Elucidation of the chemical nature of the steady-state intermediates in the mechanism of carboxypeptidase A

Abstract

Cryospectrokinetic studies of zinc and cobalt carboxypeptidase A disclosed two intermediates in the hydrolysis of both peptides and depsipepides and furnished all the rate and equilibrium constants for the reaction scheme E + S .dblarw. ES1 .dblarw. ES2 .fwdarw. E + P [Auld, D.S., Galdes, A., Geoghegan, K.F., Holmquist, B., Martinelli, R. A. and Vallee, B.L. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 5041-5045]. Since the ES2 intermediate is the predominate enzyme species present at steady state, its chemical nature is deducible from subzero chemical quench studies done after steady state is established. Extrapolation of the product concentration to zero time, [P0], measures the concentration of the enzyme species in which bond cleavage has occurred. For peptides, the [P0] values are zero, indicating that no product is generated prior to turnover and therefore the ES2 intermediate involves a complex between enzyme and intact peptide substrate. For depsipeptides, [P0] values are 1 mol of product per mole of enzyme over the entire temperature range -20 to -50.degree. C, indicating cleavage of the ester bond occurs prior to the rate-limiting step so that ES2 is more properly denoted by EP1P2, where P1 and P2 are the substrates for the reverse reaction. The rate-limiting step for depsipeptides thus involves release of the products which may occur directly or through a mandatory conformational change followed by rapid product release.