Abstract

Pseudomonas aeruginosa PAO1, an opportunistic human pathogen, deploys several strategies to resist antibiotics. It uses multidrug efflux pumps, including the MexAB-OprM pump, for antibiotic resistance, and it also produces hydrogen sulfide (H₂ S) that provides some defense against antibiotics. MexR functions as a transcriptional repressor of the mexAB-oprM operon. MexR responds to oxidative stresses caused by antibiotic exposure, and it also displays a growth phase-dependent derepression of the mexAB-oprM operon. However, the intrinsic inducer has not been identified. Here, we report that P. aeruginosa PAO1 produced sulfane sulfur, including glutathione persulfide and inorganic polysulfide, produced from either H₂ S oxidation or from L-cysteine metabolism. Sulfane sulfur directly reacted with MexR, forming di- and trisulfide cross-links between two Cys residues, to derepress the mexAB-oprM operon. Levels of cellular sulfane sulfur and mexAB-oprM expression varied during growth, and both reached the maximum during the stationary phase of growth. Thus, self-produced H₂ S and sulfane sulfur may facilitate antibiotic resistance via inducing the expression of antibiotic resistance genes.