Hye-Young H. Kim scite author profile

Hye-Young H. Kim

2Publications

104Citation Statements Received

132Citation Statements Given

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State University of New York, University of Pennsylvania, Stony Brook University

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Quantification of benzo[a]pyrene diol epoxide DNA‐adducts by stable isotope dilution liquid chromatography/tandem mass spectrometry

Ruan

Kim

Jiang

et al. 2006

Rapid Comm Mass Spectrometry

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Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous environmental pollutants found in car exhausts, charbroiled food, and tobacco smoke. Three pathways for the metabolic activation of B[a]P to ultimate carcinogens have been proposed. The most widely accepted pathway involves cytochrome-P450 (CYP) 1A1- and/or 1B1-mediated formation of B[a]P-7,8-oxide, which undergoes epoxide hydrolase-mediated metabolism to the proximate carcinogen B[a]P-7,8-dihydro-7,8-diol. Further CYP1A1- and/or CYP1B1-mediated activation of the dihydrodiol results in the formation of 7,8-dihydroxy-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (B[a]PDE), the ultimate carcinogen. In previous studies, it was demonstrated that (+)-anti-B[a]PDE was the most potent tumorigen of the CYP-derived B[a]PDE diastereomers. We have developed a stable isotope dilution, liquid chromatography multiple reaction monitoring/mass spectrometry (LC-MRM/MS) assay for all eight (+/-)-anti-B[a]PDE-derived dGuo and dAdo DNA-adducts. The LC-MRM/MS assay was rigorously validated and used to show that (+)-anti-trans-B[a]PDE-dGuo was the major adduct formed when naked DNA and human bronchoalveolar adenocarcinoma H358 cells were treated with (+/-)-anti-B[a]PDE. The preference for DNA-adducts derived from (+)-anti-B[a]PDE was even more apparent in cellular DNA. Thus, the increased potency of (+)-anti-B[a]PDE as a tumorigen is most likely due its ability to preferentially form DNA-adducts when compared with (-)-anti-B[a]PDE. Also, the adduct profile suggests that this occurs by binding of (+)-anti-B[a]PDE to DNA in a manner that facilitates covalent binding to dGuo rather than dAdo residues.

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Translesion DNA Synthesis across the Heptanone−Etheno-2‘-Deoxycytidine Adduct in Cells

Pollack

Yang

Kim

et al. 2006

Chem. Res. Toxicol.

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4-Oxo-2(E)-nonenal, a lipid peroxidation-derived product, reacts with dG, dA, and dC in DNA to form heptanone (H)-etheno (epsilon) adducts. Among the three adducts, H-epsilondC is formed in the greatest abundance in in vitro reactions, and it has been detected in the C57BL/6JAPC(min) mouse model of colorectal cancer. To establish the genotoxic properties of this adduct, a site-specifically modified oligonucleotide was synthesized and incorporated into a shuttle vector. The modified vector was replicated in Escherichia coli and human cells. Analysis of the progeny plasmid has revealed that H-epsilondC strongly blocks DNA synthesis and markedly miscodes in both hosts. The miscoding frequency was 40-50% in bacteria and more than 90% in three human cell lines (xeroderma pigmentosum A and variant cells, and DNA repair wild-type cells). There was a drastic difference in coding events in these two hosts: dG and dC were almost exclusively inserted opposite the lesion in E. coli, while dA and dT were the preferential choices in human cells. These results indicate that this endogenous DNA adduct is very genotoxic to both organisms.

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Hye-Young H. Kim

Quantification of benzo[a]pyrene diol epoxide DNA‐adducts by stable isotope dilution liquid chromatography/tandem mass spectrometry

Translesion DNA Synthesis across the Heptanone−Etheno-2‘-Deoxycytidine Adduct in Cells

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