Interaction between allopurinol and copper: Possible role in myocardial protection

Sara Malkiel, Ronit Har-el, Herzl Schwalb, Gideon Uretzky, Joseph B. Borman, Mordechai Chevion*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review


Allopurinol, a potent inhibitor of xanthine oxidase, is known to effectively protect the heart against damage in patients undergoing cardiac bypass surgery. There is still an ambiguity concerning the presence of xanthine oxidase in the human heart. Thus, the mechanism underlying the protective effect of allopurinol is unclear. Transition metal ions, such as iron and copper, can participate in single-electron reactions and mediate the formation of oxygen-derived free radicals. In this study the interaction between allopurinol and Cu(II) was investigated. Spectrophotometric investigation shows that allopurinol (0-0.8 mM) form a 1: 1 complex with Cu(II) ions (0-0.8 mM) with a specific absorbance peak at 364 nm. Also, the rate constant (k) for the copper-catalyzed aerobic oxidation of ascorbate was markedly decreased in the presence of allopurinol (from 0.068 min-1 to 0.014min-1). Allopurinol substantially reduced the copper-mediated and ascorbate-driven DNA breakage. Spectrophotometric measurements did not indicate a specific interaction between iron ions and allopurinol. It is suggested that the beneficial effects of allopurinol during reperfusion of the heart could stem from its chelation of copper, yielding a complex with low redox activity.

Original languageEnglish
Pages (from-to)7-15
Number of pages9
JournalFree Radical Research
Issue number1
StatePublished - 1993
Externally publishedYes


  • Allopurinol
  • Ascorbate
  • Chelation
  • Copper
  • DNA


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