Pseudoperoxidase from Leishmania major (LmPP) catalyzes the breakdown of peroxynitrite though it can hardly react with H(2)O(2). Our modeling structure predicts that a conserved His to Val switch near the distal heme pocket of LmPP may determine the profile of its H(2)O(2) activity. To test this hypothesis, we have generated complementary mutations in the LmPP (V90H) and studied the formation of Compounds I and II. The rate of transition from high spin ferric state of V90H to Compound I by H(2)O(2) is increased by approximately three orders relative to wild-type LmPP, which is consistent with electron donor oxidation data where the V90H mutant enzyme is ~30 fold more active than wild type. Thus, our data indicate that a lower rate for heterolytic cleavage of the OO bond of H(2)O(2) in wild type LmPP is caused by the His/Val switch in heme distal site. In the catalysis of peroxynitrite scavenging, V90H LmPP has lower catalytic activity compared to the wild type enzyme. In contrast to peroxynitrite scavenging, the second order rate constant of peroxynitrite binding step in mutant enzyme does not change significantly compared to the wild-type. Spectral data suggest that the distal Val90 residue in LmPP prevents the ferryl species formation in the presence of peroxynitrite. The lower peroxynitrite scavenging activity of the mutant reflects increased peroxidase activity rather than isomerase activity.
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