Cooperative Membrane Damage as a Mechanism for Pentamidine–Antibiotic Mutual Sensitization

Most Gram-positive-selective antibiotics have low activity against Gram-negative bacteria due to the presence of an outer membrane barrier. There is, therefore, interest in developing combination therapies that can penetrate the outer membrane (OM) with known antibiotics coupled with membrane-active sensitizing adjuvants. However, two unanswered questions hinder the development of such combination therapies: the sensitization spectrum of the sensitizer and the mechanism of antibiotic–sensitizer mutual potentiation. Here, with pentamidine as an example, we screened a library of 170 FDA-approved antibiotics in combination with pentamidine, a compound known to disturb the OM of Gram-negative bacteria. We found that four antibiotics, minocycline, linezolid, valnemulin, and nadifloxacin, displaced enhanced activity in combination with pentamidine against several multidrug-resistant Gram-negative bacteria. Through a descriptor-based structural-activity analysis and multiple cell-based biochemical assays, we found that hydrophobicity, partial charge, rigidity, and surface rugosity were key factors that affected sensitization via a cooperative membrane damage mechanism in which lipopolysaccharides and phospholipids were identified as sites of synergy. Finally, in vitro experiments showed that the linezolid–pentamidine combination slowed the generation of drug resistance, and there was also potent activity in in vivo experiments. Overall, our results highlight the importance of the physicochemical properties of antibiotics and cooperative membrane damage for synergistic pentamidine–antibiotic drug combinations.