Literature DB >> 22242833

Nucleotide excision repair efficiencies of bulky carcinogen-DNA adducts are governed by a balance between stabilizing and destabilizing interactions.

Yuqin Cai1, Nicholas E Geacintov, Suse Broyde.   

Abstract

The nucleotide excision repair (NER) machinery, the primary defense against cancer-causing bulky DNA lesions, is surprisingly inefficient in recognizing certain mutagenic DNA adducts and other forms of DNA damage. However, the biochemical basis of resistance to repair remains poorly understood. To address this problem, we have investigated a series of intercalated DNA-adenine lesions derived from carcinogenic polycyclic aromatic hydrocarbon (PAH) diol epoxide metabolites that differ in their response to the mammalian NER apparatus. These stereoisomeric PAH-derived adenine lesions represent ideal model systems for elucidating the effects of structural, dynamic, and thermodynamic properties that determine the recognition of these bulky DNA lesions by NER factors. The objective of this work was to gain a systematic understanding of the relation between aromatic ring topology and adduct stereochemistry with existing experimental NER efficiencies and known thermodynamic stabilities of the damaged DNA duplexes. For this purpose, we performed 100 ns molecular dynamics studies of the lesions embedded in identical double-stranded 11-mer sequences. Our studies show that, depending on topology and stereochemistry, stabilizing PAH-DNA base van der Waals stacking interactions can compensate for destabilizing distortions caused by these lesions that can, in turn, cause resistance to NER. The results suggest that the balance between helix stabilizing and destabilizing interactions between the adduct and nearby DNA residues can account for the variability of NER efficiencies observed in this class of PAH-DNA lesions.

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Year:  2012        PMID: 22242833      PMCID: PMC3292408          DOI: 10.1021/bi201794x

Source DB:  PubMed          Journal:  Biochemistry        ISSN: 0006-2960            Impact factor:   3.162


  83 in total

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6.  NMR evidence for syn-anti interconversion of a trans opened (10R)-dA adduct of benzo[a]pyrene (7S,8R)-diol (9R,10S)-epoxide in a DNA duplex.

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7.  Differential incision of bulky carcinogen-DNA adducts by the UvrABC nuclease: comparison of incision rates and the interactions of Uvr subunits with lesions of different structures.

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9.  The sequence dependence of human nucleotide excision repair efficiencies of benzo[a]pyrene-derived DNA lesions: insights into the structural factors that favor dual incisions.

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  24 in total

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3.  Role of structural and energetic factors in regulating repair of a bulky DNA lesion with different opposite partner bases.

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4.  Enhanced spontaneous DNA twisting/bending fluctuations unveiled by fluorescence lifetime distributions promote mismatch recognition by the Rad4 nucleotide excision repair complex.

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5.  Ribonucleotides as nucleotide excision repair substrates.

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6.  Nuclear magnetic resonance solution structure of an N(2)-guanine DNA adduct derived from the potent tumorigen dibenzo[a,l]pyrene: intercalation from the minor groove with ruptured Watson-Crick base pairing.

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7.  Free energy profiles of base flipping in intercalative polycyclic aromatic hydrocarbon-damaged DNA duplexes: energetic and structural relationships to nucleotide excision repair susceptibility.

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8.  Adenine-DNA adducts derived from the highly tumorigenic Dibenzo[a,l]pyrene are resistant to nucleotide excision repair while guanine adducts are not.

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Review 9.  Impact of DNA lesion repair, replication and formation on the mutational spectra of environmental carcinogens: Aflatoxin B1 as a case study.

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10.  Base damage, local sequence context and TP53 mutation hotspots: a molecular dynamics study of benzo[a]pyrene induced DNA distortion and mutability.

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