一种基于气相色谱-质谱联用的非靶向代谢组学方法，用于全面分析万古霉素诱导的小鼠毒性的代谢谱。

A GC-MS-based untargeted metabolomics approach for comprehensive metabolic profiling of vancomycin-induced toxicity in mice.

作者信息

Cui Changmeng, Zhu Li, Wang Qian, Liu Ruijuan, Xie Dadi, Guo Yujin, Yu Dingyi, Wang Changshui, Chen Dan, Jiang Pei

机构信息

Department of Neurosurgery, Affiliated Hospital of Jining Medical University, Jining 272000, China.

Institute of Clinical Pharmacy and Pharmacology, Jining First People's Hospital, Jining Medical University, Jining 272000, China.

出版信息

Heliyon. 2022 Jul 6;8(7):e09869. doi: 10.1016/j.heliyon.2022.e09869. eCollection 2022 Jul.

DOI:10.1016/j.heliyon.2022.e09869

PMID:35855991

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9287194/

Abstract

BACKGROUND

Vancomycin is a glycopeptide antibiotic that is commonly used for severe drug-resistant infections treatment. Application of vancomycin frequently leads to severe ototoxicity, hepatotoxicity, and nephrotoxicity; however, the comprehensive metabolic analysis of vancomycin-induced toxicity is lacking.

PURPOSE

This study attempted to investigate the metabolic changes after vancomycin administration in mice.

METHODS

Experimental mice (n = 9) received continuous intraperitoneal injection of vancomycin (400 mg/kg) every day for 7 days, and mice in control group (n = 9) were treated with the same amount of normal saline. Pathological changes of the kidney were examined using haematoxylin and eosin (HE) staining. A gas chromatography-mass spectrometry (GC-MS) approach was used to identify discriminant metabolites in serum and various organs including the heart, liver, kidney, spleen, cerebral cortex, hippocampus, inner ear, lung, and intestine. The potential metabolites were identified using orthogonal partial least squares discrimination analysis (OPLS-DA). Subsequently, the MetaboAnalyst 5.0 (http://www.metaboanalyst.ca) and Kyoto Encyclopedia of Genes and Genomes database (KEGG, http://www.kegg.jp) were employed to depict the metabolic pathways.

RESULTS

Compared with the control group, the vancomycin induced 13, 17, 27, 22, 16, 10, 17, 11, 10, and 7 differential metabolites in the serum, liver, kidney, heart, cerebral cortex, lung, spleen, intestine, hippocampus, and inner ear, respectively. Further pathway analyses identified that amino acids metabolism, fatty acids biosynthesis, energy metabolism, and lipid metabolism were disrupted after VCM exposure.

CONCLUSION

Vancomycin affects the metabolism in various organs in mice, which provides new insights for identification of vancomycin-induced toxicity, and facilitate to better understanding of the metabolic pathogenesis of vancomycin.

摘要

背景

万古霉素是一种糖肽类抗生素，常用于治疗严重的耐药性感染。万古霉素的应用经常导致严重的耳毒性、肝毒性和肾毒性；然而，缺乏对万古霉素诱导毒性的全面代谢分析。

目的

本研究试图探讨万古霉素给药后小鼠的代谢变化。

方法

实验小鼠（n = 9）每天连续腹腔注射万古霉素（400 mg/kg），共7天，对照组（n = 9）用等量生理盐水处理。采用苏木精-伊红（HE）染色检查肾脏的病理变化。采用气相色谱-质谱联用（GC-MS）方法鉴定血清和包括心脏、肝脏、肾脏、脾脏、大脑皮层、海马体、内耳、肺和肠道在内的各种器官中的差异代谢物。使用正交偏最小二乘法判别分析（OPLS-DA）鉴定潜在的代谢物。随后，利用MetaboAnalyst 5.0（http://www.metaboanalyst.ca）和京都基因与基因组百科全书数据库（KEGG，http://www.kegg.jp）描绘代谢途径。

结果

与对照组相比，万古霉素在血清、肝脏、肾脏、心脏、大脑皮层、肺、脾脏、肠道、海马体和内耳中分别诱导了13、17、27、22、16、10、17、11、10和7种差异代谢物。进一步的通路分析表明，万古霉素暴露后氨基酸代谢、脂肪酸生物合成、能量代谢和脂质代谢受到破坏。

结论

万古霉素影响小鼠各器官的代谢，为鉴定万古霉素诱导的毒性提供了新的见解，并有助于更好地理解万古霉素的代谢发病机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ffae/9287194/c41485365d5d/gr1.jpg

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一种基于气相色谱-质谱联用的非靶向代谢组学方法，用于全面分析万古霉素诱导的小鼠毒性的代谢谱。

A GC-MS-based untargeted metabolomics approach for comprehensive metabolic profiling of vancomycin-induced toxicity in mice.

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