Interstrand DNA Cross-Links Induced by α,β-Unsaturated Aldehydes Derived from Lipid Peroxidation and Environmental Sources (original) (raw)

ArticleMay 24, 2008

Interstrand DNA Cross-Links Induced by α,β-Unsaturated Aldehydes Derived from Lipid Peroxidation and Environmental Sources

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• *†
• [Young-Jin Cho](/action/doSearch?field1=Contrib&text1=Young-Jin Cho)†
• [Hai Huang](/action/doSearch?field1=Contrib&text1=Hai Huang)†
• [Hye-Young Kim](/action/doSearch?field1=Contrib&text1=Hye-Young Kim)†
• [Ivan D. Kozekov](/action/doSearch?field1=Contrib&text1=Ivan D. Kozekov)†
• [Albena Kozekova](/action/doSearch?field1=Contrib&text1=Albena Kozekova)†
• [Hao Wang](/action/doSearch?field1=Contrib&text1=Hao Wang)†
• [Irina G. Minko](/action/doSearch?field1=Contrib&text1=Irina G. Minko)‡
• [R. Stephen Lloyd](/action/doSearch?field1=Contrib&text1=R. Stephen Lloyd)‡
• [Thomas M. Harris](/action/doSearch?field1=Contrib&text1=Thomas M. Harris)†
• [Carmelo J. Rizzo](/action/doSearch?field1=Contrib&text1=Carmelo J. Rizzo)*†

Accounts of Chemical Research

Cite this: Acc. Chem. Res. 2008, 41, 7

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Copyright © 2008 American Chemical Society

Abstract

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Significant levels of the 1,_N_2-γ-hydroxypropano-dG adducts of the α,β-unsaturated aldehydes acrolein, crotonaldehyde, and 4-hydroxy-2E-nonenal (HNE) have been identified in human DNA, arising from both exogenous and endogenous exposures. They yield interstrand DNA cross-links between guanines in the neighboring C·G and G·C base pairs located in 5′-CpG-3′ sequences, as a result of opening of the 1,_N_2-γ-hydroxypropano-dG adducts to form reactive aldehydes that are positioned within the minor groove of duplex DNA. Using a combination of chemical, spectroscopic, and computational methods, we have elucidated the chemistry of cross-link formation in duplex DNA. NMR spectroscopy revealed that, at equilibrium, the acrolein and crotonaldehyde cross-links consist primarily of interstrand carbinolamine linkages between the exocyclic amines of the two guanines located in the neighboring C·G and G·C base pairs located in 5′-CpG-3′ sequences, that maintain the Watson−Crick hydrogen bonding of the cross-linked base pairs. The ability of crotonaldehyde and HNE to form interstrand cross-links depends upon their common relative stereochemistry at the C6 position of the 1,_N_2-γ-hydroxypropano-dG adduct. The stereochemistry at this center modulates the orientation of the reactive aldehyde within the minor groove of the double-stranded DNA, either facilitating or hindering the cross-linking reactions; it also affects the stabilities of the resulting diastereoisomeric cross-links. The presence of these cross-links in vivo is anticipated to interfere with DNA replication and transcription, thereby contributing to the etiology of human disease. Reduced derivatives of these cross-links are useful tools for studying their biological processing.

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Copyright © 2008 American Chemical Society

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