We investigated left ventricular (LV) mechanoenergetics in acute and chronic failing hearts, induced by high Ca(2+), ischemic-reperfusion injury, diabetes mellitus (DM), and hypothyroidism, using cross-circulated excised rat heart preparations. After high Ca(2+) or ischemic-reperfusion, there was a contractile failure associated with a parallel downward shift of the linear relation between myocardial O(2) consumption per beat (VO(2)) and systolic pressure-volume area (PVA). This result indicated a decrease in VO(2) for total Ca(2+) handling in E-C coupling. We found proteolysis of a cytoskeletal protein, alpha-fodrin. A calpain inhibitor significantly suppressed contractile failure, decreased VO(2) for total Ca(2+) handling, and membrane alpha-fodrin degradation. In DM, the LV relaxation rate was significantly slower, resulting in the decreased O(2) consumption per min for total Ca(2+) handling in E-C coupling. In hypothyroidism, there were systolic and diastolic failures associated with the decreased O(2) consumption per beat for total Ca(2+) handling in E-C coupling. The protein level of sarcoplasmic reticulum Ca(2+) ATPase (SERCA2) was significantly lower in DM and hypothyroidism. We conclude that suppression of O(2) consumption for total Ca(2+) handling, mainly utilized by SERCA2, is a major cause of failing hearts, mediated through degradation of membrane alpha-fodrin via activation of calpain or suppressed expression of SERCA2.
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