TY - JOUR
T1 - Adenine-DNA adduct derived from the nitroreduction of 6-nitrochrysene is more resistant to nucleotide excision repair than guanine-DNA adducts
AU - Krzeminski, Jacek
AU - Kropachev, Konstantin
AU - Reeves, Dara
AU - Kolbanovskiy, Aleksandr
AU - Kolbanovskiy, Marina
AU - Chen, Kun-Ming
AU - Sharma, Arun
AU - Geacintov, Nicholas
AU - Amin, Shantu
AU - El-Bayoumy, Karam
PY - 2013/11/18
Y1 - 2013/11/18
N2 - Previous studies in rats, mice, and in vitro systems showed that 6-NC can be metabolically activated by two major pathways: (1) the formation of N-hydroxy-6-aminochrysene by nitroreduction to yield three major adducts, N-(dG-8-yl)-6-AC, 5-(dG-N2-yl)-6-AC, and N-(dA-8-yl)-6-AC, and (2) the formation of trans-1,2-dihydroxy-1,2-dihydro-6-hydroxylaminochrysene (1,2-DHD-6-NHOH-C) by a combination of nitroreduction and ring oxidation pathways to yield N-(dG-8-yl)-1,2-DHD-6-AC, 5-(dG-N2-yl)-1,2-DHD-6-AC and N-(dA-8-yl)-1,2-DHD-6-AC. These DNA lesions are likely to cause mutations if they are not removed by cellular defense mechanisms before DNA replication occurs. Here, we compared for the first time, in HeLa cell extracts in vitro, the relative nucleotide excision repair (NER) efficiencies of DNA lesions derived from simple nitroreduction and from a combination of nitroreduction and ring oxidation pathways. We show that the N-(dG-8-yl)-1,2-DHD-6-AC adduct is more resistant to NER than the N-(dG-8-yl)-6-AC adduct by a factor of ∼2. Furthermore, the N-(dA-8-yl)-6-AC is much more resistant to repair since its NER efficiency is ∼8-fold lower than that of the N-(dG-8-yl)-6-AC adduct. On the basis of our previous study and the present investigation, lesions derived from 6-NC and benzo[a]pyrene can be ranked from the most to the least resistant lesion as follows: N-(dA-8-yl)-6-AC > N-(dG-8-yl)-1,2-DHD-6-AC > 5-(dG-N2-yl)-6-AC ≃ N-(dG-8-yl)-6-AC ≃ (+)-7R,8S,9S,10S- benzo[a]pyrene diol epoxide-derived trans-anti-benzo[a]pyrene-N2-dG adduct. The slow repair of the various lesions derived from 6-NC and thus their potential persistence in mammalian tissue could in part account for the powerful carcinogenicity of 6-NC as compared to B[a]P in the rat mammary gland.
AB - Previous studies in rats, mice, and in vitro systems showed that 6-NC can be metabolically activated by two major pathways: (1) the formation of N-hydroxy-6-aminochrysene by nitroreduction to yield three major adducts, N-(dG-8-yl)-6-AC, 5-(dG-N2-yl)-6-AC, and N-(dA-8-yl)-6-AC, and (2) the formation of trans-1,2-dihydroxy-1,2-dihydro-6-hydroxylaminochrysene (1,2-DHD-6-NHOH-C) by a combination of nitroreduction and ring oxidation pathways to yield N-(dG-8-yl)-1,2-DHD-6-AC, 5-(dG-N2-yl)-1,2-DHD-6-AC and N-(dA-8-yl)-1,2-DHD-6-AC. These DNA lesions are likely to cause mutations if they are not removed by cellular defense mechanisms before DNA replication occurs. Here, we compared for the first time, in HeLa cell extracts in vitro, the relative nucleotide excision repair (NER) efficiencies of DNA lesions derived from simple nitroreduction and from a combination of nitroreduction and ring oxidation pathways. We show that the N-(dG-8-yl)-1,2-DHD-6-AC adduct is more resistant to NER than the N-(dG-8-yl)-6-AC adduct by a factor of ∼2. Furthermore, the N-(dA-8-yl)-6-AC is much more resistant to repair since its NER efficiency is ∼8-fold lower than that of the N-(dG-8-yl)-6-AC adduct. On the basis of our previous study and the present investigation, lesions derived from 6-NC and benzo[a]pyrene can be ranked from the most to the least resistant lesion as follows: N-(dA-8-yl)-6-AC > N-(dG-8-yl)-1,2-DHD-6-AC > 5-(dG-N2-yl)-6-AC ≃ N-(dG-8-yl)-6-AC ≃ (+)-7R,8S,9S,10S- benzo[a]pyrene diol epoxide-derived trans-anti-benzo[a]pyrene-N2-dG adduct. The slow repair of the various lesions derived from 6-NC and thus their potential persistence in mammalian tissue could in part account for the powerful carcinogenicity of 6-NC as compared to B[a]P in the rat mammary gland.
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U2 - 10.1021/tx400296x
DO - 10.1021/tx400296x
M3 - Article
C2 - 24112095
AN - SCOPUS:84888048011
SN - 0893-228X
VL - 26
SP - 1746
EP - 1754
JO - Chemical research in toxicology
JF - Chemical research in toxicology
IS - 11
ER -