Loss of fibulin-2 protects against progressive ventricular dysfunction after myocardial infarction.

Remodeling of the cardiac extracellular matrix (ECM) is an integral part of wound healing and ventricular adaptation after myocardial infarction (MI), but the underlying mechanisms remain incompletely understood. Fibulin-2 is an ECM protein upregulated during cardiac development and skin wound healing, yet mice lacking fibulin-2 do not display any identifiable phenotypic abnormalities. To investigate the effects of fibulin-2 deficiency on ECM remodeling after MI, we induced experimental MI by permanent coronary artery ligation in both fibulin-2 null and wild-type mice. Fibulin-2 expression was up-regulated at the infarct border zone of the wild-type mice. Acute myocardial tissue responses after MI, including inflammatory cell infiltration and ECM protein synthesis and deposition in the infarct border zone, were markedly attenuated in the fibulin-2 null mice. However, the fibulin-2 null mice had significantly better survival rate after MI compared to the wild-type mice as a result of less frequent cardiac rupture and preserved left ventricular function. Up-regulation of TGF-β signaling and ECM remodeling after MI were attenuated in both ischemic and non-ischemic myocardium of the fibulin-2 null mice compared to the wild type counterparts. Increase in TGF-β signaling in response to angiotensin II was also lessened in cardiac fibroblasts isolated from the fibulin-2 null mice. The studies provide the first evidence that absence of fibulin-2 results in decreased up-regulation of TGF-β signaling after MI and protects against ventricular dysfunction, suggesting that fibulin-2 may be a potential therapeutic target for attenuating the progression of ventricular remodeling.