John P. Davey scite author profile

1988

Cytochrome c oxidase was found to be competitively inhibited by a complex formed between Fe3+ and the cardiotoxic antitumour drug adriamycin (doxorubicin) with an inhibition constant, Ki, of 12 microM. This competitive inhibition precedes the slower Fe3+-adriamycin induced inactivation of cytochrome c oxidase. In strong contrast with this result, free adriamycin was not observed to either inhibit or inactivate cytochrome c oxidase (Ki greater than 3 mM). Since, typically, polycations are known to inhibit cytochrome c oxidase, the competitive inhibition displayed by the Fe3+-adriamycin complex may also result from its polycationic character. Cytochrome c oxidase was also inhibited by pentan-1-ol (Ki 13 mM), and kinetic studies carried out in the presence of both inhibitors demonstrated that the Fe3+-adriamycin complex and pentan-1-ol are mutually exclusive inhibitors of cytochrome c oxidase. The inhibitor pentan-1-ol was also effective in preventing the slow inactivation of cytochrome c oxidase induced by Fe3+-adriamycin, presumably by blocking its binding to the enzyme. It is postulated that the slow inactivation of cytochrome c oxidase occurs when reactive radical species are produced while the Fe3+-adriamycin is complexed to cytochrome c oxidase in an enzyme-inhibitor complex. The Fe3+-adriamycin-induced inactivation of cytochrome c oxidase may be, in part, responsible for the cardiotoxicity of adriamycin.

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The inhibition of a membrane-bound enzyme as a model for anaesthetic action and drug toxicity

1989

Biochimica et Biophysica Acta (BBA) - Bioenergetics

The inhibition of the membrane-bound enzyme cytochrome c oxidase by aliphatic n-alcohols and other neutral organic compounds was studied as a model for anaesthetic action and drug toxicity. The n-alcohols (C1 to C14) displayed a variation in inhibition constant of over 500,000-fold. The inhibition constants correlated well with the number of carbon atoms in the n-alcohols and also their n-octanol/water partition coefficients. General anaesthetic potency is known to be similarly well correlated with octanol/water partition coefficients. The free-energy change for transferring a methylene group of the n-alcohol to the more hydrophobic environment bound to the enzyme is similar to that for transferring a methylene group from water to pure alcohol. These results are consistent with the n-alcohols inhibiting by binding to an octanol-like environment on the enzyme or the protein/phospholipid interface. Neither negatively charged carboxylates nor positively charged amine analogues were observed to cause any inhibition, indicating that this postulated binding site may be uncharged. Inhibition of cytochrome c oxidase by n-alcohols was also demonstrated in both bovine heart and rat liver sonicated submitochondrial fragments.

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The kinetics of the aerobic oxidation of ferrocytochrome c by cytochrome c oxidase in solvents of increased viscosity are partially diffusion controlled

Hasinoff¹,

Davey²

1987

Adriamycin and its iron(III) and copper(II) complexes

Biochemical Pharmacology

1988

The association reaction of yeast alcohol dehydrogenase with coenzyme is partly diffusion-controlled in solvents of increased viscosity

Dreher

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

1987