Litcius/Paper detail

How Does Airway Surface Liquid Composition Vary in Different Pulmonary Diseases, and How Can We Use This Knowledge to Model Microbial Infections?

Dean Walsh, Jennifer L. Bevan, Freya Harrison

2024Microorganisms10 citationsDOIOpen Access PDF

Abstract

Growth environment greatly alters many facets of pathogen physiology, including pathogenesis and antimicrobial tolerance. The importance of host-mimicking environments for attaining an accurate picture of pathogen behaviour is widely recognised. Whilst this recognition has translated into the extensive development of artificial cystic fibrosis (CF) sputum medium, attempts to mimic the growth environment in other respiratory disease states have been completely neglected. The composition of the airway surface liquid (ASL) in different pulmonary diseases is far less well characterised than CF sputum, making it very difficult for researchers to model these infection environments. In this review, we discuss the components of human ASL, how different lung pathologies affect ASL composition, and how different pathogens interact with these components. This will provide researchers interested in mimicking different respiratory environments with the information necessary to design a host-mimicking medium, allowing for better understanding of how to treat pathogens causing infection in these environments.

Topics & Concepts

SputumCystic fibrosisPathogenAirwayBiologyPulmonary diseaseHost (biology)DiseaseHost factorsHost responseImmunologyMedicinePathologyEcologyImmune systemTuberculosisInternal medicineVirusGeneticsSurgeryCystic Fibrosis Research AdvancesInhalation and Respiratory Drug DeliveryRespiratory viral infections research