Our long-term goal is to provide a comprehensive picture of the spectrum of genetic damages produced in mammalian cells by ionizing radiation (as a model) at the low doses (<10 R) and dose rates relevant to most human exposures, and to develop quantitative methodologies to assess the impact of genetic damage on cancer and other human disease. The collaboration between the Eleanor Roosevelt Institute for Cancer Research (ERICR), Denver, and the Department of Radiology and Radiation Biology, Colo. State Univ. (CSU), Ft. Collins, has greatly facilitated our interrelated studies of the overall genetic effects of low-level exposure. The groups at ERICR and CSU have experience in analysis of mutation, and chromosome aberrations, respectively. The goal of this proposal is to measure gene and chromosome mutations, on the one hand, and chromosome aberrations, on the other, so as to illuminate relationships between them; to begin to define the role of DNA repair; to analyze mutation at the DNA level, and to develop theoretical models to relate them. Specifically we will: (1) employ the AL hamster hybrid cell method to quantify gene and chromosome mutation and cytogenetically examine AL mutants to correlate chromosome aberrations with mutation; (2) establish how varying the dose rate alters the frequency and kinds of mutants and aberrations produced; (3) Begin, by DNA restriction analysis, to investigate mechanisms of mutagenesis; (4) extend all these studies to new human-hamster hybrids that contain additional human chromosomes which will increase target size and permit assessment of translocation and nondisjunction using genetic and in situ fluorescence cytogenetics techniques; (5) carry out these studies on other hybrids defective in particular aspects of repair; and (6) continue to develop and experimentally test mathematical models relating dose response relationships of cell-killing, and mutation and especially translocations.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA036447-08
Application #
2089110
Study Section
Radiation Study Section (RAD)
Project Start
1984-09-01
Project End
1995-03-31
Budget Start
1993-04-01
Budget End
1995-03-31
Support Year
8
Fiscal Year
1993
Total Cost
Indirect Cost
Name
Colorado State University-Fort Collins
Department
Radiation-Diagnostic/Oncology
Type
Schools of Veterinary Medicine
DUNS #
112617480
City
Fort Collins
State
CO
Country
United States
Zip Code
80523
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Zhou, H; Suzuki, M; Randers-Pehrson, G et al. (2001) Radiation risk to low fluences of alpha particles may be greater than we thought. Proc Natl Acad Sci U S A 98:14410-5
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Gustafson, D L; Franz, H R; Ueno, A M et al. (2000) Vanillin (3-methoxy-4-hydroxybenzaldehyde) inhibits mutation induced by hydrogen peroxide, N-methyl-N-nitrosoguanidine and mitomycin C but not (137)Cs gamma-radiation at the CD59 locus in human-hamster hybrid A(L) cells. Mutagenesis 15:207-13
Wilson, A B; Seilly, D; Willers, C et al. (1999) Antigen S1, encoded by the MIC1 gene, is characterized as an epitope of human CD59, enabling measurement of mutagen-induced intragenic deletions in the AL cell system. Somat Cell Mol Genet 25:147-57
Wu, L J; Randers-Pehrson, G; Xu, A et al. (1999) Targeted cytoplasmic irradiation with alpha particles induces mutations in mammalian cells. Proc Natl Acad Sci U S A 96:4959-64
Waldren, C A; Ueno, A M; Schaeffer, B K et al. (1999) Mutant yields and mutational spectra of the heterocyclic amines MeIQ and PhIP at the S1 locus of human-hamster AL cells with activation by chick embryo liver (CELC) co-cultures. Mutat Res 425:29-46

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