Journal
MICROBIOLOGYOPEN
Volume 4, Issue 5, Pages 753-763Publisher
WILEY
DOI: 10.1002/mbo3.276
Keywords
Antimicrobial copper; lipid peroxidation; mechanism copper surface killing
Categories
Funding
- National Science Foundation - STEP [DUE-0652963]
- Professional Staff Congress (PSC) - CUNY Award from the City University of New York
- National Institutes of Health - Bridges to the Baccalaureate grant [GM50070]
- New York State Department of Education Perkins Grant program
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This study explores the role of membrane phospholipid peroxidation in the copper alloy mediated contact killing of Bacillus subtilis, a spore-forming gram-positive bacterial species. We found that B.subtilis endospores exhibited significant resistance to copper alloy surface killing but vegetative cells were highly sensitive to copper surface exposure. Cell death and lipid peroxidation occurred in B.subtilis upon copper alloy surface exposure. In a sporulation-defective strain carrying a deletion of almost the entire SpoIIA operon, lipid peroxidation directly correlated with cell death. Moreover, killing and lipid peroxidation initiated immediately and at a constant rate upon exposure to the copper surface without the delay observed previously in E.coli. These findings support the hypothesis that membrane lipid peroxidation is the initiating event causing copper surface induced cell death of B.subtilis vegetative cells. The findings suggest that the observed differences in the kinetics of copper-induced killing compared to E.coli result from differences in cell envelop structure. As demonstrated in E.coli, DNA degradation was shown to be a secondary effect of copper exposure in a B.subtilis sporulation-defective strain.
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