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Biochemical Pharmacology 2001-Dec

Iron complexes of deferiprone and dietary plant catechols as cytoprotective superoxide radical scavengers(1).

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M Y Moridani
P J O'Brien

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Abstrait

Superoxide radicals have been implicated in the pathogenesis of aging, cataract, ischemia-reperfusion, cancer and inflammatory diseases. In the present work, we found that deferiprone (L1), an iron-chelating drug, and dietary dihydroxycinnamic acids (catechols) were much more effective at protecting isolated rat hepatocytes against hypoxia-reoxygenation injury if complexed with Fe(3+). Furthermore, the 2:1 catechol-metal complexes with Cu(2+), Fe(2+), and Fe(3+) were also more effective than uncomplexed catechols in scavenging superoxide radicals generated enzymically (xanthine oxidase/hypoxanthine). The 2:1 deferiprone:Fe(3+) complex was less effective at scavenging enzymically generated superoxide radicals even though it was effective at preventing hepatocyte hypoxia-reoxygenation injury. On the other hand, the 1:1 deferoxamine:Fe(3+) complex, another iron-chelating drug, did not prevent hepatocyte hypoxia-reoxygenation injury and did not scavenge enzymically generated superoxide radicals. Furthermore, hepatocytes readily reduced the 2:1 deferiprone:Fe(3+) complex but not the deferoxamine:Fe(3+) complex. These results suggest that the initial step in superoxide radical scavenging (SRS) activity is the formation of a redox complex between Fe(3+) and deferiprone or catechols. The [deferiprone:Fe(3+)] complex was more cytoprotective than would be expected from its SRS activity. This suggests that [deferiprone:Fe(3+)] complex is reduced by a ferrireductase present on the hepatocyte membrane to form [deferiprone:Fe(2+)] complex, which then scavenges superoxide radicals. Therefore, the clinically used deferiprone (L1) may have therapeutic advantages over deferoxamine in having a double role therapeutically: (a) it chelates iron to alleviate iron overload pathology, and (b) the readily formed iron complex protects hepatocytes from superoxide radical-mediated hypoxia-reoxygenation injury.

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