Surface-independent acceleration of factor XII activation by zinc ions. I. Kinetic characterization of the metal ion rate enhancement.

ABSTRACT

The effect of zinc ions (Zn(II)) on the activation of factor XII in the absence of a procoagulant surface was investigated by initial velocity kinetic studies at I = 0.15, pH 7.4, and 25 degrees C. Zinc ions at concentrations greater than 160 microM potentiated 99-fold the kcat/KM for the activation of factor XII by kallikrein and, at an optimum concentration of 110 microM, accelerated 140-fold the apparent kcat/KM for factor XII autoactivation. High molecular weight kininogen had no effect on either metal-potentiated reaction. Analysis of the factor XII concentration dependence of initial activation rates revealed that Zn(II), at levels that saturate the effect, accelerates kallikrein activation of factor XII by lowering KM (from 52 to 7.3 microM) and raising kcat (from 2.6 to 31 min-1). For the autocatalytic activation reaction of factor XII in the presence of optimal Zn(II), apparent KM and kcat values of 2.4 microM and 0.041 min-1, respectively, were determined, but these parameters were not resolvable in the absence of the metal ion. Zinc ions minimally affected kallikrein enzymatic activity and inhibited factor XIIa enzymatic activity with KI values of 20-40 microM, suggesting that the rate-enhancing effects of the metal ion are due to interactions with the substrate (factor XII) rather than with the enzyme. The Zn(II) inhibition of factor XIIa enzymatic activity accounted for a decreased Zn(II) enhancement of factor XII autoactivation at high metal ion concentrations (> 110 microM). The Zn(II) concentration dependence of the acceleration of factor XII activation reactions were sigmoid and characterized by Hill coefficients of 3.3-4.3, suggesting that cooperative binding of at least four zinc ions to factor XII was responsible for the Zn(II) potentiating effect. The Zn(II) enhancement of the rates of factor XII activation decreased both above and below pH 7.4 with midpoint pH values of 6.5-7.0 and 8.0, consistent with histidine and possibly water ligands mediating Zn(II) binding to the protein. Despite an apparent weaker binding of Zn(II) to factor XII at pH 6.5, indistinguishable maximum accelerating effects of the metal ion were observed at saturation at this pH, indicating that the increased positive charge of factor XII resulting from protonation at the lower pH did not mimic the effect of Zn(II) binding. These results imply that zinc ions induce a conformational change in factor XII that makes it a better substrate for its enzyme activators.