AI Article Synopsis
- Many antibiotic-resistant bacteria have plasmids that can be shared among different bacteria, potentially increasing resistance.
- Researchers studied how a broad-host-range plasmid, RP4, can be transferred among various enteric bacteria using a specific human-derived commensal.
- The study found that while the plasmid could be transferred to most tested bacteria, it imposed a fitness cost, leading to its loss over time without antibiotic selection, though some bacteria retained it through multiple transfers.
Article Abstract
Many antibiotic-resistant bacteria carry resistance genes on conjugative plasmids that are transferable to commensals and pathogens. We determined the ability of multiple enteric bacteria to acquire and retransfer a broad-host-range plasmid RP4. We used human-derived commensal LM715-1 carrying a chromosomal red fluorescent protein gene and green fluorescent protein (GFP)-labeled broad-host-range RP4 plasmid with R, R, and R in in vitro matings to rifampicin-resistant recipients, including MG1655, Dec5α, , , , , , and Typhimurium. Transconjugants were quantified on selective media and confirmed using fluorescence microscopy and PCR for the GFP gene. The plasmid was transferred from LM715-1 to all tested recipients except . Transfer frequencies differed between specific donor-recipient pairings (10 to 10). Secondary retransfer of plasmid from transconjugants to LM715-1 occurred at frequencies from 10 to 10. A serial passage plasmid persistence assay showed plasmid loss over time in the absence of antibiotics, indicating that the plasmid imposed a fitness cost to its host, although some plasmid-bearing cells persisted for at least ten transfers. Thus, the RP4 plasmid can transfer to multiple clinically relevant bacterial species without antibiotic selection pressure.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9860721 | PMC |
| http://dx.doi.org/10.3390/microorganisms11010193 | DOI Listing |
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