Lack of beta3 integrin signaling contributes to calpain-mediated myocardial cell loss in pressure-overloaded myocardium.

Although cardiac hypertrophy initially ensues as a compensatory mechanism, it often culminates in congestive heart failure. Based on our earlier studies that calpain and beta3 integrin play cell death and survival roles, respectively, during pressure-overload (PO) hypertrophy, we investigated if the loss of beta3 integrin signaling is a potential mechanism for calpain-mediated cardiomyocyte death during PO. beta3 Integrin knockout (beta3) and wild-type mice were used to induce either moderate or severe PO in vivo for short-term (72-hour) and long-term (4-week) transverse aortic constriction. Whereas wild-type mice showed no changes during moderate PO at both time points, beta3 mice exhibited both enrichment of the mu-calpain isoform and programmed cell death of cardiomyocytes after 4-week PO. However, with severe PO that caused increased mortality in both mice groups, cell death was observed in wild-type mice also. To study calpain's role, calpeptin, a specific inhibitor of calpain, was administered through an osmotic mini-pump at 2.5 mg/kg per day beginning 3 days before moderate transverse aortic constriction or sham surgery. Calpeptin administration blocked both calpain enrichment and myocardial cell death in the 4-week PO beta3 mice. Because beta3 integrin contributes to cardioprotective signaling, these studies indicate that the loss of specific integrin function could be a key mechanism for calpain-mediated programmed cell death of cardiomyocytes in PO myocardium.