The microbiota protects against Pseudomonas aeruginosa pneumonia via γδ T cell-neutrophil axis in mice

Abstract

Exposure to antimicrobials leading to microbiota dysbiosis has been found to be an independent risk factor for extensively drug-resistant Pseudomonas aeruginosa acquisition. Microbiota dysbiosis may induce imbalanced immune responses and can affect disease susceptibility. However, the potential role of commensal microbiota in bacterial pneumonia is poorly defined. The aim of this study was to investigate the mechanistic basis for the defective host defenses against P. aeruginosa pneumonia induced by antibiotic pretreatment perturbing microbiota. We found that antibiotic pretreatment significantly perturbed the composition of intestinal microbiota. The microbiota dysbiosis impaired host defenses against P. aeruginosa pneumonia, as reflected by the increased bacterial burden and dissemination, compromised local inflammatory responses and shortened survival time in microbiota-depleted mice compared with controls. This impairment correlated with a defective γδ T17 cell and downstream neutrophil responses. Anti-TCRγδ-treated mice had changes similar to those in the microbiota-depleted mice. Overall, our results suggest the importance of microbiota in supporting the host defense against pneumonia, define a crucial role for the γδ T cell-neutrophil axis in the potential mechanism, and delineate the deleterious effects of antibiotic treatment on antibacterial defenses.