Abstract
AbstractThe evolution of the obligate human pathogen Neisseria gonorrhoeae has been shaped by selective pressures from diverse host niche environments1,2 as well as antibiotics3,4. The varying prevalence of antibiotic resistance across N. gonorrhoeae lineages5 suggests that underlying metabolic differences may influence the likelihood of acquisition of specific resistance mutations6,7. We hypothesized that the requirement for supplemental CO2, present in approximately half of isolates8, reflects one such example of metabolic variation. Here, using a genome-wide association study and experimental investigations, we show that CO2-dependence is attributable to a single substitution in a β-carbonic anhydrase, canB. CanB19E is necessary and sufficient for growth in the absence of CO2, and the hypomorphic CanB19G variant confers CO2-dependence. Furthermore, ciprofloxacin resistance is correlated with CanB19G in clinical isolates, and the presence of CanB19G increases the likelihood of acquisition of ciprofloxacin resistance. Together, our results suggest that metabolic variation has impacted the acquisition of fluoroquinolone resistance.
Publisher
Cold Spring Harbor Laboratory
Cited by
3 articles.
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