1. Systems Biology and Bile Acid Signalling in Microbiome-Host Interactions in the Cystic Fibrosis Lung
- Author
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David Woods, Stephen M. Stick, José A. Caparrós-Martín, F. Jerry Reen, Stephanie Flynn, and Fergal O'Gara
- Subjects
0301 basic medicine ,Microbiology (medical) ,medicine.drug_class ,RM1-950 ,Review ,Biology ,Biochemistry ,Microbiology ,Cystic fibrosis ,digestive system ,lung ,Pathogenesis ,cystic fibrosis ,03 medical and health sciences ,0302 clinical medicine ,medicine ,microbiota ,Pharmacology (medical) ,Microbiome ,General Pharmacology, Toxicology and Pharmaceutics ,Pathogen ,bile acids ,Lung ,Bile acid ,aspiration ,gastro-oesophageal reflux ,medicine.disease ,chronic infection ,Chronic infection ,030104 developmental biology ,Infectious Diseases ,medicine.anatomical_structure ,030228 respiratory system ,inflammation ,Immunology ,Pseudomonas aeruginosa ,Therapeutics. Pharmacology ,Dysbiosis ,pathogen - Abstract
The study of the respiratory microbiota has revealed that the lungs of healthy and diseased individuals harbour distinct microbial communities. Imbalances in these communities can contribute to the pathogenesis of lung disease. How these imbalances occur and establish is largely unknown. This review is focused on the genetically inherited condition of Cystic Fibrosis (CF). Understanding the microbial and host-related factors that govern the establishment of chronic CF lung inflammation and pathogen colonisation is essential. Specifically, dissecting the interplay in the inflammation–pathogen–host axis. Bile acids are important host derived and microbially modified signal molecules that have been detected in CF lungs. These bile acids are associated with inflammation and restructuring of the lung microbiota linked to chronicity. This community remodelling involves a switch in the lung microbiota from a high biodiversity/low pathogen state to a low biodiversity/pathogen-dominated state. Bile acids are particularly associated with the dominance of Proteobacterial pathogens. The ability of bile acids to impact directly on both the lung microbiota and the host response offers a unifying principle underpinning the pathogenesis of CF. The modulating role of bile acids in lung microbiota dysbiosis and inflammation could offer new potential targets for designing innovative therapeutic approaches for respiratory disease.
- Published
- 2021