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Kindlin-2 Acts as a Key Mediator of Lung Fibroblast Activation and Pulmonary Fibrosis Progression

Ping Zhang, Jiaxin Wang, Weiren Luo, Jifan Yuan, Chunhong Cui, Ling Guo, Chuanyue Wu

2021American Journal of Respiratory Cell and Molecular Biology26 citationsDOI

Abstract

Abstract Pulmonary fibrosis is a progressive and fatal lung disease characterized by activation of lung fibroblasts and excessive deposition of collagen matrix. We show here that the concentrations of kindlin-2 and its binding partner PYCR1, a key enzyme for proline synthesis, are significantly increased in the lung tissues of human patients with pulmonary fibrosis. Treatment of human lung fibroblasts with TGF-β1 markedly increased the expression of kindlin-2 and PYCR1, resulting in increased kindlin-2 mitochondrial translocation, formation of the kindlin-2–PYCR1 complex, and proline synthesis. The concentrations of the kindlin-2–PYCR1 complex and proline synthesis were markedly reduced in response to pirfenidone or nintedanib, two clinically approved therapeutic drugs for pulmonary fibrosis. Furthermore, depletion of kindlin-2 alone was sufficient to suppress TGF-β1–induced increases of PYCR1 expression, proline synthesis, and fibroblast activation. Finally, using a bleomycin mouse model of pulmonary fibrosis, we show that ablation of kindlin-2 effectively reduced the concentrations of PYCR1, proline, and collagen matrix and alleviate the progression of pulmonary fibrosis in vivo. Our results suggest that kindlin-2 is a key promoter of lung fibroblast activation, collagen matrix synthesis, and pulmonary fibrosis, underscoring the therapeutic potential of targeting the kindlin-2 signaling pathway for control of this deadly lung disease.

Topics & Concepts

Pulmonary fibrosisFibroblastLungFibrosisMatrix metalloproteinaseBleomycinCancer researchIdiopathic pulmonary fibrosisMedicineCell biologyChemistryBiologyPathologyInternal medicineBiochemistryIn vitroChemotherapyInterstitial Lung Diseases and Idiopathic Pulmonary FibrosisProteoglycans and glycosaminoglycans researchCell Adhesion Molecules Research