Investigation of the catalytic site of actinidin by using benzofuroxan as a reactivity probe with selectivity for the thiolate-imidazolium ion-pair systems of cysteine proteinases. Evidence that the reaction of the ion-pair of actinidin (pKI 3.0, pKII 9.6) is modulated by the state of ionization of a group associated with a molecular pKa of 5.5

Abstract

Benzofuroxan reacts with the catalytic-site thiol group of actinidin (EC 3.4.22.14, the cysteine proteinase from Actinidia chinensis) to produce stoicheiometric amounts of the chromophoric reduction product, o-benzoquinone dioxime, and of a catalytically inactive derivative of actinidin that is devoid of thiol and that is assumed to contain, initially at least, the sulphenic acid of cysteine-25. A similar result applies also to papain (EC 3.4.22.2). The rate of o-benzoquinone dioxime formation is neither increased by inclusion of 2-mercaptoethanol or hydroxylamine in the reaction mixture nor decreased by changing the solvent from H2O to 2H2O. The change of solvent was shown to be without effect also on the rate of reaction of benzofuroxan with papain. These results suggest that the reactions of benzofuroxan with both actinidin and papain involve rate-determining attack of the catalytic-site thiol group to produce an intermediate adduct that then reacts rapidly with water to form enzyme sulphenic acid and o-benzoquinone dioxime. The pH-dependence of the second-order rate constant for the reaction of benzofuroxan with actinidin was determined in the pH range 4.3-10.2. In marked contrast with the analogous reaction of papain (reported by Shipton & Brocklehurst [(1977) Biochem. J. 167, 799-810]) the pH-k profile for the actinidin reaction clearly contains a sigmoidal component with pKa 5.5, in which k increases with decreasing pH. These data together with the molecular pKa values for S-/ImH+ ion-pair formation and decomposition (3.0 and 9.6) suggest that the combined nucleophilic-electrophilic reactivity of the ion-pair of actinidin might be controlled by the state of ionization of another ionizing group, associated with the molecular pKa of 5.5. The pH-dependence of k for the reaction of actinidin with benzofuroxan at 25 degrees C at I 0.1 in aqueous buffers containing 6.7% (v/v) ethanol is probably adequately described by: k = k1/(1 + [H+]/KI + KII/[H+]) + k2/(1 + [H+]/KII + KIII/ [H+] + k3/(1 + [H+]/KIII) in which kI = 2.55 M -1 X s -1, k2 = 1.35 M -1, k3 = 0.93 M -1 X s -1, pKI = 3.0, pKII = 5.5 and pKIII = 9.6. By contrast, the analogous reaction of papain may be described by the same equation but with kI = 0, k2 = 2.2 M -1 X s -1, k3 = 1.3 M -1 X s -1, pKII = 3.6 and pKIII = 9.0.