Talior-Volodarsky, I.Arora, P. D.Wang, Y.Zeltz, C.Connelly, K. A.Gullberg, D.McCulloch, Christopher A.2015-08-192015-08-192014-06-24J Cell Physiol. 2014 Jun 24.http://hdl.handle.net/1807/69591The adhesion of cardiac fibroblasts to the glycated collagen interstitium in diabetics is associated with de novo expression of the a11 integrin, myofibroblast formation and cardiac fibrosis. We examined how methylglyoxal-glycated collagen regulates a11 integrin expression. In cardiac fibroblasts plated on glycated collagen but not glycated fibronectin, there was markedly increased a11 integrin and a-smooth muscle actin expression. Compared with native collagen, binding of purified a11b1 integrin to glycated collagen was reduced by fourfold, which was consistent with reduced fibroblast attachment to glycated collagen. Glycated collagen strongly enhanced the expression of TGF-b2 but not TGF-b1 or TGF-b3. The increased expression of TGF-b2 was inhibited by triple helical collagen peptides that mimic the a11b1 integrin binding site on type I collagen. In cardiac fibroblasts transfected with a11 integrin luciferase promoter constructs, glycated collagen activated the a11 integrin promoter. Analysis of a11 integrin promoter truncation mutants showed a novel Smad2/3 binding site located between 809 and 1300 nt that was required for promoter activation. We conclude that glycated collagen in the cardiac interstitium triggers an autocrine TGF-b2 signaling pathway that stimulates a11 integrin expression through Smad2/3 binding elements in the a11 integrin promoter, which is important for myofibroblast formation and fibrosis.en-caArticle Post-Printhttp://doi.org/10.1002/jcp.24708