Altered Metabolism in Idiopathic Pulmonary Fibrosis.
Neal I Callaghan, Locke Davenport Huyer
Abstract
Open AccessIdiopathic pulmonary fibrosis (IPF) is an incurable lung disease that ultimately terminates in death or lung transplantation. It is characterized by a restrictive pattern with impaired diffusion capacity, and typically presents with repeated acute exacerbations that result in permanent and progressive loss of respiratory function. IPF bears complicated and likely multifactorial etiology manifesting in the dysfunction of multiple cell types, a 2-year mortality over 40%, and available treatments can only slow disease progression. Distinct metabolic disturbances in IPF underscore the mechanisms of deranged cell function, including regional oxidative stress, fibrotic extracellular matrix production, and epithelial dysfunction including impaired pulmonary surfactant production. Although the precise profile of metabolic derangements in IPF remain contentious across multiple studies and models of disease, metabolism represents a critically untapped pathway for therapeutic intervention. In this review, the mechanisms underlying IPF development and progression are isolated and linked to cell-specific alterations in metabolic function. We furthermore compare various in vivo and in vitro models of IPF with focus on metabolic analyses, and critically compare them to patient-derived data. Finally, new metabolically-associated biomarkers of IPF progression are discussed, and recommendations for further IPF modeling and metabolic targeting of IPF-related processes are provided. This review serves to provide a consensus survey of the current metabolomic IPF landscape, as well as a critical discussion of next steps for in vitro modeling to develop disease-modifying therapeutics targeting dysregulated metabolism in IPF.