外湿环境加重脾虚湿盛证小鼠腹泻：涉及小肠内容物微生物群、能量代谢、胃肠和液体功能。

External damp environment aggravates diarrhea in spleen deficiency and dampness syndrome in mice: involvement of small intestinal contents microbiota, energy metabolism, gastrointestinal and fluid functions.

机构信息

College of Chinese Medicine, Hunan University of Chinese Medicine, Changsha, Hunan, China.

College of Pharmacy, Hunan University of Chinese Medicine, Changsha, Hunan, China.

出版信息

Front Cell Infect Microbiol. 2024 Oct 31;14:1495311. doi: 10.3389/fcimb.2024.1495311. eCollection 2024.

DOI:10.3389/fcimb.2024.1495311

PMID:39544280

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11560853/

Abstract

OBJECTIVES

Recent studies have increasingly demonstrated that a multiplatform water environment combined with lard gavage is an effective method for establishing a mouse model of diarrhea. However, the interactions between intestinal microorganisms and diarrhea, as well as the relationships among energy metabolism, fluid balance, and gastrointestinal function in this model, remain poorly understood.

METHODS

Building on previous research, this study aimed to optimiz and replicate a multiplatform water environment combined with a lard gavage model. Male Kunming mice, free of specific pathogens, were randomly divided into four groups: a normal control group (ZC), a standing group (ZL), a standing combined with lard group (ZLZ), and a standing combined with internal and external wet conditions group (ZLZS). The mice in the ZL, ZLZ, and ZLZS groups were subjected to 4 hours of daily standing in a custom-designed multiplatform water environment. Starting on day 8, mice in the ZLZ and ZLZS groups were gavaged with lard (0.4 mL per session, twice daily) for 7 consecutive days, while those in the ZLZS group were additionally exposed to a wet litter environment (50 g/100 mL). The ZC and ZL groups received equal volumes of sterile water via gavage. The microbiota in the small intestine, as well as serum levels of cAMP, cGMP, VIP, Gas, and D-xylose, were analyzed.

RESULTS

Compared with the ZLZ group, the ZLZS group showed significantly lower serum levels of cAMP/cGMP (<0.01) and Gas (<0.01). D-xylose levels were lower in the ZL, ZLZ, and ZLZS groups compared to the ZC group, while VIP levels were significantly higher in the ZL and ZLZS groups (<0.01). Moverover, , , and were identified as characteristic bacterial genera in the ZLZS group. The mechanism by which the small intestinal microbiota induces diarrhea was linked to the biosynthesis of secondary bile acids.

CONCLUSION

A multiplatform water environment combined with lard gavage can effectively induce diarrhea, and the addition of an external wet environment exacerbates this condition by affecting small intestinal contents microbiota and other functions.

摘要

目的

最近的研究越来越多地表明，多平台水环境结合猪油灌胃是建立腹泻小鼠模型的有效方法。然而，肠道微生物与腹泻之间的相互作用，以及这种模型中能量代谢、液体平衡和胃肠道功能之间的关系，仍知之甚少。

方法

在先前研究的基础上，本研究旨在优化和复制多平台水环境结合猪油灌胃模型。雄性昆明小鼠，无特定病原体，随机分为四组：正常对照组（ZC）、站立组（ZL）、站立结合猪油组（ZLZ）和站立结合内外湿环境组（ZLZS）。ZL、ZLZ 和 ZLZS 组的小鼠每天接受 4 小时的定制多平台水环境站立。从第 8 天开始，ZLZ 和 ZLZS 组的小鼠每天两次灌胃猪油（每次 0.4 mL）连续 7 天，而 ZLZS 组的小鼠还暴露于湿垫料环境（50 g/100 mL）。ZC 和 ZL 组通过灌胃给予等量的无菌水。分析小肠中的微生物群和血清中 cAMP、cGMP、VIP、Gas 和 D-木糖的水平。

结果

与 ZLZ 组相比，ZLZS 组血清中 cAMP/cGMP（<0.01）和 Gas（<0.01）水平显著降低。与 ZC 组相比，ZL、ZLZ 和 ZLZS 组的 D-木糖水平较低，而 ZL 和 ZLZS 组的 VIP 水平显著升高（<0.01）。此外，、、和被鉴定为 ZLZS 组的特征细菌属。小肠微生物群引起腹泻的机制与次级胆汁酸的生物合成有关。

结论

多平台水环境结合猪油灌胃可有效诱导腹泻，外部湿环境的加入通过影响小肠内容物微生物群和其他功能加重这种情况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/25d7/11560853/5cdd1beae2cb/fcimb-14-1495311-g001.jpg

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外湿环境加重脾虚湿盛证小鼠腹泻：涉及小肠内容物微生物群、能量代谢、胃肠和液体功能。

External damp environment aggravates diarrhea in spleen deficiency and dampness syndrome in mice: involvement of small intestinal contents microbiota, energy metabolism, gastrointestinal and fluid functions.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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