AI Article Synopsis
- Bismuth drugs have been used for decades and are effective against infections, including resistant strains, especially when combined with antibiotics, though the reasons for their sustained effectiveness are not fully understood.
- Recent research utilizing metalloproteomics and proteomics identified 63 bismuth-binding and 119 bismuth-regulated proteins in pathogens, revealing that many of these proteins have catalytic functions and are affected by bismuth drugs.
- The study suggests that bismuth disrupts critical pathways in bacteria, such as ROS defense and pH buffering, and identifies DnaK as a new target for bismuth, which could lead to the development of innovative antimicrobial agents to combat resistance.
Article Abstract
Bismuth drugs, despite being clinically used for decades, surprisingly remain in use and effective for the treatment of infection, even for resistant strains when co-administrated with antibiotics. However, the molecular mechanisms underlying the clinically sustained susceptibility of to bismuth drugs remain elusive. Herein, we report that integration of in-house metalloproteomics and quantitative proteomics allows comprehensive uncovering of the bismuth-associated proteomes, including 63 bismuth-binding and 119 bismuth-regulated proteins from , with over 60% being annotated with catalytic functions. Through bioinformatics analysis in combination with bioassays, we demonstrated that bismuth drugs disrupted multiple essential pathways in the pathogen, including ROS defence and pH buffering, by binding and functional perturbation of a number of key enzymes. Moreover, we discovered that DnaK may serve as a new target of bismuth drugs to inhibit bacterium-host cell adhesion. The integrative approach we report, herein, provides a novel strategy to unveil the molecular mechanisms of antimicrobial metals against pathogens in general. This study sheds light on the design of new types of antimicrobial agents with multiple targets to tackle the current crisis of antimicrobial resistance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5471454 | PMC |
| http://dx.doi.org/10.1039/c7sc00766c | DOI Listing |
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