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The Role of One‐Electron Reduction of Lipid Hydroperoxides in Causing DNA Damage
Authors:Conor Crean Dr.  Jie Shao  Byeong Hwa Yun  Nicholas E. Geacintov Prof. Dr.  Vladimir Shafirovich Prof. Dr.
Affiliation:Chemistry Department, 31 Washington Place, New York University, New York, NY 10003‐5180 (USA), Fax: (+1)?212‐998‐8421
Abstract:The in vivo metabolism of plasma lipids generates lipid hydroperoxides that, upon one‐electron reduction, give rise to a wide spectrum of genotoxic unsaturated aldehydes and epoxides. These metabolites react with cellular DNA to form a variety of pre‐mutagenic DNA lesions. The mechanisms of action of the radical precursors of these genotoxic electrophiles are poorly understood. In this work we investigated the nature of DNA products formed by a one‐electron reduction of (13S)‐hydroperoxy‐(9Z,11E)‐octadecadienoic acid (13S‐HPODE), a typical lipid molecule, and the reactions of the free radicals thus generated with neutral guanine radicals, G(?H).. A novel approach was devised to generate these intermediates in solution. The two‐photon‐induced ionization of 2‐aminopurine (2AP) within the 2′‐deoxyoligonucleotide 5′‐d(CC[2AP]TCGCTACC) by intense nanosecond 308 nm excimer laser pulses was employed to simultaneously generate hydrated electrons and radical cations 2AP.+. The latter radicals either in cationic or neutral forms, rapidly oxidize the nearby G base to form G(?H).. In deoxygenated buffer solutions (pH 7.5), the hydrated electrons rapidly reduce 13S‐HPODE and the highly unstable alkoxyl radicals formed undergo a prompt β‐scission to pentyl radicals that readily combine with G(?H).. Two novel guanine products in these oligonucleotides, 8‐pentyl‐ and N2‐pentylguanine, were identified. It is shown that the DNA secondary structure significantly affects the ratio of 8‐pentyl‐ and N2‐pentylguanine lesions that changes from 0.9:1 in single‐stranded, to 1:0.2 in double‐stranded oligonucleotides. The alkylation of guanine by alkyl radicals derived from lipid hydroperoxides might contribute to the genotoxic modification of cellular DNA under hypoxic conditions. Thus, further research is warranted on the detection of pentylguanine lesions and other alkylguanines in vivo.
Keywords:alkylation  DNA damage  free radical  lipid hydroperoxide  one‐electron reduction
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