Metformin attenuates hyperglycaemia-stimulated pro-fibrotic gene expression in vascular adventitial fibroblasts via inhibition of Discoidin Domain Receptor 2

Abstract

AbstractMolecular mechanisms underlying the diverse therapeutic effects of anti-diabetic metformin, beyond its anti-hyperglycaemic effects, remain largely unclear. Metformin is reported to reduce the long-term complications of diabetes, including cardiovascular fibrosis and remodelling. Our recent investigations show that Discoidin Domain Receptor 2 (DDR2), a collagen receptor tyrosine kinase, has an obligate regulatory role in collagen type I gene expression in cardiac and vascular adventitial fibroblasts, and that it may be a molecular link between arterial fibrosis and metabolic syndrome in rhesus monkeys. Using gene knockdown and over-expression approaches, the present study examined whether DDR2 is a target of metformin, and whether, by targeting DDR2, it inhibits fibronectin and collagen expression in vascular adventitial fibroblasts exposed to hyperglycaemic conditions. Metformin was found to attenuate hyperglycaemia-induced increase in DDR2 mRNA and protein expression by inhibiting TGF-β1/ Smad2/3 signalling that mediates the stimulatory effect of hyperglycaemia on DDR2 expression. Metformin also inhibited DDR2-dependent expression of fibronectin and collagen, indicating that it regulates these matrix proteins via DDR2 inhibition. The findings identify DDR2, a major mediator of cardiovascular remodelling, as a molecular target of metformin, thereby uncovering the molecular basis of its protective role in vascular fibrosis, and possibly, cardiac fibrosis associated with diabetic cardiomyopathy.