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胆汁盐代谢并不是导致疾病严重程度的唯一因素()在疾病的小鼠模型中。

Bile salt metabolism is not the only factor contributing to () disease severity in the murine model of disease.

机构信息

Institute of Infection, Immunity and Inflammation, College of Veterinary Medical and Life Sciences, University of Glasgow , Glasgow, UK.

School of Engineering, College of Science and Engineering, University of Glasgow , Glasgow, UK.

出版信息

Gut Microbes. 2020 May 3;11(3):481-496. doi: 10.1080/19490976.2019.1678996. Epub 2019 Dec 2.

DOI:10.1080/19490976.2019.1678996
PMID:31793403
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7524298/
Abstract

Susceptibility of patients to antibiotic-associated disease is intimately associated with specific changes to gut microbiome composition. In particular, loss of microbes that modify bile salt acids (BSA) play a central role; primary bile acids stimulate spore germination whilst secondary bile acids limit vegetative growth. To determine the relative contribution of bile salt (BS) metabolism on disease severity, we treated mice with three combinations of antibiotics prior to infection. Mice given clindamycin alone became colonized but displayed no tissue pathology while severe disease, exemplified by weight loss and inflammatory tissue damage occurred in animals given a combination of five antibiotics and clindamycin. Animals given only the five antibiotic cocktails showed only transient colonization and no disease. colonization was associated with a reduction in bacterial diversity, an inability to amplify bile salt hydrolase (BSH) sequences from fecal DNA and a relative increase in primary bile acids (pBA) in cecal lavages from infected mice. Further, the link between BSA modification and the microbiome was confirmed by the isolation of strains of that modified primary bile acids , thus preventing germination. Interestingly, BSH activity did not correlate with disease severity which appeared linked to alternations in mucin, which may indirectly lead to increased exposure of the epithelial surface to inflammatory signals. These data confirm the role of microbial metabolic activity in protection of the gut and highlights the need for greater understanding the function of bacterial communities in disease prevention.

摘要

患者对抗生素相关疾病的易感性与肠道微生物组组成的特定变化密切相关。特别是,改变胆汁盐酸(BSA)的微生物的丧失起着核心作用;初级胆汁酸刺激孢子萌发,而次级胆汁酸限制营养生长。为了确定胆汁盐(BS)代谢对疾病严重程度的相对贡献,我们在感染前用三种抗生素组合处理了小鼠。单独给予克林霉素的小鼠被定植,但没有组织病理学表现,而在给予五种抗生素和克林霉素组合的动物中则发生严重疾病,表现为体重减轻和炎症性组织损伤。仅给予五种抗生素鸡尾酒的动物仅表现出短暂定植且无疾病。定植与细菌多样性减少、粪便 DNA 中胆汁盐水解酶(BSH)序列无法扩增以及感染小鼠盲肠灌洗中初级胆汁酸(pBA)相对增加有关。此外,通过分离能够修饰初级胆汁酸的 菌株,证实了 BSA 修饰与微生物组之间的联系,从而阻止了 孢子的萌发。有趣的是,BSH 活性与疾病严重程度无关,这似乎与粘蛋白的改变有关,这可能间接导致上皮表面暴露于炎症信号增加。这些数据证实了微生物代谢活性在保护肠道中的作用,并强调了需要更好地了解细菌群落在疾病预防中的功能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/7615d295e69d/KGMI_A_1678996_F0005_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/4b265043d441/KGMI_A_1678996_F0001_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/0d8e2a8cabb2/KGMI_A_1678996_F0002_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/2c2ff5a8ee78/KGMI_A_1678996_F0003_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/e9df4a44e163/KGMI_A_1678996_F0004_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/7615d295e69d/KGMI_A_1678996_F0005_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/4b265043d441/KGMI_A_1678996_F0001_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/0d8e2a8cabb2/KGMI_A_1678996_F0002_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/2c2ff5a8ee78/KGMI_A_1678996_F0003_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/e9df4a44e163/KGMI_A_1678996_F0004_C.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/391e/7524298/7615d295e69d/KGMI_A_1678996_F0005_C.jpg

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