Abstract
Understanding adaptation to complex environments requires information about how exposure to one selection pressure affects adaptation to others. For bacteria, antibiotics and viral parasites (phages) are two of the most common selection pressures and are both relevant for treatment of bacterial infections: increasing antibiotic resistance is generating significant interest in using phages in addition or as an alternative to antibiotics. However, we lack knowledge of how exposure to antibiotics affects bacterial responses to phages. Specifically, it is unclear how the negative effects of antibiotics on bacterial population growth combine with any possible mutagenic effects or physiological responses to influence adaptation to other stressors such as phages, and how this net effect varies with antibiotic concentration. Here, we experimentally addressed the effect of pre-exposure to a wide range of antibiotic concentrations on bacterial responses to phages. Across 10 antibiotics, we found a strong association between their effects on bacterial population size and subsequent population growth in the presence of phages (which in these conditions indicates phage-resistance evolution). We detected some evidence of mutagenesis among populations treated with fluoroquinolones and β-lactams at sublethal doses, but these effects were small and not consistent across phage treatments. These results show that, although stressors such as antibiotics can boost adaptation to other stressors at low concentrations, these effects are weak compared to the effect of reduced population growth at inhibitory concentrations, which in our experiments strongly reduced the likelihood of subsequent phage-resistance evolution.
Highlights
We found that adaptation to phages was positively correlated with initial population size across all antibiotics, and we detected some evidence of mutagenesis after exposure to subinhibitory doses of certain antibiotics, the strength of these effects was small compared to the major effect of population growth inhibition on adaptation
We found that average population density at the end of phage treatment was negatively associated with increasing antibiotic concentration in Phase 1 (T4 treatment: F1,69 = 121.91, P < 0.0001, T7 treatment: F1,69 = 52.50, P < 0.0001; Fig. 1), and this association was approximately linear (P > 0.05 for all quadratic terms)
We found no evidence that the effect of increasing concentration on subsequent population growth in the presence of phages varied among antibiotics (P > 0.05 for all interaction terms for both phages)
Summary
The effects of exposure to one stressor on population size, physiology or the rate at which genetic variation is produced potentially influence subsequent adaptation to other stressors. One of the most common stressors in natural and clinical environments is exposure to antibiotics (Aminov, 2009; Martinez, 2009), for which there is independent support for all three types of effects on adaptation to other stressors. (i) All antibiotics reduce the supply of genetic variation at inhibitory a 2017 THE AUTHORS.
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