Molecular mechanism of gallium nitrate in inhibiting bacterial biofilm formation through pykF modulation
Xiaofeng Zhang, Junjie Dong, Bing Wang, Lingqiang Chen, Zhiqiang Gong, Jin Yang, Guizhao Shu, Qi Ning, Irene Ling, Irene Ling, Irene Ling, Irene Ling, Irene Ling

TL;DR
Gallium nitrate inhibits bacterial biofilm formation by upregulating pyruvate kinase (pykF), offering a potential strategy for treating biofilm-related infections.
Contribution
This study identifies pykF as a key target of gallium nitrate in suppressing bacterial biofilms and virulence.
Findings
Gallium nitrate suppresses biofilm formation and metabolic activity in bacteria.
Upregulation of pykF is strongly associated with gallium's antibacterial effects.
PykF knockout increases bacterial survival and biofilm formation, highlighting its role in gallium's mechanism.
Abstract
Gallium nitrate, a non-redox analog of iron (III), suppresses bacterial biofilms and virulence within the framework of bacterial regulation. This study investigates the molecular mechanisms and regulatory pathways through which gallium nitrate modulates bacterial activity and function. The antimicrobial properties of gallium nitrate, its effects on bacterial biofilms, and gallium-responsive signaling pathways were assessed. Observation of marked upregulation of pyruvate kinase (pykF) expression following gallium nitrate exposure prompted in vitro and in vivo experiments to examine how gallium influences the expression, enzymatic activity, and functional role of bacterial pykF. Crystal violet staining, XTT assay, confocal laser scanning microscopy, and scanning electron microscopy consistently indicated that gallium nitrate suppressed bacterial biofilm formation and metabolic activity.…
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Taxonomy
TopicsNeutrophil, Myeloperoxidase and Oxidative Mechanisms · Orthopedic Infections and Treatments · Nanoplatforms for cancer theranostics
