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A lung-on-chip model of early Mycobacterium tuberculosis infection reveals an essential role for alveolar epithelial cells in controlling bacterial growth

Vivek V. Thacker, Neeraj Dhar, Kunal Sharma, Riccardo Barrile, Katia Karalis, John D. McKinney

2020eLife161 citationsDOIOpen Access PDF

Abstract

interactions at an air-liquid interface with a spatiotemporal resolution unattainable in animal models and to probe the direct role of pulmonary surfactant in early infection. Surfactant deficiency results in rapid and uncontrolled bacterial growth in both macrophages and alveolar epithelial cells. In contrast, under normal surfactant levels, a significant fraction of intracellular bacteria are non-growing. The surfactant-deficient phenotype is rescued by exogenous addition of surfactant replacement formulations, which have no effect on bacterial viability in the absence of host cells. Surfactant partially removes virulence-associated lipids and proteins from the bacterial cell surface. Consistent with this mechanism, the attenuation of bacteria lacking the ESX-1 secretion system is independent of surfactant levels. These findings may partly explain why smokers and elderly persons with compromised surfactant function are at increased risk of developing active tuberculosis.

Topics & Concepts

Pulmonary surfactantMycobacterium tuberculosisSecretionBacteriaMicrobiologyLungIntracellularPhenotypeIntracellular parasiteBiologyTuberculosisMycobacteriumVirulenceImmunologyCell biologyMedicinePathologyGeneBiochemistryInternal medicineGeneticsInhalation and Respiratory Drug DeliveryInnovative Microfluidic and Catalytic Techniques InnovationIntravenous Infusion Technology and Safety
A lung-on-chip model of early Mycobacterium tuberculosis infection reveals an essential role for alveolar epithelial cells in controlling bacterial growth | Litcius