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Comparative Analyses of the 12 Most Abundant PCB Congeners Detected in Human Maternal Serum for Activity at the Thyroid Hormone Receptor and Ryanodine Receptor.比较分析人母血清中检测到的 12 种含量最丰富的多氯联苯同系物在甲状腺激素受体和兰尼碱受体上的活性。
Environ Sci Technol. 2019 Apr 2;53(7):3948-3958. doi: 10.1021/acs.est.9b00535. Epub 2019 Mar 19.
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NOD1 and NOD2 in inflammation, immunity and disease.NOD1 和 NOD2 在炎症、免疫和疾病中的作用。
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The contribution of environmental exposure to the etiology of autism spectrum disorder.环境暴露对自闭症谱系障碍病因的贡献。
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Gut Microbiota Modulates Interactions Between Polychlorinated Biphenyls and Bile Acid Homeostasis.肠道微生物群调节多氯联苯与胆汁酸动态平衡之间的相互作用。
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A Prospective Study of Environmental Exposures and Early Biomarkers in Autism Spectrum Disorder: Design, Protocols, and Preliminary Data from the MARBLES Study.自闭症谱系障碍的环境暴露与早期生物标志物的前瞻性研究:MARBLES 研究的设计、方案和初步数据。
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7
Dioxin-like PCB 126 increases intestinal inflammation and disrupts gut microbiota and metabolic homeostasis.二恶英样多氯联苯 126 可增加肠道炎症,并破坏肠道微生物群和代谢稳态。
Environ Pollut. 2018 Nov;242(Pt A):1022-1032. doi: 10.1016/j.envpol.2018.07.039. Epub 2018 Jul 17.
8
Genetic mutations in Ca signaling alter dendrite morphology and social approach in juvenile mice.钙信号传导中的基因突变会改变幼年小鼠的树突形态和社交行为。
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9
Neuroimmunophysiology of the gut: advances and emerging concepts focusing on the epithelium.肠道的神经免疫生理学:关注上皮细胞的进展和新兴概念。
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Dietary Considerations in Autism Spectrum Disorders: The Potential Role of Protein Digestion and Microbial Putrefaction in the Gut-Brain Axis.自闭症谱系障碍中的饮食考量:蛋白质消化与肠道微生物腐败在肠脑轴中的潜在作用
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母体饮食中多氯联苯(PCBs)的发育暴露导致断奶后代小鼠的宿主-微生物缺陷。

Developmental exposure to polychlorinated biphenyls (PCBs) in the maternal diet causes host-microbe defects in weanling offspring mice.

机构信息

Department of Anatomy, Physiology and Cell Biology, School of Veterinary Medicine, University of California, Davis, Davis, CA, 95616, United States.

Department of Molecular Biosciences, School of Veterinary Medicine, University of California, Davis, Davis, CA, 95616, United States.

出版信息

Environ Pollut. 2019 Oct;253:708-721. doi: 10.1016/j.envpol.2019.07.066. Epub 2019 Jul 14.

DOI:10.1016/j.envpol.2019.07.066
PMID:31336350
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6719698/
Abstract

The gut microbiota is important for maintaining homeostasis of the host. Gut microbes represent the initial site for toxicant processing following dietary exposures to environmental contaminants. The diet is the primary route of exposure to polychlorinated biphenyls (PCBs), which are absorbed via the gut, and subsequently interfere with neurodevelopment and behavior. Developmental exposures to PCBs have been linked to increased risk of neurodevelopmental disorders (NDD), including autism spectrum disorder (ASD), which are also associated with a high prevalence of gastrointestinal (GI) distress and intestinal dysbiosis. We hypothesized that developmental PCB exposure impacts colonization of the gut microbiota, resulting in GI pathophysiology, in a genetically susceptible host. Mouse dams expressing two heritable human mutations (double mutants [DM]) that result in abnormal Ca dynamics and produce behavioral deficits (gain of function mutation in the ryanodine receptor 1 [T4826I-RYR1] and a human CGG repeat expansion [170-200 CGG repeats] in the fragile X mental retardation gene 1 [FMR1 premutation]). DM and congenic wild type (WT) controls were exposed to PCBs (0-6 mg/kg/d) in the diet starting 2 weeks before gestation and continuing through postnatal day 21 (P21). Intestinal physiology (Ussing chambers), inflammation (qPCR) and gut microbiome (16S sequencing) studies were performed in offspring mice (P28-P30). Developmental exposure to PCBs in the maternal diet caused significant mucosal barrier defects in ileum and colon (increased secretory state and tight junction permeability) of juvenile DM mice. Furthermore, PCB exposure increased the intestinal inflammatory profile (Il6, Il1β, and Il22), and resulted in dysbiosis of the gut microbiota, including altered β-diversity, in juvenile DM mice developmentally exposed to 1 mg/kg/d PCBs when compared to WT controls. Collectively, these findings demonstrate a novel interaction between PCB exposure and the gut microbiota in a genetically susceptible host that provide novel insight into environmental risk factors for neurodevelopmental disorders.

摘要

肠道微生物群对于维持宿主的内稳态非常重要。肠道微生物是宿主在暴露于环境污染物后进行毒物代谢的最初部位。饮食是接触多氯联苯(PCBs)的主要途径,PCBs 可通过肠道吸收,并随后干扰神经发育和行为。发育期接触 PCBs 与神经发育障碍(NDD)的风险增加有关,包括自闭症谱系障碍(ASD),其也与胃肠道(GI)不适和肠道菌群失调的高患病率有关。我们假设,发育性 PCB 暴露会影响肠道微生物群的定植,导致遗传易感宿主的 GI 病理生理学。表达两种遗传性人类突变(双突变体[DM])的母鼠,这些突变导致钙动力学异常并产生行为缺陷(兰尼碱受体 1 的功能获得性突变[T4826I-RYR1]和脆性 X 智力低下症 1 基因[FMR1 前突变]中的 170-200 CGG 重复)。DM 和同基因野生型(WT)对照从妊娠前 2 周开始通过饮食暴露于 PCBs(0-6mg/kg/d),并持续到出生后第 21 天(P21)。在幼鼠(P28-P30)中进行肠道生理学(Ussing 室)、炎症(qPCR)和肠道微生物组(16S 测序)研究。母体饮食中 PCBs 的发育性暴露导致幼年 DM 小鼠回肠和结肠的黏膜屏障缺陷显著(分泌状态增加和紧密连接通透性增加)。此外,PCB 暴露增加了肠道炎症特征(Il6、Il1β 和 Il22),并导致肠道微生物组的失调,包括在与 WT 对照组相比,发育性暴露于 1mg/kg/d PCBs 的 DM 幼鼠的β多样性改变。总之,这些发现表明,在遗传易感宿主中,PCBs 暴露与肠道微生物群之间存在新的相互作用,为神经发育障碍的环境风险因素提供了新的见解。