundamental cell biology, basic biomedical and translational research, and integrative physiology. It focuses on how cellular metabolism affects cellular function, the physiology and homeostasis of organs and tissues, and the regulation of organismal energy homeostasis. It also investigates the molecular pathophysiology of metabolic diseases such as diabetes and obesity, as well as their treatment. Nature Metabolism follows the standards of other Nature-branded journals, with a dedicated team of professional editors, rigorous peer-review process, high standards of copy-editing and production, swift publication, and editorial independence. The journal has a high impact factor, has a certain influence in the international area, and is deeply concerned and cited by the majority of scholars.