Abstract
Prolyl oligopeptidase, a member of a new family of serine peptidases, plays an important role in memory disorders. Earlier x-ray crystallographic investigations indicated that stabilization of the tetrahedral transition state of the reaction involved hydrogen bond formation between the oxyanion of the tetrahedral intermediate and the OH group of Tyr(473). The contribution of the OH group was tested with the Y473F variant using various substrates. The charged succinyl-Gly-Pro-4-nitroanilide was hydrolyzed with a much lower k(cat)/K(m) compared with the neutral benzyloxycarbonyl-G1y-Pro-2-naphthylamide, although the binding modes of the two substrates were similar, as shown by x-ray crystallography. This suggested that electrostatic interactions between Arg(643) and the succinyl group competed with the productive binding mechanism. Unlike most enzyme reactions, catalysis by the wild-type enzyme exhibited positive activation entropy. In contrast, the activation entropy for the Y473F variant was negative, suggesting that the tyrosine OH group is involved in stabilizing both the transition state and the water shell at the active site. Importantly, Tyr(473) is also implicated in the formation of the enzyme-substrate complex. The nonlinear Arrhenius plot suggested a greater significance of the oxyanion binding site at physiological temperature. The results indicated that Tyr(473) was more needed at high pH, at high temperature, and with charged substrates exhibiting "internally competitive inhibition."
Highlights
Prolyl oligopeptidase, a member of a new family of serine peptidases, plays an important role in memory disorders
This suggested that electrostatic interactions between Arg643 and the succinyl group competed with the productive binding mechanism
Studies of the structural changes induced by pH, temperature, and urea have demonstrated that the denaturation of the enzyme is promoted at 0.5 M NaCl concentration [27]. These results suggest that prolyl oligopeptidase is stabilized by a water shell, which is less stable at low pH and high ionic strength
Summary
Nap, -naphthylamide; Mes, 2-(morpholino)ethanesulfonic acid; Z, benzyloxycarbonyl; suc, succinyl; Nan, 4-nitroanilide. Prolyl Oligopeptidase Catalysis is formed between the oxyanion and the main chain NH group of Asn555, adjacent to the catalytic Ser554. We have recently eliminated the tyrosine OH group by replacing the Tyr473 with a phenylalanine [24]. The tyrosine OH group was implicated in utilizing a portion of the binding energy in the chemical reaction step. In this work we have demonstrated that, in addition to the electrophilic catalysis, the Tyr473 OH group is implicated in binding and that its role very much depends on the nature of the substrate, the pH, and the temperature
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