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Canonical transforming growth factor-β signaling regulates disintegrin metalloprotease expression in experimental renal fibrosis via miR-29

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Original languageEnglish
Pages (from-to)1885-96
Number of pages12
JournalAmerican Journal of Pathology
Volume183
Issue number6
DOIs
Publication statusPublished - Dec 2013

Abstract

Fibrosis pathophysiology is critically regulated by Smad 2- and Smad 3-mediated transforming growth factor-β (TGF-β) signaling. Disintegrin metalloproteases (Adam) can manipulate the signaling environment, however, the role and regulation of ADAMs in renal fibrosis remain unclear. TGF-β stimulation of renal cells results in a significant up-regulation of Adams 10, 17, 12, and 19. The selective Smad2/3 inhibitor SB 525334 reversed these TGF-β-induced changes. In vivo, using ureteral obstruction to model renal fibrosis, we observed increased Adams gene expression that was blocked by oral administration of SB 525334. Similar increases in Adam gene expression also occurred in preclinical models of hypertension-induced renal damage and glomerulonephritis. miRNAs are a recently discovered second level of regulation of gene expression. Analysis of 3' untranslated regions of Adam12 and Adam19 mRNAs showed multiple binding sites for miR-29a, miR-29b, and miR-29c. We show that miR-29 family expression is decreased after unilateral ureter obstruction and this significant decrease in miR-29 family expression was observed consistently in preclinical models of renal dysfunction and correlated with an increase in Adam12 and Adam19 expression. Exogenous overexpression of the miR-29 family blocked TGF-β-mediated up-regulation of Adam12 and Adam19 gene expression. This study shows that Adams are involved in renal fibrosis and are regulated by canonical TGF-β signaling and miR-29. Therefore, both Adams and the miR-29 family represent therapeutic targets for renal fibrosis.

    Research areas

  • Animals, Cell Line, Disintegrins, Fibrosis, Gene Expression Regulation, Enzymologic, Glomerulonephritis, Imidazoles, Male, Mice, MicroRNAs, Quinoxalines, Rats, Signal Transduction, Smad2 Protein, Smad3 Protein, Transforming Growth Factor beta

ID: 23492328