肠道微生物群和粪便衍生代谢产物的变化可能在小鼠他克莫司诱导的糖尿病中起作用。
Changes in the gut microbiota and derived fecal metabolites may play a role in tacrolimus-induced diabetes in mice.
作者信息
Qian Minyan, Jiang Zhenwei, Xu Caomei, Wang Liying, Hu Nan
机构信息
Department of Pharmacy, The Third Affiliated Hospital of Soochow University/The First People's Hospital of Changzhou, Changzhou, Jiangsu, China.
College of Pharmaceutical Sciences, Soochow University, Suzhou, Jiangsu, China.
出版信息
Future Microbiol. 2025 Feb;20(3):237-246. doi: 10.1080/17460913.2024.2444761. Epub 2024 Dec 22.
AIMS
A notable scarcity of research has focused on examining alterations in gut microbiota and its metabolites within tacrolimus (TAC)-induced diabetes models.
METHODS
Tacrolimus-induced changes in glucose and lipid metabolism indices were analyzed through different routes of administration. The potential role of gut microbiota and its metabolites in TAC-induced diabetes was investigated using 16S rRNA sequencing and non-targeted metabolomics.
RESULTS
After intraperitoneal(ip) and oral(po) administration of TAC, the α-diversity index of gut microbiota was significantly increased. The gut microbiota of the three groups of mice was significantly separated, and there were significant changes in composition and functional genes. Fecal metabolites changed significantly after TAC administration by different routes, and 53 metabolites (38 down-regulated and 15 up-regulated) were identified (CON vs. TACip). Similarly, 29 metabolites (8 down-regulated and 21 up-regulated) were identified (CON vs. TACpo). KEGG pathway analysis identified 4 and 13 significantly altered metabolic pathways, respectively. Correlation analysis suggested that microbiota and metabolites were involved in the pathogenesis of TAC-induced diabetes.
CONCLUSION
This study investigated the alterations in gut microbiota and fecal metabolites in TAC-induced diabetic mice and evaluated the correlation between these changes. These findings provide valuable insights into potential biomarkers in the development of TAC-induced diabetes.
目的
在他克莫司(TAC)诱导的糖尿病模型中,针对肠道微生物群及其代谢产物变化的研究显著匮乏。
方法
通过不同给药途径分析他克莫司诱导的血糖和脂质代谢指标变化。利用16S rRNA测序和非靶向代谢组学研究肠道微生物群及其代谢产物在TAC诱导糖尿病中的潜在作用。
结果
腹腔注射(ip)和口服(po)TAC后,肠道微生物群的α多样性指数显著增加。三组小鼠的肠道微生物群明显分离,其组成和功能基因发生显著变化。不同途径给予TAC后,粪便代谢产物发生显著变化,共鉴定出53种代谢产物(38种下调和15种上调)(对照组与TACip组比较)。同样,鉴定出29种代谢产物(8种下调和21种上调)(对照组与TACpo组比较)。KEGG通路分析分别鉴定出4条和13条显著改变的代谢通路。相关性分析表明,微生物群和代谢产物参与了TAC诱导糖尿病的发病机制。
结论
本研究调查了TAC诱导的糖尿病小鼠肠道微生物群和粪便代谢产物的变化,并评估了这些变化之间的相关性。这些发现为TAC诱导糖尿病发展中的潜在生物标志物提供了有价值的见解。
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