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Repressed Central Carbon Metabolism and Its Effect on Related Metabolic Pathways in Cefoperazone/Sulbactam-Resistant Pseudomonas aeruginosa

作者
Yue-tao Chen,Kexin Yang,Zhen-Yuan Dai,Yi Huan,Xuan‐xian Peng,Hui Li,Zhuang‐Gui Chen
出处
期刊:Frontiers in Microbiology [Frontiers Media]
卷期号:13: 847634-847634 被引量:21
标识
DOI:10.3389/fmicb.2022.847634
摘要

Metabolic shift and antibiotic resistance have been reported in Pseudomonas aeruginosa . However, the global metabolic characteristics remain largely unknown. The present study characterizes the central carbon metabolism and its effect on other metabolic pathways in cefoperazone-sulbactam (SCF)-resistant P. aeruginosa (PA-R SCF ). GC-MS-based metabolomics shows a repressed central carbon metabolism in PA-R SCF , which is confirmed by measuring expression of genes and activity of enzymes in the metabolism. Furthermore, expression of the genes that encode the enzymes for the first step of fatty acid biosynthesis, glutamate metabolism, and electron transport chain is reduced, confirmed by their enzymatic activity assay, and the key enzyme for riboflavin metabolism is also reduced, indicating the decreased metabolic flux to the four related metabolic pathways. Moreover, the role of the reduced riboflavin metabolism, being related to ROS generation, in SCF resistance is explored. Exogenous H 2 O 2 potentiates SCF-mediated killing in a dose-dependent manner, suggesting that the decreased ROS resulted from the reduced riboflavin metabolism that contributed to the resistance. These results indicate that the repressed central carbon metabolism and related riboflavin metabolism contribute to SCF resistance, but increasing ROS can restore SCF sensitivity. These findings characterize the repressed central carbon metabolism and its effect on other metabolic pathways as the global metabolic features in PA-R SCF .

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