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禁食诱导转录因子抑制维生素 D 的生物活化,这是糖尿病中维生素 D 缺乏的一种机制。

Fasting-Induced Transcription Factors Repress Vitamin D Bioactivation, a Mechanism for Vitamin D Deficiency in Diabetes.

机构信息

Research Unit of Biomedicine, Pharmacology and Toxicology, University of Oulu, Oulu, Finland.

Medical Research Center Oulu, Oulu University Hospital and University of Oulu, Oulu, Finland.

出版信息

Diabetes. 2019 May;68(5):918-931. doi: 10.2337/db18-1050. Epub 2019 Mar 4.

DOI:10.2337/db18-1050
PMID:30833469
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6477896/
Abstract

Low 25-hydroxyvitamin D levels correlate with the prevalence of diabetes; however, the mechanisms remain uncertain. Here, we show that nutritional deprivation-responsive mechanisms regulate vitamin D metabolism. Both fasting and diabetes suppressed hepatic cytochrome P450 (CYP) 2R1, the main vitamin D 25-hydroxylase responsible for the first bioactivation step. Overexpression of coactivator peroxisome proliferator-activated receptor γ coactivator 1-α (PGC-1α), induced physiologically by fasting and pathologically in diabetes, resulted in dramatic downregulation of CYP2R1 in mouse hepatocytes in an estrogen-related receptor α (ERRα)-dependent manner. However, PGC-1α knockout did not prevent fasting-induced suppression of CYP2R1 in the liver, indicating that additional factors contribute to the CYP2R1 repression. Furthermore, glucocorticoid receptor (GR) activation repressed the liver CYP2R1, suggesting GR involvement in the regulation of CYP2R1. GR antagonist mifepristone partially prevented CYP2R1 repression during fasting, suggesting that glucocorticoids and GR contribute to the CYP2R1 repression during fasting. Moreover, fasting upregulated the vitamin D catabolizing CYP24A1 in the kidney through the PGC-1α-ERRα pathway. Our study uncovers a molecular mechanism for vitamin D deficiency in diabetes and reveals a novel negative feedback mechanism that controls crosstalk between energy homeostasis and the vitamin D pathway.

摘要

低水平的 25-羟维生素 D 与糖尿病的患病率相关;然而,其机制尚不清楚。在这里,我们表明营养剥夺反应机制调节维生素 D 代谢。禁食和糖尿病均抑制肝脏细胞色素 P450(CYP)2R1,其为负责第一生物活化步骤的主要维生素 D 25-羟化酶。过表达共激活因子过氧化物酶体增殖物激活受体 γ 共激活因子 1-α(PGC-1α),该因子在禁食时生理性地诱导,在糖尿病时病理性地诱导,导致鼠肝细胞中 CYP2R1 的显著下调,这种下调依赖于雌激素相关受体 α(ERRα)。然而,PGC-1α 敲除并不能阻止禁食引起的肝脏 CYP2R1 的抑制,表明其他因素也有助于 CYP2R1 的抑制。此外,糖皮质激素受体(GR)的激活抑制肝脏 CYP2R1,表明 GR 参与 CYP2R1 的调节。GR 拮抗剂米非司酮部分阻止了禁食期间 CYP2R1 的抑制,表明糖皮质激素和 GR 有助于禁食期间 CYP2R1 的抑制。此外,禁食通过 PGC-1α-ERRα 通路在上皮细胞中上调肾脏的维生素 D 代谢酶 CYP24A1。我们的研究揭示了糖尿病中维生素 D 缺乏的分子机制,并揭示了一种新的负反馈机制,该机制控制了能量稳态和维生素 D 途径之间的串扰。

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Plasma 25-Hydroxyvitamin D Concentration and Risk of Islet Autoimmunity.血浆25-羟基维生素D浓度与胰岛自身免疫风险
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Low-Frequency Synonymous Coding Variation in CYP2R1 Has Large Effects on Vitamin D Levels and Risk of Multiple Sclerosis.CYP2R1基因中的低频同义编码变异对维生素D水平和多发性硬化症风险有重大影响。
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