Bacteria exposed to antiviral drugs develop antibiotic cross-resistance and unique resistance profiles

Antiviral drugs are used globally as treatment and prophylaxis for long-term and acute viral infections. Even though antivirals also have been shown to have off-target effects on bacterial growth, the potential contributions of antivirals to antimicrobial resistance remains unknown. Herein we explor...

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Bibliographic Details
Published in:Communications biology 2023-08, Vol.6 (1), p.837-837, Article 837
Main Authors: Wallace, Veronica J., Sakowski, Eric G., Preheim, Sarah P., Prasse, Carsten
Format: Article
Language:English
Subjects:
45/23
631/326/171/1878
631/326/22/1295
Amoxicillin
Antibiotics
Antimicrobial agents
Antimicrobial resistance
Antiviral activity
Antiviral agents
Bacteria
Biology
Biomedical and Life Sciences
Carbohydrate metabolism
Clarithromycin
Cross-resistance
Drug development
Drug resistance
Erythromycin
Genomes
Gram-negative bacteria
Gram-positive bacteria
Life Sciences
Mutation
Prophylaxis
Trimethoprim
Whole genome sequencing
Zidovudine
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Summary:Antiviral drugs are used globally as treatment and prophylaxis for long-term and acute viral infections. Even though antivirals also have been shown to have off-target effects on bacterial growth, the potential contributions of antivirals to antimicrobial resistance remains unknown. Herein we explored the ability of different classes of antiviral drugs to induce antimicrobial resistance. Our results establish the previously unrecognized capacity of antivirals to broadly alter the phenotypic antimicrobial resistance profiles of both gram-negative and gram-positive bacteria  Escherichia coli  and  Bacillus cereus . Bacteria exposed to antivirals including zidovudine, dolutegravir and raltegravir developed cross-resistance to commonly used antibiotics including trimethoprim, tetracycline, clarithromycin, erythromycin, and amoxicillin. Whole genome sequencing of antiviral-resistant E. coli isolates revealed numerous unique single base pair mutations, as well as multi-base pair insertions and deletions, in genes with known and suspected roles in antimicrobial resistance including those coding for multidrug efflux pumps, carbohydrate transport, and cellular metabolism. The observed phenotypic changes coupled with genotypic results indicate that bacteria exposed to antiviral drugs with antibacterial properties in vitro can develop multiple resistance mutations that confer cross-resistance to antibiotics. Our findings underscore the potential contribution of wide scale usage of antiviral drugs to the development and spread of antimicrobial resistance in humans and the environment. Bacteria exposed to antiviral drugs in vitro can develop multiple resistance mutations that confer cross-resistance to antibiotics.
ISSN:2399-3642
2399-3642
DOI:10.1038/s42003-023-05177-3