肠道微生物群通过成纤维细胞生长因子 23 调节内分泌维生素 D 代谢。

The Gut Microbiota Regulates Endocrine Vitamin D Metabolism through Fibroblast Growth Factor 23.

机构信息

Department of Veterinary and Biomedical Sciences, The Pennsylvania State University, University Park, PA, United States.

The Huck Institutes of Life Sciences, The Pennsylvania State University, University Park, PA, United States.

出版信息

Front Immunol. 2018 Mar 2;9:408. doi: 10.3389/fimmu.2018.00408. eCollection 2018.

DOI:10.3389/fimmu.2018.00408

PMID:29599772

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5863497/

Abstract

To determine the effect of the microbiota on vitamin D metabolism, serum 25-hydroxyvitamin D(25D), 24,25-dihydroxyvitamin D (24,25D), and 1,25-dihydroxyvitamin D (1,25D) were measured in germ-free (GF) mice before and after conventionalization (CN). GF mice had low levels of 25D, 24,25D, and 1,25D and were hypocalcemic. CN of the GF mice with microbiota, for 2 weeks recovered 25D, 24,25D, and 1,25D levels. Females had more 25D and 24,25D than males both as GF mice and after CN. Introducing a limited number of commensals (eight commensals) increased 25D and 24,25D to the same extent as CN. Monocolonization with the enteric pathogen increased 25D and 24,25D, but the values only increased after 4 weeks of colonization when inflammation resolved. Fibroblast growth factor (FGF) 23 was extremely high in GF mice. CN resulted in an increase in TNF-α expression in the colon 2 days after CN that coincided with a reduction in FGF23 by 3 days that eventually normalized 25D, 24,25D, 1,25D at 1-week post-CN and reinstated calcium homeostasis. Neutralization of FGF23 in GF mice raised 1,25D, without CN, demonstrating that the high FGF23 levels were responsible for the low calcium and 1,25D in GF mice. The microbiota induce inflammation in the GF mice that inhibits FGF23 to eventually reinstate homeostasis that includes increased 25D, 24,25D, and 1,25D levels. The microbiota through FGF23 regulates vitamin D metabolism.

摘要

为了确定微生物组对维生素 D 代谢的影响，我们在无菌（GF）小鼠常规化（CN）前后测量了血清 25-羟维生素 D（25D）、24,25-二羟维生素 D（24,25D）和 1,25-二羟维生素 D（1,25D）。GF 小鼠的 25D、24,25D 和 1,25D 水平较低，且低钙血症。用微生物组对 GF 小鼠进行 2 周的 CN 恢复了 25D、24,25D 和 1,25D 水平。GF 小鼠和 CN 后，雌性的 25D 和 24,25D 均高于雄性。引入有限数量的共生体（8 种共生体）将 25D 和 24,25D 增加到与 CN 相同的程度。与肠道病原体单定植增加了 25D 和 24,25D，但仅在定植 4 周后炎症消退时才增加。成纤维细胞生长因子（FGF）23 在 GF 小鼠中极高。CN 导致 CN 后 2 天结肠中 TNF-α表达增加，3 天内 FGF23 减少，最终在 CN 后 1 周使 25D、24,25D、1,25D 正常化并恢复钙稳态。在 GF 小鼠中中和 FGF23 可提高 1,25D，无需 CN，表明高 FGF23 水平是 GF 小鼠中低钙血症和 1,25D 的原因。微生物组在 GF 小鼠中诱导炎症，抑制 FGF23，最终恢复包括增加 25D、24,25D 和 1,25D 水平在内的稳态。微生物组通过 FGF23 调节维生素 D 代谢。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/769a/5863497/b9a36ff37694/fimmu-09-00408-g001.jpg

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肠道微生物群通过成纤维细胞生长因子 23 调节内分泌维生素 D 代谢。

The Gut Microbiota Regulates Endocrine Vitamin D Metabolism through Fibroblast Growth Factor 23.

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