肠道微生物通过一种机制提高肥胖/糖尿病小鼠和人类肠道的通透性和炎症水平。

A mechanism by which gut microbiota elevates permeability and inflammation in obese/diabetic mice and human gut.

机构信息

Neurosurgery and Brain Repair, University of South Florida College of Medicine, Tampa, Florida, USA.

USF Center for Microbiome Research, Microbiomes Institutes, University of South Florida Morsani College of Medicine, Tampa, Florida, USA.

出版信息

Gut. 2023 Oct;72(10):1848-1865. doi: 10.1136/gutjnl-2022-327365. Epub 2023 Mar 22.

DOI:10.1136/gutjnl-2022-327365

PMID:36948576

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10512000/

Abstract

OBJECTIVE

Ample evidence exists for the role of abnormal gut microbiota composition and increased gut permeability ('leaky gut') in chronic inflammation that commonly co-occurs in the gut in both obesity and diabetes, yet the detailed mechanisms involved in this process have remained elusive.

DESIGN

In this study, we substantiate the causal role of the gut microbiota by use of faecal conditioned media along with faecal microbiota transplantation. Using untargeted and comprehensive approaches, we discovered the mechanism by which the obese microbiota instigates gut permeability, inflammation and abnormalities in glucose metabolism.

RESULTS

We demonstrated that the reduced capacity of the microbiota from both obese mice and humans to metabolise ethanolamine results in ethanolamine accumulation in the gut, accounting for induction of intestinal permeability. Elevated ethanolamine increased the expression of microRNA- by enhancing ARID3a binding on the miR promoter. Increased decreased the stability of zona occludens-1 () mRNA, which in turn, weakened intestinal barriers and induced gut permeability, inflammation and abnormalities in glucose metabolism. Importantly, restoring ethanolamine-metabolising activity in gut microbiota using a novel probiotic therapy reduced elevated gut permeability, inflammation and abnormalities in glucose metabolism by correcting the ARID3a// axis.

CONCLUSION

Overall, we discovered that the reduced capacity of obese microbiota to metabolise ethanolamine instigates gut permeability, inflammation and glucose metabolic dysfunctions, and restoring ethanolamine-metabolising capacity by a novel probiotic therapy reverses these abnormalities.

TRIAL REGISTRATION NUMBER

NCT02869659 and NCT03269032.

摘要

目的

大量证据表明，肠道微生物群落组成异常和肠道通透性增加（“肠漏”）在肥胖和糖尿病中肠道共同发生的慢性炎症中起作用，但这一过程中涉及的详细机制仍难以捉摸。

设计

在这项研究中，我们通过使用粪便条件培养基和粪便微生物移植来证实肠道微生物群的因果作用。我们采用非靶向和全面的方法，发现了肥胖微生物群引发肠道通透性、炎症和葡萄糖代谢异常的机制。

结果

我们表明，肥胖小鼠和人类的微生物群落代谢乙醇胺的能力降低，导致肠道中乙醇胺积累，从而诱导肠道通透性。乙醇胺的增加通过增强 ARID3a 在 miR 启动子上的结合来增加 microRNA-的表达。增加的 microRNA- 降低了 zona occludens-1 () mRNA 的稳定性，进而削弱了肠道屏障，导致肠道通透性增加、炎症和葡萄糖代谢异常。重要的是，通过使用一种新型益生菌疗法恢复肠道微生物群中乙醇胺的代谢活性，通过纠正 ARID3a//轴，降低了升高的肠道通透性、炎症和葡萄糖代谢异常。

结论

总的来说，我们发现肥胖微生物群代谢乙醇胺的能力降低会引发肠道通透性、炎症和葡萄糖代谢功能障碍，而通过新型益生菌疗法恢复乙醇胺代谢能力可以逆转这些异常。

临床试验注册号

NCT02869659 和 NCT03269032。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/88aa/10512000/c350dfca667f/gutjnl-2022-327365f01.jpg

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肠道微生物通过一种机制提高肥胖/糖尿病小鼠和人类肠道的通透性和炎症水平。

A mechanism by which gut microbiota elevates permeability and inflammation in obese/diabetic mice and human gut.

机构信息

出版信息

OBJECTIVE

DESIGN

RESULTS

CONCLUSION

TRIAL REGISTRATION NUMBER

目的

设计

结果

结论

临床试验注册号

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