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Hypoxia increases the abundance but not the assembly of extracellular fibronectin during epithelial cell transdifferentiation.

Journal of cell science (2015-01-27)
Manish K Rana, Jyoti Srivastava, Michael Yang, Christopher S Chen, Diane L Barber
RESUMEN

Increased production and assembly of extracellular matrix proteins during transdifferentiation of epithelial cells to a mesenchymal phenotype contributes to diseases such as renal and pulmonary fibrosis. TGF-β and hypoxia, two cues that initiate injury-induced fibrosis, caused human kidney cells to develop a mesenchymal phenotype, including increased fibronectin expression and secretion. However, upon hypoxia, assembled extracellular fibronectin fibrils were mostly absent, whereas treatment with TGF-β led to abundant fibrils. Fibrillogenesis required cell-generated force and tension. TGF-β, but not hypoxia, increased cell contractility, as determined by phosphorylation of myosin light chain and quantifying force and tension generated by cells plated on engineered elastomeric microposts. Additionally, TGF-β, but not hypoxia, increased the activation of integrins. However, experimentally activating integrins markedly increased the levels of phosphorylated myosin light chain and fibronectin fibril assembly upon hypoxia. Our findings show that deficient integrin activation and subsequent lack of cell contractility are mechanisms that mediate a lack of fibrillogenesis upon hypoxia and they challenge current views on oxygen deprivation being sufficient for fibrosis.

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Anti-Integrin α5 Antibody, clone P1D6, azide free, clone P1D6, Chemicon®, from mouse