2 型糖尿病小鼠特定的肠道微生物失调通过肠源性 NO 依赖和肠道-大脑轴机制诱导 GLP-1 抵抗。

A Specific Gut Microbiota Dysbiosis of Type 2 Diabetic Mice Induces GLP-1 Resistance through an Enteric NO-Dependent and Gut-Brain Axis Mechanism.

机构信息

Institut National de la Santé et de la Recherche Médicale (INSERM), 31024 Toulouse, France; Université Paul Sabatier (UPS), Unité Mixte de Recherche (UMR) 1048, Institut des Maladies Métaboliques et Cardiovasculaires (I2MC), Team 2: Intestinal Risk Factors, Diabetes, Dyslipidemia, Heart Failure, F-31432 Toulouse, Cedex 4, France.

出版信息

Cell Metab. 2017 May 2;25(5):1075-1090.e5. doi: 10.1016/j.cmet.2017.04.013.

DOI:10.1016/j.cmet.2017.04.013

PMID:28467926

Abstract

Glucagon-like peptide-1 (GLP-1)-based therapies control glycemia in type 2 diabetic (T2D) patients. However, in some patients the treatment must be discontinued, defining a state of GLP-1 resistance. In animal models we identified a specific set of ileum bacteria impairing the GLP-1-activated gut-brain axis for the control of insulin secretion and gastric emptying. Using prediction algorithms, we identified bacterial pathways related to amino acid metabolism and transport system modules associated to GLP-1 resistance. The conventionalization of germ-free mice demonstrated their role in enteric neuron biology and the gut-brain-periphery axis. Altogether, insulin secretion and gastric emptying require functional GLP-1 receptor and neuronal nitric oxide synthase in the enteric nervous system within a eubiotic gut microbiota environment. Our data open a novel route to improve GLP-1-based therapies.

摘要

胰高血糖素样肽-1（GLP-1）类药物可控制 2 型糖尿病（T2D）患者的血糖。然而，在某些患者中，治疗必须停止，这定义了一种 GLP-1 抵抗状态。在动物模型中，我们发现了一组特定的回肠细菌，它们破坏了 GLP-1 激活的肠道-大脑轴，以控制胰岛素分泌和胃排空。使用预测算法，我们确定了与氨基酸代谢相关的细菌途径和与 GLP-1 抵抗相关的运输系统模块。无菌小鼠的常规化证明了它们在肠神经元生物学和肠道-大脑-外周轴中的作用。总的来说，胰岛素分泌和胃排空需要功能性 GLP-1 受体和肠神经系统中的神经元型一氧化氮合酶，在一个共生的肠道微生物群环境中。我们的数据为改善基于 GLP-1 的治疗方法开辟了一条新途径。

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2 型糖尿病小鼠特定的肠道微生物失调通过肠源性 NO 依赖和肠道-大脑轴机制诱导 GLP-1 抵抗。

A Specific Gut Microbiota Dysbiosis of Type 2 Diabetic Mice Induces GLP-1 Resistance through an Enteric NO-Dependent and Gut-Brain Axis Mechanism.

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