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Free Radical Research Volume 47, 2013 - Issue 6-7
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Research Article

Inhibition of radical-induced DNA strand breaks by water-soluble constituents of coffee: phenolics and caffeine metabolites

M. A. RathodSchool of Chemical Sciences, Faculty of Science, The University of Auckland, Auckland, New Zealand
,
D. PatelSchool of Chemical Sciences, Faculty of Science, The University of Auckland, Auckland, New Zealand
,
A. DasSchool of Chemical Sciences, Faculty of Science, The University of Auckland, Auckland, New Zealand
,
S. R. TipparajuAuckland Cancer Society Research Centre, Faculty of Medical and Health Sciences, The University of Auckland, Auckland, New Zealand
,
S. S. ShindeAuckland Cancer Society Research Centre, Faculty of Medical and Health Sciences, The University of Auckland, Auckland, New Zealand
&
R. F. AndersonSchool of Chemical Sciences, Faculty of Science, The University of Auckland, Auckland, New Zealand;Auckland Cancer Society Research Centre, Faculty of Medical and Health Sciences, The University of Auckland, Auckland, New ZealandCorrespondence[email protected]
Pages 480-487 | Received 23 Feb 2013, Accepted 18 Mar 2013, Published online: 24 Apr 2013
 
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Abstract

Epidemiological studies have associated coffee consumption with an inverse risk of developing Parkinson's disease, hepatocellular carcinoma and cirrhosis. The molecular mechanisms by which low concentrations of the constituents of coffee measured in human plasma can reduce the incidence of such diseases are not clear. Using an in vitro plasmid DNA system and radiolytically generated reactive oxygen species under constant radical scavenging conditions, we have shown that coffee chlorogenic acid, its derivatives and certain metabolites of caffeine reduce some of the free radical damage sustained to the DNA. A reduction in the amount of prompt DNA single-strand breaks (SSBs) was observed for all compounds whose radical one-electron reduction potential is < 1.0 V. However, except for chlorogenic acid, the compounds were found to be inactive in reducing the amount of radical damage to the DNA bases. These results support a limited antioxidant role for such compounds in their interaction with DNA radicals.

Supplementary material available online

Supplementary Table I.

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