Phosphorylation of the plasma membrane calcium pump at high ATP concentration. On the mechanism of ATP hydrolysis.

Biochemistry

Departamento de Química Biológica, IQUIFIB, Facultad de Farmacia y Bioquímica, Universidad de Buenos Aires, Junín 956, 1113 Buenos Aires, Argentina.

Published: January 2007

The plasma membrane calcium ATPase (PMCA) reacts with ATP to form acid-stable phosphorylated intermediates (EP) that can be measured using (gamma-32P)ATP. However, the steady-state level of EP at [ATP] higher than 100 microM has not yet been studied due to methodological problems. Using a microscale method and a purified preparation of PMCA from human red blood cells, we measured the steady-state concentration of EP as a function of [ATP] up to 2 mM at different concentrations of Mg2+, both at 4 and 25 degrees C. We have measured the Ca2+-ATPase activity (v) under the same conditions as those used for phosphorylation experiments. While the curves of ATPase activity vs [ATP] were well described by the Michaelis-Menten equation, the corresponding curves of EP required more complex fitting equations, exhibiting at least a high- and a low-affinity component. Mg2+ increases the apparent affinity for ATP of this latter component, but it shows no significant effect on its high-affinity one or on the Ca2+-ATPase activity. We calculated the turnover of EP (k(pEP)) as the ratio v/EP. At 1 mM Mg2+, k(pEP) increases hyperbolically with [ATP], while at 8 microM Mg2+, it exhibits a behavior that cannot be explained by the currently accepted mechanism for ATP hydrolysis. These results, together with measurements of the rate of dephosphorylation at 4 degrees C, suggest that ATP is acting in additional steps involving the interconversion of phosphorylated intermediates during the hydrolysis of the nucleotide.

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Source
http://dx.doi.org/10.1021/bi061857xDOI Listing

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