Compensatory Mutations, Antibiotic Resistance and the Population Genetics of Adaptive Evolution in Bacteria

Compensatory Mutations, Antibiotic Resistance and the Population Genetics of Adaptive Evolution in Bacteria

Bruce R. Levin^a, Véronique Perrot^a, and Nina Walker^a
^a Department of Biology, Emory University, Atlanta, Georgia 30322

Corresponding author: Bruce R. Levin, Department of Biology, Emory University, 1510 Clifton Rd., Atlanta, GA 30322., blevin{at}emory.edu (E-mail)

Communicating editor: M. SLATKIN

In the absence of the selecting drugs, chromosomal mutationsfor resistance to antibiotics and other chemotheraputic agentscommonly engender a cost in the fitness of microorganisms. Recentin vivo and in vitro experimental studies of the adaptationto these "costs of resistance" in Escherichia coli, HIV, andSalmonella typhimurium found that evolution in the absence ofthese drugs commonly results in the ascent of mutations thatameliorate these costs, rather than higher-fitness, drug-sensitiverevertants. To ascertain the conditions under which this compensatoryevolution, rather than reversion, will occur, we did computersimulations, in vitro experiments, and DNA sequencing studieswith low-fitness rpsL (streptomycin-resistant) mutants of E.coli with and without mutations that compensate for the fitnesscosts of these ribosomal protein mutations. The results of ourinvestigation support the hypothesis that in these experiments,the ascent of intermediate-fitness compensatory mutants, ratherthan high-fitness revertants, can be attributed to higher ratesof compensatory mutations relative to that of reversion andto the numerical bottlenecks associated with serial passage.We argue that these bottlenecks are intrinsic to the populationdynamics of parasitic and commensal microbes and discuss theimplications of these results to the problem of drug resistanceand adaptive evolution in parasitic and commmensal microorganismsin general.

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