围产期暴露于双酚A的小鼠在肥胖表型出现之前，肠道微生物群失调和免疫系统稳态受损。

Gut dysbiosis and impairment of immune system homeostasis in perinatally-exposed mice to Bisphenol A precede obese phenotype development.

作者信息

Malaisé Yann, Menard Sandrine, Cartier Christel, Gaultier Eric, Lasserre Frédéric, Lencina Corinne, Harkat Cherryl, Geoffre Nancy, Lakhal Laïla, Castan Isabelle, Olier Maïwenn, Houdeau Eric, Guzylack-Piriou Laurence

机构信息

Intestinal Development, Xenobiotics and ImmunoToxicology team, Toxalim (Research Centre in Food Toxicology), Université de Toulouse, INRA, ENVT, INP-Purpan, UPS, Toulouse, France.

Neuro-Gastroenterology and Nutrition team, Toxalim (Research Centre in Food Toxicology), Université de Toulouse, INRA, ENVT, INP-Purpan, UPS, Toulouse, France.

出版信息

Sci Rep. 2017 Nov 3;7(1):14472. doi: 10.1038/s41598-017-15196-w.

DOI:10.1038/s41598-017-15196-w

PMID:29101397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5670173/

Abstract

Epidemiology evidenced the Bisphenol A (BPA), a chemical found in daily consumer products, as an environmental contributor to obesity and type II diabetes (T2D) in Humans. However, the BPA-mediated effects supporting these metabolic disorders are still unknown. Knowing that obesity and T2D are associated with low-grade inflammation and gut dysbiosis, we performed a longitudinal study in mice to determine the sequential adverse effects of BPA on immune system and intestinal microbiota that could contribute to the development of metabolic disorders. We observed that perinatal exposure to BPA (50 µg/kg body weight/day) induced intestinal and systemic immune imbalances at PND45, through a decrease of Th1/Th17 cell frequencies in the lamina propria concomitant to an increase of splenic Th1/Th17 immune responses. These early effects are associated with an altered glucose sensitivity, a defect of IgA secretion into faeces and a fall of faecal bifidobacteria relative to control mice. Such BPA-mediated events precede infiltration of pro-inflammatory M1 macrophages in gonadal white adipose tissue appearing with ageing, together with a decreased insulin sensitivity and an increased weight gain. Our findings provide a better understanding of the sequential events provoked by perinatal exposure to BPA that could support metabolic disorder development in later life.

摘要

流行病学证明，双酚A（BPA）作为日常消费品中的一种化学物质，是导致人类肥胖和II型糖尿病（T2D）的一种环境因素。然而，支持这些代谢紊乱的双酚A介导的影响仍然未知。鉴于肥胖和T2D与低度炎症和肠道生态失调有关，我们对小鼠进行了一项纵向研究，以确定双酚A对免疫系统和肠道微生物群的一系列不良影响，这些影响可能导致代谢紊乱的发展。我们观察到，围产期暴露于双酚A（50微克/千克体重/天）在出生后第45天诱导肠道和全身免疫失衡，这是通过固有层中Th1/Th17细胞频率的降低，同时伴随着脾脏Th1/Th17免疫反应的增加。这些早期影响与葡萄糖敏感性改变、粪便中IgA分泌缺陷以及相对于对照小鼠粪便双歧杆菌数量的减少有关。这种双酚A介导的事件先于随着年龄增长在性腺白色脂肪组织中促炎M1巨噬细胞的浸润，同时伴随着胰岛素敏感性降低和体重增加。我们的研究结果更好地理解了围产期暴露于双酚A引发的一系列事件，这些事件可能支持晚年代谢紊乱的发展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dbfc/5670173/687f0eb95222/41598_2017_15196_Fig1_HTML.jpg

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围产期暴露于双酚A的小鼠在肥胖表型出现之前，肠道微生物群失调和免疫系统稳态受损。

Gut dysbiosis and impairment of immune system homeostasis in perinatally-exposed mice to Bisphenol A precede obese phenotype development.

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