分子生物学
IVD分子诊断
细胞培养与分析
蛋白研究
细胞因子
重组蛋白
抗体
高通量测序建库
病原检测UCF系列
生物医药
工具酶
抑制剂激活剂与常用试剂
仪器
耗材

Dopamine Is a Key Regulatory Molecule for Escherichia coli and May Serve as a Xenosiderophore

Ben Xu, Xiran Chen, Jinmei Chai, Yunlin Wei

Journal:Microorganisms

IF:4.2

DOI:10.3390/microorganisms14020327

PMID:41753614

Published:2026-01-30

research field:活细胞成像分子生物学合成生物学细胞生物学荧光显微镜RNA生物学

Abstract

Previous studies have demonstrated that catecholamines, including epinephrine (Epi), norepinephrine (NE), and dopamine (DA), function both as xenosiderophores for bacteria possessing dedicated transport channels and as potential quorum-sensing signaling molecules or regulatory factors. However, current research on the interactions between dopamine and bacteria remains relatively limited. In this study, treatment ofEscherichia coli(E. coli) ATCC 11303 with a specific concentration of dopamine resulted in a 33.63% increase in the maximum growth biomass, a 47.32% enhancement in biofilm formation, a 24.60% increase in protease activity, a 68.81% improvement in swimming motility, and increases of 33.77% and 47.67% in chemotaxis and swarming motility, respectively. Transcriptome analysis revealed that dopamine promoted the expression of numerous iron uptake-related genes, while biofilm formation-related genes and virulence genes were concomitantly upregulated. High-performance liquid chromatography–mass spectrometry (HPLC-MS) and isotope ratio mass spectrometry (IRMS) analyses confirmed thatE. coliATCC 11303 can uptake dopamine, suggesting the existence of specific transport pathways. Multi-omics analysis revealed significant regulatory effects on metal ion transport, amino acid metabolism, purine metabolism, environmental adaptation, quorum sensing, two-component systems, and xylene degradation pathways. Dopamine may act as both a xenosiderophore and a signaling molecule, thereby modulating multiple critical physiological and biochemical processes and promoting bacterial growth. These findings provide valuable insights into the development of novel exogenous xenosiderophores and signaling modulators, advancing our understanding of microbial interactions with their host environment and contributing to the field of microbial endocrinology.

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