Redox- and anion-linked protonation sites in horseradish peroxidase: analysis of distal haem pocket mutants

Abstract

We have investigated the effects of mutations at residues His-42, Arg-38 and Phe-41 in the distal haem pocket of horseradish peroxidase on the changes in protonation state that accompany redox- and ligand-linked changes to the haem group. The mutations H42L and R38L result in the loss of a characteristic pH dependency in the visible spectrum of the ferrous form and a diminished dependency of the midpoint redox potential of the haem group on pH. The results support the view that His-42, with its pK probably modulated by Arg-38, provides the protonation site on the reduced enzyme that is responsible for these pH dependencies. The mutations H42L and R38L also have major effects on the binding of cyanide to the haem. We have already reported that binding of cyanide to the ferrous forms of these mutants becomes too weak to be measurable [Meunier, Rodriguez-Lopez, Smith, Thorneley and Rich (1995) Biochemistry 34, 14687-14692]. The pH dependency of the rate constants for binding of cyanide to the oxidized form of H42L suggests that CN- is the kinetically active species, in contrast with wild-type horseradish peroxidase, where HCN is the binding form. For the R38L variant, the pH dependency of cyanide binding suggests that the pK of His-42 in the absence of Arg-38 is raised to 7.5-8, in the oxidized form. In contrast with these changes, the mutant F41A exhibits cyanide-binding behaviour that is similar to that of the wild type, both in its oxidized and reduced forms. However, the rate constant for carbon monoxide recombination increases substantially, suggesting that the access route for carbon monoxide, but not for cyanide, is perturbed by this amino acid substitution.