肠道-大脑信号在能量平衡中的作用：微生物衍生琥珀酸的意外作用。

Gut-brain signaling in energy homeostasis: the unexpected role of microbiota-derived succinate.

机构信息

Institut National de la Santé et de la Recherche MédicaleU1213, Lyon, France.

Université Lyon 1Villeurbanne, France.

出版信息

J Endocrinol. 2018 Feb;236(2):R105-R108. doi: 10.1530/JOE-17-0542.

DOI:10.1530/JOE-17-0542

PMID:29321189

Abstract

In the context of the obesity epidemic, dietary fibers that are found essentially in fruit and vegetables attract more and more attention, since they exert numerous metabolic benefits resulting in the moderation of body weight. Short-chain fatty acids, such as propionate and butyrate, produced through their fermentation by the intestinal microbiota, have long been thought to be the mediators of these benefits. In fact, propionate and butyrate were recently shown to activate intestinal gluconeogenesis, a function exerting metabolic benefits via its capacity of signaling to the brain by gastrointestinal nerves. Recently, succinate, the precursor of propionate in the bacterial metabolism, has also been shown to exert signaling properties, including the activation of intestinal gluconeogenesis.

摘要

在肥胖症流行的情况下，主要存在于水果和蔬菜中的膳食纤维引起了越来越多的关注，因为它们发挥了许多代谢益处，从而调节体重。短链脂肪酸，如通过肠道微生物发酵产生的丙酸和丁酸，长期以来一直被认为是这些益处的介导物。事实上，最近研究表明丙酸和丁酸能够激活肠道葡萄糖生成，该功能通过胃肠道神经向大脑发出信号来发挥代谢益处。最近，细菌代谢中丙酸的前体琥珀酸也被证明具有信号传导特性，包括激活肠道葡萄糖生成。

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肠道-大脑信号在能量平衡中的作用：微生物衍生琥珀酸的意外作用。

Gut-brain signaling in energy homeostasis: the unexpected role of microbiota-derived succinate.

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