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Integrin alpha-5 silencing leads to myofibroblastic differentiation in IPF-derived human lung fibroblasts

Gali Epstein Shochet, Elizabetha Brook, Becky Bardenstein-Wald, Hanna Grobe, E. L. Edelstein, Lilach Israeli‐Shani, David Shitrit

2020Therapeutic Advances in Chronic Disease14 citationsDOIOpen Access PDF

Abstract

BACKGROUND AND OBJECTIVE: The term 'fibroblast' covers a heterogeneous cell population in idiopathic pulmonary fibrosis (IPF). The fibroblasts are considered as main effector cells, because they promote disease progression by releasing exaggerated amounts of extracellular matrix proteins and modifying cell microenvironment. As IPF-derived human lung fibroblasts (IPF-HLFs) were shown to express higher levels of integrin alpha-5 (ITGA5) than normal derived HLFs (N-HLFs), we explored the importance of ITGA5 to IPF progression. METHODS: IPF-HLF and N-HLF primary cultures were established. ITGA5 was silenced by specific small interfering RNA (siRNA)s and its effects on cell phenotype (e.g. cell number, size, cell death, migration) and gene expression (e.g. RNA sequencing, quantitative polymerase chain reaction [qPCR], western blot and immunofluorescence) were tested. Specific integrin expression was evaluated in IPF patient formalin-fixed paraffin embedded sections by immunohistochemistry (IHC). RESULTS: < 0.05). N-HLFs, however, were only slightly affected. Interestingly, ITGA5-silenced cells differentiated into myofibroblasts (e.g. elevated alpha-smooth muscle actin [αSMA], collagen1a, large cell size). RNA-sequencing revealed that following differentiation on 3D-Matrigel for 24 h, ITGA5 levels are reduced while integrin alpha-8 (ITGA8) are elevated in IPF-HLFs. This was confirmed in IPF patients, in which ITGA5 was mainly found in fibroblastic foci, while ITGA8 was mostly observed in old fibrous tissue in the same patient. CONCLUSIONS: ITGA5 expression facilitates a more aggressive proliferative phenotype. Downregulation of this integrin results in myofibroblastic differentiation, which is accompanied by elevated ITGA8. Specific targeting could present a therapeutic benefit.

Topics & Concepts

BiologyIntegrinExtracellular matrixGene silencingFibronectinCancer researchCell migrationFibroblastMatrigelCellPathologyCell biologyMedicineCell cultureAngiogenesisGeneticsGeneInterstitial Lung Diseases and Idiopathic Pulmonary FibrosisSystemic Sclerosis and Related DiseasesRheumatoid Arthritis Research and Therapies
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