Calpain-I induced alterations in the cytoskeletal structure and impaired mechanical properties of single myocytes of rat heart.

The involvement of Calpain-I mediated proteolysis has been implicated in myofibrillar dysfunction of reperfused myocardium following ischemia (stunning). This study addresses the question whether ultrastructural alterations might be responsible for the depressed contractility. Mechanical properties and protein composition of isolated myocytes after Calpain-I exposure (1.25 U/ml; 10 min; 15 degrees C; pCa 5.0) and of ischemic rat hearts following reperfusion were characterized. Maximal isometric force (44 +/- 5 kN/m2) at pCa 4.5 (pCa = -log[Ca2+]) decreased by 42.5% in Triton permeabilized myocytes (n = 11) after Calpain-I treatment. Force (and consequent myofilament disarrangement) during Calpain-I treatment was prevented by 40 mM BDM. The contractile force of Calpain-I exposed myocytes was significantly higher at submaximal levels of activation (pCa 5.5, 5.4 and 5.3) before maximal force development (pCa 4.5) than after maximal force development. The pCa50 value (5.40 +/- 0.02) determined from these initial test contractures did not differ significantly from that of untreated controls (5.44 +/- 0.03). However, after full activation Ca(2+)-sensitivity of force production in Calpain-I treated myocytes was significantly reduced (pCa50 5.34 +/- 0.02). This change in pCa50 was positively correlated with the reduction in maximal isometric force and was accompanied by sarcomere disorder. These findings imply that at least part of the Calpain-I induced mechanical alterations are dependent on force history. Measurements of the rate of force redevelopment after unloaded shortening suggested that Calpain-I did not affect cross-bridge kinetics. SDS gel electrophoresis and Western immunoblotting of Calpain-I treated myocytes revealed desmin degradation. The desmin content of postischemic myocardium was also reduced. Our results indicate that ultrastructural alterations may play an important role in the Calpain-I mediated cardiac dysfunction.