The evolving role of the lung microbiome in pulmonary fibrosis.

Abstract

Mucosal surfaces are constantly exposed to a microbiome consisting of microorganisms that heavily influence human immunity and health. In the lung these microorganisms consist of bacteria, viruses, and fungi and exist in a relatively low biomass state. Bacterial communities of the lung modulate local inflammation and correlate with changes in pulmonary physiology and clinical outcomes in patients with lung disease. Instrumental to this progress has been the study of these bacterial communities in the pathogenesis of pulmonary fibrosis, a fatal and progressive disease culminating in respiratory failure. Key pathophysiological mechanisms in pulmonary fibrosis include recurrent idiopathic alveolar epithelial injury, unchecked collagen deposition, mucociliary dysfunction due to muc5b overexpression, hypoxia, and altered host defense. These key mechanisms and their related consequences promote severe progressive architectural lung destruction and loss of local homeostasis. As such, pulmonary fibrosis is an appropriate target disease for the study of the lung microbiome. Herein, we discuss recent advances in our understanding of the role of the lung microbiome in the pathogenesis of pulmonary fibrosis. We highlight fundamental clinical observations and mechanistic insights and identify crucial areas for further discovery science. An improved understanding of how the lung microbiome acts to influence outcomes in patients with pulmonary fibrosis will lead to enhanced therapies for this devastating lung disease.