ClpC2 protects mycobacteria against a natural antibiotic targeting ClpC1-dependent protein degradation

Abstract

AbstractMycobacterium tuberculosis Clp proteases are targeted by several antitubercular compounds, including cyclomarin A (CymA). CymA exerts its toxicity by binding to AAA + chaperone ClpC1. Here, we show that CymA can also bind a partial homologue of ClpC1, known as ClpC2, and we reveal the molecular basis of these interactions by determining the structure of the M. tuberculosis ClpC2:CymA complex. Furthermore, we show deletion of clpC2 in Mycobacterium smegmatis increases sensitivity to CymA. We find CymA exposure leads to a considerable upregulation of ClpC2 via a mechanism in which binding of CymA to ClpC2 prevents binding of ClpC2 to its own promoter, resulting in upregulation of its own transcription in response to CymA. Our study reveals that ClpC2 not only senses CymA, but that through this interaction it can act as a molecular sponge to counteract the toxic effects of CymA and possibly other toxins targeting essential protease component ClpC1 in mycobacteria.