Abstract

Repair of ionizing radiation induced damage in mammalian cell DNA is crucial to cell survival. Shoulders on mammalian cell radiation survival curves can be explained by invoking saturation of a repair process at higher doses. To probe this hypothesis, assays of damage are required which can be used at low radiation doses (within the shoulder) as well as high radiation doses. Such assays are proposed here which are effective down to 10 rads, these will be used to test for saturation of repair, measuring rates of repair of DNA single strand breaks, """"""""double strand breaks"""""""", and base damage as a function of radiation dose. To probe the significance of these three types of lesions in causing cell death or transformation, attempts will be made to inhibit the repair process and test the result of this inhibition on cell survival or transformation. Also procedures which have been shown to affect cell survival will be probed as to their effects on repair. It is hoped that the information gained from these studies of DNA damage and repair at low doses will be useful in (a) determining the cause of mammalian shouldered survival curves and (b) determining the DNA lesions causing cell death and transformation so that, with the knowledge of cell repair capacity, the hazards of low dose radiation can be extrapolated.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37CA026279-11
Application #
3482049
Study Section
Radiation Study Section (RAD)
Project Start
1979-07-01
Project End
1990-12-31
Budget Start
1990-01-01
Budget End
1990-12-31
Support Year
11
Fiscal Year
1990
Total Cost
Indirect Cost

  Institution

Name
University of California San Diego
Department
Type
Schools of Medicine
DUNS #
077758407
City
La Jolla
State
CA
Country
United States
Zip Code
92093

  Publications

Limoli, C L; Wu, C C; Milligan, J R et al. (1997) Photochemical production of uracil quantified in bromodeoxyuridine-substituted SV40 DNA by uracil DNA glycosylase and a lysyl-tyrosyl-lysine tripeptide. Mutagenesis 12:443-7
Limoli, C L; Ward, J F (1995) Photochemical production of double-strand breaks in cellular DNA. Mutagenesis 10:453-6
Jones, G D; Ward, J F; Limoli, C L et al. (1995) Mechanisms of radiosensitization in iododeoxyuridine-substituted cells. Int J Radiat Biol 67:647-53
Jones, G D; Boswell, T V; Ward, J F (1994) Effects of postirradiation temperature on the yields of radiation-induced single- and double-strand breakage in SV40 DNA. Radiat Res 138:291-6
Limoli, C L; Ward, J F (1994) Response of bromodeoxyuridine-substituted Chinese hamster cells to UVA light exposure in the presence of Hoechst dye #33258: survival and DNA repair studies. Radiat Res 138:312-9
Limoli, C L; Ward, J F (1994) DNA damage in bromodeoxyuridine substituted SV40 DNA and minichromosomes following UVA irradiation in the presence of Hoechst dye 33258. Int J Radiat Biol 66:717-28
Ward, J F (1994) DNA damage as the cause of ionizing radiation-induced gene activation. Radiat Res 138:S85-8
Brenner, D J; Ward, J F; Sachs, R K (1994) Track structure, chromosome geometry and chromosome aberrations. Basic Life Sci 63:93-109;discussion 109-13
Dewey, W C; Thompson, L L; Trinh, M L et al. (1994) A charge-coupled-device camera image analysis system for quantifying DNA distributions in agarose gels after pulsed-field gel electrophoresis. Radiat Res 140:37-47
Limoli, C L; Ward, J F (1993) A new method for introducing double-strand breaks into cellular DNA. Radiat Res 134:160-9

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