Intermolecular Conformational Coupling and Free Energy Exchange Enhance the Catalytic Efficiency of Cardiac Muscle SERCA2a following the Relief of Phospholamban Inhibition

Activation of cardiac muscle sarcoplasmic reticulum Ca2+-ATPase (SERCA2a) by β1-agonists involves cAMP- and PKA-dependent phosphorylation of phospholamban (PLB), which relieves the inhibitory effects of PLB on SERCA2a. To investigate the mechanism of SERCA2a activation, we compared the kinetic properties of SERCA2a expressed with (+) and without (−) PLB in High Five insect cell microsomes to those of SERCA1 and SERCA2a in native skeletal and cardiac muscle SR. Both native SERCA1 and expressed SERCA2a without PLB exhibited high-affinity (10−50 μM) activation of pre-steady-state catalytic site dephosphorylation by ATP, steady-state accumulation of the ADP-sensitive phosphoenzyme (E1P), and a rapid phase of EGTA-induced phosphoenzyme (E2P) hydrolysis. In contrast, SERCA2a in native cardiac SR vesicles and expressed SERCA2a with PLB lacked the high-affinity activation by ATP and the rapid phase of E2P hydrolysis, and exhibited low steady-state levels of E1P. The results indicate that the kinetic differences i...