Antibiotic capture by bacterial lipocalins uncovers an extracellular mechanism of intrinsic antibiotic resistance

15 p.-6 fig.The potential for microbes to overcome antibiotics of different classes before they reach bacterial cells is largely unexplored. Here we show that a soluble bacterial lipocalin produced by Burkholderia cenocepacia upon exposure to sublethal antibiotic concentrations increases resistance to diverse antibiotics in vitro and in vivo. These phenotypes were recapitulated by heterologous expression in B. cenocepacia of lipocalin genes from Pseudomonas aeruginosa, Mycobacterium tuberculosis,and methicillin-resistant Staphylococcus aureus. Purified lipocalin bound different classes of bactericidal antibiotics and contributed to bacterial survival in vivo. Experimental and X-ray crystal structure-guided computational studies revealed that lipocalins counteract antibiotic action by capturing antibiotics in the extracellular space. We also demonstrated that fat-soluble vitamins prevent antibiotic capture by binding bacterial lipocalin with higher affinity than antibiotics. Therefore, bacterial lipocalins contribute to antimicrobial resistance by capturing diverse antibiotics in the extracellular space at the site of infection, which can be counteracted by known vitamins.This work was funded by grants from Cystic Fibrosis Canada, the European Commission,a Marie Curie Career Integration grant (projects 618095, NONANTIRES), and the Infection and Immunity Translational Research Group, Northern Ireland HSC to M.A.V.;the Spanish Ministry for Economy and Competitiveness (MINECO CTQ2011-22724 and CTQ2014-57141-R), European Commission Marie Curie grants GLYCOPHARM FP7-PITNGA-2012-317297 and TOLLerant H2020-MSC-ETN-642157 to S.M.S.; and Canadian Institutes of Health research grant MOP-49597 and a grant from Cystic Fibrosis Canada to M.E.P.M.Peer reviewe