通过雌激素相关受体α介导的饮食诱导肥胖与肠道功能无关

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.10.602978
Kiranmayi Vemuri, Jahangir Iqbal, S. Kumar, Alexandra Logerfo, Michael P. Verzi
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引用次数: 0

摘要

肥胖症已成为一种流行病,促使针对这种病症的疗法取得了进展。雌激素相关受体α(ESRRA)是一种转录因子,在不同组织的能量代谢中发挥着关键作用。研究表明,Esrra的缺失会导致脂肪吸收不良,并对饮食引起的肥胖产生抵抗力。然而,这些研究依赖于种系Esrra突变体,忽略了ESRRA在饮食诱导肥胖中的组织特异性影响。值得注意的是,与其他组织相比,Esrra在胃肠道(GI)中的表达量较高。鉴于胃肠道在膳食脂质代谢中的关键作用,本研究采用小鼠遗传学和基因组学方法剖析肠道 ESRRA 的具体影响,并研究其在膳食诱导肥胖中的作用。数据透明度 本出版物中的 ChIP-seq 和 RNA-seq 数据已分别存入 GSE269824 和 GSE269825。如需重新分析本文所报道数据的任何其他信息,可向相应作者索取。资助 本研究由美国国立卫生研究院(NIH)资助 M.P.V.(R01DK121915 和 R01DK126446)。K.V.获得了美国心脏协会博士前期奖学金(906006)的资助。S.K. 获得了罗格斯大学 DLS 暑期本科生研究奖学金的资助。A.L. 获得了美国国立卫生研究院 F31DK137596 和美国国立卫生研究院 T32 生物技术培训项目 (GM135141) 的资助。内容仅代表作者本人,不代表美国国立卫生研究院的官方观点。披露 作者不声明任何利益冲突。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diet-induced obesity mediated through Estrogen-Related Receptor α is independent of intestinal function
Obesity has become an epidemic, prompting advances in therapies targeting this condition. Estrogen-related receptor α (ESRRA), a transcription factor, plays pivotal roles in energy metabolism across diverse tissues. Studies have demonstrated that loss of Esrra leads to fat malabsorption and resistance to diet-induced obesity. However, the reliance of these studies on germline Esrra mutants overlooks the tissue-specific implications of ESRRA in diet-induced obesity. Notably, Esrra exhibits high expression in the gastrointestinal (GI) tract relative to other tissues. Given the critical role of the GI tract in dietary lipid metabolism, this study employs mouse genetics and genomics approaches to dissect the specific impact of intestinal ESRRA along with investigating its role in diet-induced obesity. Data Transparency ChIP-seq and RNA-seq data from this publication have been deposited to GEO accession numbers GSE269824 and GSE269825, respectively. Any additional information required to reanalyze the data reported in this paper is available from the corresponding author upon request. Grant Support This research was funded by grants from the National Institutes of Health (NIH) to M.P.V. (R01DK121915 and R01DK126446). K.V. was supported by an American Heart Association pre-doctoral fellowship (906006). S.K. was supported by a Rutgers DLS Summer Undergraduate Research Fellowship. A.L. was supported by grants from the NIH grant F31DK137596 and the NIH T32 Biotechnology Training Program (GM135141). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. Disclosures The authors declare no competing interests.
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