Phosphorylation of the calcium-transporting adenosinetriphosphatase by lanthanum ATP: rapid phosphoryl transfer following a rate-limiting conformational change

The calcium-transport ATPase (CaATPase) of rabbit sarcoplasmic reticulum preincubated with 0.02 mM Ca2+ (cE.Ca2) is phosphorylated upon the addition of 0.25 mM LaCl3 and 0.3 mM gamma-32P]ATP with an observed rate constant of 6.5 s-1 (40 mM MOPS, pH 7.0, 100 mM KCl, 25 degrees C). La.ATP binds to cE.Ca2 with a rate constant of 5 X 10(6) M-1 s-1, while ATP, Ca2+, and La3+ dissociate from cE.Ca2.La.ATP at less than or equal to 1 s-1. The reaction of ADP with phosphoenzyme (EP) formed from La.ATP is biphasic. An initial rapid loss of EP is followed by a slower first-order disappearance, which proceeds to an equilibrium mixture of EP.ADP and nonphosphorylated enzyme with bound ATP. The fraction of EP that reacts in the burst (alpha) and the first-order rate constant for the slow phase (kb) increase proportionally with increasing concentrations of ADP to give maximum values of 0.34 and 65 s-1, respectively, at saturating ADP (KADPS = 0.22 mM). The burst represents rapid phosphoryl transfer and demonstrates that ATP synthesis and hydrolysis on the enzyme are fast. The phosphorylation of cE.Ca2 by La.ATP at 6.5 s-1 and the kinetics for the reaction of EP with ADP are consistent with a rate-limiting conformational change in both directions. The conformational change converts cE.Ca2.La.ATP to the form of the enzyme that is activated for phosphoryl transfer, aE.Ca2.La.ATP, at 6.5 s-1; this is much slower than the analogous conformational change at 220 s-1 with Mg2+ as the catalytic ion Petithory & Jencks (1986) Biochemistry 25, 4493]. The rate constant for the conversion of aE.Ca2.La.ATP to cE.Ca2.La.ATP is 170 s-1. ATP does not dissociate measurably from aE.Ca2.La.ATP. Labeled EP formed from cE.Ca2 and La.ATP with leaky vesicles undergoes hydrolysis at 0.06 s-1. It is concluded that the reaction mechanism of the CaATPase is remarkably similar with Mg.ATP and La.ATP; however, the strong binding of La.ATP slows both the conformational change that is rate limiting for EP formation and the dissociation of La.ATP. An interaction between La3+ at the catalytic site and the calcium transport sites decreases the rate of calcium dissociation by greater than 60-fold. When cE-Ca2 is mixed with 0.3 mM ATP and 1.0 mM Cacl2, the phosphoenzyme is formed with an observed rate constant of 3 s-1. The phosphoenzyme formed from Ca.ATP reacts with 2.0 mM ADP and labeled ATP with a rate constant of 30 s-1; there may be a small burst (alpha less than or equal to 0.05).