Tuberculosis treatment failure associated with evolution of antibiotic resilience

Abstract Antibiotics are a cornerstone of medicine, placing bacterial pathogens under intense pressure to evolve new survival mechanisms. Analysis of 51,229 Mycobacterium tuberculosis (Mtb) clinical isolates identified an essential transcriptional regulator, Rv1830 ( here named resR) as a frequent target of positive (adaptive) selection. resR mutants do not demonstrate canonical drug resistance or drug tolerance but instead have significantly faster recovery after drug treatment across all antibiotics and combinations tested, a phenotype which we term antibiotic resilience. ResR acts in a regulatory cascade with other growth-controlling transcriptional regulators WhiB2 and WhiA, which are also under positive selection in Mtb clinical isolates. Mutations of these genes are associated with treatment failure and the acquisition of canonical drug resistance.