Abstract

Cardiac sarcoplasmic reticulum (SR) Ca 2+ ATPase (SERCA2a) promotes Ca 2+ uptake in the SR. Dephosphorylated phospholamban (PLB) inhibits SERCA2a activity. We found a distinct dephosphorylation of PLB at Thr 17 and Ser 16 after 20–30 min of ischemia produced by coronary artery occlusion in rats. The aim of the study was to investigate how PLB is dephosphorylated in ischemia and to determine whether PLB dephosphorylation causes myocardial hypercontraction and calpain activation through Ca 2+ overload in reperfusion. Protein inhibitor-1 (I-1) specifically inhibits protein phosphatase 1 (PP1), the predominant PLB phosphatase in heart. A Ca 2+-dependent phosphatase calcineurin may also induce PLB dephosphorylation. Ischemia for 30 min induced PKC-α translocation, resulting in inactivation of I-1 through PKC-α-dependent phosphorylation at Ser 67. The PP1 activation following I-1 inactivation was thought to induce PLB dephosphorylation in ischemia. Ischemia for 30 min activated calcineurin, and pre-treatment with a calcineurin inhibitor, cyclosporine A (CsA), inhibited PKC-α translocation, I-1 phosphorylation at Ser 67, and PLB dephosphorylation in ischemia. Reperfusion for 5 min following 30 min of ischemia induced spreading of contraction bands (CBs) and proteolysis of fodrin by calpain. Both CsA and an anti-PLB antibody that inhibits binding of PLB to SERCA2a reduced the CB area and fodrin breakdown after reperfusion. These results reveal a novel pathway via which ischemia induces calcineurin-dependent activation of PKC-α, inactivation of I-1 through PKC-α-dependent phosphorylation at Ser 67, and PP1-dependent PLB dephosphorylation. The pathway contributes to the spreading of CBs and calpain activation through Ca 2+ overload in early reperfusion.

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