An efflux pump (MexAB-OprM) of Pseudomonas aeruginosa is associated with antibacterial activity of Epigallocatechin-3-gallate (EGCG).

BACKGROUND: Pseudomonas aeruginosa is a notorious multidrug resistant nosocomial pathogen. An efflux pump (MexAB-OprM) is the main contributor to the multidrug resistance in clinical isolates of P. aeruginosa. Epigallocatechin-3-gallate (EGCG), a polyphenolic compound extracted from green tea, exhibits antibacterial activity. It is unclear that molecular details of the antibacterial activity of EGCG, EGCG-effect on antibiotic susceptibility, and clinical relevance of EGCG in bacteria. PURPOSE: This study aimed to determine the roles of the efflux pump and an efflux pump inhibitor (phenylalanine-arginine ß-naphthylamide; PAßN) in the antibacterial activity of EGCG and the EGCG-effect on antibiotic susceptibility. METHODS: Twenty-two multidrug resistant clinical isolates of P. aeruginosa and a wild type P. aeruginosa PAO1 were used to determine antibacterial activity of EGCG and EGCG-effect on antibiotic susceptibility. An efflux pump (MexAB-OPrM) mutant strain, its complemented strain carrying an intact mexAB-oprM, and their parental strain were used to determine roles of MexAB-OprM in the antibacterial activity of EGCG and EGCG-mediated antibiotic susceptibility. PAßN was also used to evaluate EGCG as a possible efflux pump inhibitor. RESULTS: EGCG inhibited cellular growth and killed 100% of cells at 64-512 µg/ml and at 256-1024 µg/ml, respectively, in all tested 22 clinical isolates including the wild type strain. A subinhibitory concentration of EGCG significantly enhanced susceptibility to antibiotics, unexceptionally to chloramphenicol and tetracyclines (≥4-fold) of the clinical isolates. Both the antibacterial activity of EGCG and the EGCG-mediated antibiotic susceptibility were enhanced more in the efflux pump mutant strain (mexB::Gm) than the parental strain, suggesting additionally accumulated-EGCG produced the more antibacterial activity in the mutant strain. EGCG was synergistically interacted with PAßN with enhancing susceptibility to all tested antibiotics (up to >500-fold) at higher levels than either EGCG alone or PAßN alone, suggesting EGCG may also inhibit the efflux pump with additional accumulation of the antibiotics. CONCLUSION: The results demonstrate that EGCG exhibits antibacterial activity and enhances antibiotic effects against clinical isolates of P. aeruginosa. EGCG may inhibit the efflux pump (MexAB-OprM) through which are associated with the antibacterial activity of EGCG and the EGCG-mediated antibiotic susceptibility in P. aeruginosa.