Zinc ions inhibit oxidation of cytochrome c oxidase by oxygen

Abstract

Cytochrome c oxidase is a membrane‐bound enzyme that catalyses the reduction of O₂ to H₂O and uses part of the energy released in this reaction to pump protons across the membrane. We have investigated the effect of addition of Zn²⁺ on the kinetics of two reaction steps in cytochrome c oxidase that are associated with proton pumping; the peroxy to oxo‐ferryl (P_r→F) and the oxo‐ferryl to oxidised (F→O) transitions. The Zn²⁺ binding resulted in a decrease of the F→O rate from 820 s⁻¹ (no Zn²⁺) to a saturating value of ∼360 s⁻¹ with an apparent K _D of ∼2.6 μM. The P_r→F rate (∼10⁴ s⁻¹ before addition of Zn²⁺) decreased more slowly with increasing Zn²⁺ concentration and a K _D of ∼120 μM was observed. The effects on both kinetic phases were fully reversible upon addition of EDTA. Since both the P_r→F and F→O transitions are associated with proton uptake through the D‐pathway, a Zn²⁺‐binding site is likely to be located at the entry point of this pathway, where several carboxylates and histidine residues are found that may co‐ordinate Zn²⁺.