Abstract
The increasing prevalence of antimicrobial resistance is an important challenge that warrants new approaches to antibiotic development. Currently, all antibiotics inhibit biological processes. To explore whether activation of a biochemical pathway can elicit bactericidal effects we engineered variants of Mycobacterium tuberculosis ATP-phosphoribosyltransferase (ATP-PRT) that are resistant to allosteric inhibition by L-histidine, leading to supraphysiological activation of ATP-PRT and L-histidine overproduction. Upregulation of L-histidine biosynthesis significantly reduces the growth of M. tuberculosis in culture and causes a loss of fitness owing to nutrient and energy depletion. Moreover, the expression of allosteric variants in M. tuberculosis significantly reduced infections in human macrophages and in a mouse model of infection. Thus, metabolic activation represents a new mycobactericidal mechanism that could be applied to antimycobacterial drug discovery.