A multi-strategy antimicrobial discovery approach reveals new ways to combatChlamydia

Abstract

SummaryWhile the excessive use of broad-spectrum antibiotics is a major driver of the global antibiotic resistance crisis, more selective therapies remain unavailable for the majority of bacterial pathogens. This includesChlamydiaspp., which cause millions of urogenital, ocular, and respiratory infections each year. We here report major conceptual additions to the available toolkit for antichlamydial discovery, including both experimental and computational approaches. Moreover, we report the to date most comprehensive search of the chemical space for novel antichlamydial activities, which identified over sixty compounds that are chemically diverse, structurally different from known antibiotics, non-toxic to human cells, and highly potent in blockingChlamydiagrowth. While some compounds caused a reversible block inChlamydiadevelopment, others could eradicate both established and persistent infections in a bactericidal manner. The most potent antichlamydials displayed compelling selectivity, some also synergies with clinically used antibiotics, as well as interactions profiles enabling predictions of molecular modes of action. Moreover, one compound displayed reduced antichlamydial efficacy in autophagy-deficient cells, suggesting a host- targeted activity. Altogether, we suggest that these novel antichlamydials could serve as tools for advancing our understanding ofChlamydiabiology and as chemical starting points for developing more sustainable therapeutics for one of the most successful groups of intracellular pathogens.