Persistent hypoxia promotes myofibroblast differentiation via GPR‐81 and differential regulation of LDH isoenzymes in normal and idiopathic pulmonary fibrosis fibroblasts

Author:

Nho Richard S.1ORCID,Rice Cami1,Prasad Jayendra1,Bone Hannah1,Farkas Laszlo1ORCID,Rojas Mauricio1ORCID,Horowitz Jeffrey C.1ORCID

Affiliation:

1. Division of Pulmonary, Critical Care and Sleep Medicine, Department of Internal Medicine, The Davis Heart and Lung Research Institute The Ohio State University Columbus Ohio USA

Abstract

AbstractHypoxia, a state of insufficient oxygen availability, promotes cellular lactate production. Lactate levels are increased in lungs from patients with idiopathic pulmonary fibrosis (IPF), a disease characterized by excessive scar formation, and lactate is implicated in the pathobiology of lung fibrosis. However, the mechanisms underlying the effects of hypoxia and lactate on fibroblast phenotype are poorly understood. We exposed normal and IPF lung fibroblasts to persistent hypoxia and found that increased lactate generation by IPF fibroblasts was driven by the FoxM1‐dependent increase of lactate dehydrogenase A (LDHA) coupled with decreased LDHB that was not observed in normal lung fibroblasts. Importantly, hypoxia reduced α‐smooth muscle actin (α‐SMA) expression in normal fibroblasts but had no significant impact on this marker of differentiation in IPF fibroblasts. Treatment of control and IPF fibroblasts with TGF‐β under hypoxic conditions did not significantly change LDHA or LDHB expression. Surprisingly, lactate directly induced the differentiation of normal, but not IPF fibroblasts under hypoxic conditions. Moreover, while expression of GPR‐81, a G‐protein‐coupled receptor that binds extracellular lactate, was increased by hypoxia in both normal and IPF fibroblasts, its inhibition or silencing only suppressed lactate‐mediated differentiation in normal fibroblasts. These studies show that hypoxia differentially affects normal and fibrotic fibroblasts, promoting increased lactate generation by IPF fibroblasts through regulation of the LDHA/LDHB ratio and promoting normal lung fibroblast responsiveness to lactate through GPR‐81. This supports a novel paradigm in which lactate may serve as a paracrine intercellular signal in oxygen‐deficient microenvironments.

Funder

National Institutes of Health

Publisher

Wiley

Subject

Physiology (medical),Physiology

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