Abstract
Tigecycline has an extended spectrum of in vitro antimicrobial activities, including that against multidrug-resistant Acinetobacter. After identifying bloodstream isolates of Acinetobacter with reduced susceptibilities to tigecycline, we performed a study to assess tigecycline efflux mediated by the resistance-nodulation-division-type transporter AdeABC. After exposure of two tigecycline-nonsusceptible isolates to the efflux pump inhibitor phenyl-arginine-beta-naphthylamide (PABN), a fourfold reduction in the tigecycline MIC was observed. Both tigecycline-susceptible and -nonsusceptible isolates were found to carry the gene coding for the transmembrane component of the AdeABC pump, adeB, and the two-component regulatory system comprising adeS and adeR. Previously unreported point mutations were identified in the regulatory system in tigecycline-nonsusceptible isolates. Real-time PCR identified 40-fold and 54-fold increases in adeB expression in the two tigecycline-nonsusceptible isolates compared to that in a tigecycline-susceptible isolate. In vitro exposure of a tigecycline-susceptible clinical strain to tigecycline caused a rapid rise in the MIC of tigecycline from 2 microg/ml to 24 microg/ml, which was reversible with PABN. A 25-fold increase in adeB expression was observed in a comparison between this tigecycline-susceptible isolate and its isogenic tigecycline-nonsusceptible mutant. These results indicate that an efflux-based mechanism plays a role in reduced tigecycline susceptibility in Acinetobacter.