Synthesis and Mutagenesis of the Butadiene-Derived N3 2‘-Deoxyuridine Adducts

Synthesis and Mutagenesis of the Butadiene-Derived N3 2‘-Deoxyuridine Adducts

1,3-Butadiene is a known carcinogen and mutagen that acts through a variety of metabolic intermediates that react with DNA, forming stable and unstable lesions on dG, dA, dC, and dT. The N3 2‘-deoxyuridine adducts are a highly stable, stereoisomeric mixture of adducts derived from the reaction of cy...

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Bibliographic Details
Published in:Chemical research in toxicology Vol. 19; no. 7; pp. 968 - 976
Main Authors: Fernandes, Priscilla H, Hackfeld, Linda C, Kozekov, Ivan D, Hodge, Richard P, Lloyd, R. Stephen
Format: Journal Article
Language:English
Published: United States American Chemical Society 01-07-2006
Subjects:
Base Sequence
Butadienes - chemical synthesis
Butadienes - chemistry
Carcinogens - chemical synthesis
Carcinogens - chemistry
Deoxyuridine - analogs & derivatives
Deoxyuridine - chemical synthesis
Deoxyuridine - chemistry
DNA Adducts - chemical synthesis
DNA Adducts - chemistry
DNA Replication
Escherichia coli
Molecular Sequence Data
Molecular Structure
Mutagens - chemistry
Oligonucleotides - chemical synthesis
Oligonucleotides - chemistry
Organophosphorus Compounds - chemistry
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Summary:1,3-Butadiene is a known carcinogen and mutagen that acts through a variety of metabolic intermediates that react with DNA, forming stable and unstable lesions on dG, dA, dC, and dT. The N3 2‘-deoxyuridine adducts are a highly stable, stereoisomeric mixture of adducts derived from the reaction of cytosine with the monoepoxide metabolite of butadiene, followed by spontaneous deamination. In this study, the phosphoramidites and subsequent oligodeoxynucleotides containing the N3 2‘-deoxyuridine adducts have been constructed and characterized. Using a single-stranded shuttle vector DNA, the mutagenic potential of these adducts has been tested following replication in mammalian cells. Replication past the N3 2‘-deoxyuridine adducts was found to be highly mutagenic with an overall mutation yield of ∼97%. The major mutations that were observed were C to T transitions and C to A transversions. In vitro, these adducts posed a complete block to both the Klenow fragment of Escherichia coli polymerase I and polymerase ε, while these lesions significantly blocked polymerase δ. These data suggested a possible involvement of bypass polymerases in the in vivo replication of these lesions. Overall, these findings indicate that the N3 2‘-deoxyuridine adducts are highly mutagenic lesions that may contribute to butadiene-mediated carcinogenesis.
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To whom correspondence should be addressed: 3181 SW Sam Jackson Park Rd, Portland, Oregon 97239, Tel: 503-494-9957; Fax. 503-494-6831, Email: lloydst@ohsu.edu
ISSN:0893-228X
1520-5010
DOI:10.1021/tx060016o