Literature DB >> 15494449

Processing of bistranded abasic DNA clusters in gamma-irradiated human hematopoietic cells.

Alexandros G Georgakilas1, Paula V Bennett, David M Wilson, Betsy M Sutherland.   

Abstract

Clustered DNA damages--two or more lesions on opposing strands and within one or two helical turns--are formed in cells by ionizing radiation or radiomimetic antitumor drugs. They are hypothesized to be difficult to repair, and thus are critical biological damages. Since individual abasic sites can be cytotoxic or mutagenic, abasic DNA clusters are likely to have significant cellular impact. Using a novel approach for distinguishing abasic clusters that are very closely spaced (putrescine cleavage) or less closely spaced (Nfo protein cleavage), we measured induction and processing of abasic clusters in 28SC human monocytes that were exposed to ionizing radiation. gamma-rays induced approximately 1 double-strand break: 1.3 putrescine-detected abasic clusters: 0.8 Nfo-detected abasic clusters. After irradiation, the 28SC cells rejoined double-strand breaks efficiently within 24 h. In contrast, in these cells, the levels of abasic clusters decreased very slowly over 14 days to background levels. In vitro repair experiments that used 28SC cell extracts further support the idea of slow processing of specific, closely spaced abasic clusters. Although some clusters were removed by active cellular repair, a substantial number was apparently decreased by 'splitting' during DNA replication and subsequent cell division. The existence of abasic clusters in 28SC monocytes, several days after irradiation suggests that they constitute persistent damages that could lead to mutation or cell killing.

Entities:  

Keywords:  NASA Discipline Radiation Health; Non-NASA Center

Mesh:

Substances:

Year:  2004        PMID: 15494449      PMCID: PMC524283          DOI: 10.1093/nar/gkh871

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  45 in total

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Review 4.  Initiation of base excision repair: glycosylase mechanisms and structures.

Authors:  A K McCullough; M L Dodson; R S Lloyd
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Review 5.  Quantifying DNA damage by gel electrophoresis, electronic imaging and number-average length analysis.

Authors:  J C Sutherland; D C Monteleone; J G Trunk; P V Bennett; B M Sutherland
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Review 6.  Quantifying clustered DNA damage induction and repair by gel electrophoresis, electronic imaging and number average length analysis.

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10.  Human cell transfection with skin cancer DNAs.

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  53 in total

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Review 2.  Clustered DNA lesion repair in eukaryotes: relevance to mutagenesis and cell survival.

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Authors:  Paula V Bennett; Noelle L Cuomo; Sunirmal Paul; Stefan T Tafrov; Betsy M Sutherland
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4.  Non-problematic risks from low-dose radiation-induced DNA damage clusters.

Authors:  Daniel P Hayes
Journal:  Dose Response       Date:  2008-01-16       Impact factor: 2.658

Review 5.  Assessing cancer risks of low-dose radiation.

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6.  Base excision repair of reactive oxygen species-initiated 7,8-dihydro-8-oxo-2'-deoxyguanosine inhibits the cytotoxicity of platinum anticancer drugs.

Authors:  Thomas J Preston; Jeffrey T Henderson; Gordon P McCallum; Peter G Wells
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7.  Processing of abasic DNA clusters in hApeI-silenced primary fibroblasts exposed to low doses of X-irradiation.

Authors:  Prolay Das; Betsy M Sutherland
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8.  Quantitation of Apurinic/Apyrimidinic Sites in Isolated DNA and in Mammalian Tissue with a Reduced Level of Artifacts.

Authors:  Haoqing Chen; Lihua Yao; Christina Brown; Carmelo J Rizzo; Robert J Turesky
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9.  Identification and biological evaluation of a novel and potent small molecule radiation sensitizer via an unbiased screen of a chemical library.

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10.  NMR solution structures of bistranded abasic site lesions in DNA.

Authors:  Raphael D Hazel; Kegui Tian; Carlos de Los Santos
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