生物
背景(考古学)
细菌
神经活性类固醇
别孕甾酮
激素
微生物学
生理学
内分泌学
生物化学
受体
遗传学
古生物学
γ-氨基丁酸受体
作者
Megan D. McCurry,Gabriel D. D’Agostino,Jasmine T. Walsh,Jordan E. Bisanz,Ines Zalosnik,Xueyang Dong,David J. Morris,Joshua R. Korzenik,Andrea G. Edlow,Emily P. Balskus,Peter J. Turnbaugh,Jun R. Huh,A. Sloan Devlin
出处
期刊:Cell
[Elsevier]
日期:2024-05-24
卷期号:187 (12): 2952-2968.e13
被引量:10
标识
DOI:10.1016/j.cell.2024.05.005
摘要
Recent studies suggest that human-associated bacteria interact with host-produced steroids, but the mechanisms and physiological impact of such interactions remain unclear. Here, we show that the human gut bacteria Gordonibacter pamelaeae and Eggerthella lenta convert abundant biliary corticoids into progestins through 21-dehydroxylation, thereby transforming a class of immuno- and metabo-regulatory steroids into a class of sex hormones and neurosteroids. Using comparative genomics, homologous expression, and heterologous expression, we identify a bacterial gene cluster that performs 21-dehydroxylation. We also uncover an unexpected role for hydrogen gas production by gut commensals in promoting 21-dehydroxylation, suggesting that hydrogen modulates secondary metabolism in the gut. Levels of certain bacterial progestins, including allopregnanolone, better known as brexanolone, an FDA-approved drug for postpartum depression, are substantially increased in feces from pregnant humans. Thus, bacterial conversion of corticoids into progestins may affect host physiology, particularly in the context of pregnancy and women's health.
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