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Modulation of Haemophilus influenzae interaction with hydrophobic molecules by the VacJ/MlaA lipoprotein impacts strongly on its interplay with the airways

AuthorsFernández-Calvet, Ariadna CSIC ORCID; Rodríguez-Arce, Irene; Almagro, Goizeder CSIC ORCID ; Moleres, Javier CSIC ORCID ; Euba, Begoña CSIC ORCID ; Caballero, Lucía ; Marti, Sara; Ramos-Vivas, José; Bartholomew, Toby Leigh; Morales, Xabier; Ortiz-de-Solorzano, Carlos; Yuste, José CSIC ORCID; Bengoechea, José Antonio CSIC ORCID; Conde Álvarez, Raquel; Garmendia, Juncal CSIC ORCID
Issue Date2018
PublisherSpringer Nature
CitationScientific Reports 8: 6872 (2018)
AbstractAirway infection by nontypeable Haemophilus influenzae (NTHi) associates to chronic obstructive pulmonary disease (COPD) exacerbation and asthma neutrophilic airway inflammation. Lipids are key inflammatory mediators in these disease conditions and consequently, NTHi may encounter free fatty acids during airway persistence. However, molecular information on the interplay NTHi-free fatty acids is limited, and we lack evidence on the importance of such interaction to infection. Maintenance of the outer membrane lipid asymmetry may play an essential role in NTHi barrier function and interaction with hydrophobic molecules. VacJ/MlaA-MlaBCDEF prevents phospholipid accumulation at the bacterial surface, being the only system involved in maintaining membrane asymmetry identified in NTHi. We assessed the relationship among the NTHi VacJ/MlaA outer membrane lipoprotein, bacterial and exogenous fatty acids, and respiratory infection. The vacJ/mlaA gene inactivation increased NTHi fatty acid and phospholipid global content and fatty acyl specific species, which in turn increased bacterial susceptibility to hydrophobic antimicrobials, decreased NTHi epithelial infection, and increased clearance during pulmonary infection in mice with both normal lung function and emphysema, maybe related to their shared lung fatty acid profiles. Altogether, we provide evidence for VacJ/MlaA as a key bacterial factor modulating NTHi survival at the human airway upon exposure to hydrophobic molecules.
Publisher version (URL)https://doi.org/10.1038/s41598-018-25232-y
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