Abstract

This project will assess the contribution that analysis of the frequency and molecular nature of mutation at the HPRT gene of lymphocytes can make to the detection of genetic damage and estimation of radiation dose in populations exposed to low doses. The relative responses to radiation, including the relative persistence of response, of overall mutant frequency, the frequency of deletions affecting the HPRT gene, and the molecular character of deletions will be determined. Populations studied will be Chernobyl liquidators and Russian controls, numbering 300 each. The spectrum of deletion mutations of the HPRT gene will be defined in terms of frequency of intragenic, terminal and total gene deletions, and the extent of deletions beyond the HPRT gene. Deletions will be defined by analysis of genomic DnA of mutant lymphocyte clones, by polymerase chain reaction analysis for retention of sequences of known physical position. Sources of inter-individual variation from factors such as age, smoking, and other personal variables will be assessed, to increase the sensitivity of detection of radiation exposure. These studies will test the hypothesis that the HPRT deletion mutation spectrum provides greater specificity and sensitivity of response to radiation exposure than HPRT mutant frequency alone. Together with the biodosimetry data acquired by the other projects of this Program, these results will advance efforts to assess human risks for somatic mutation following exposure to low doses of radiation.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program Projects (P01)
Project #
5P01CA059431-07
Application #
6102918
Study Section
Project Start
1998-08-01
Project End
1999-07-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
7
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
Lawrence Livermore National Laboratory
Department
Type
DUNS #
827171463
City
Livermore
State
CA
Country
United States
Zip Code
94550

  Publications

Sigurdson, Alice J; Ha, Mina; Hauptmann, Michael et al. (2008) International study of factors affecting human chromosome translocations. Mutat Res 652:112-21
Noori, Peri; Hou, Saimei; Jones, Irene M et al. (2005) A comparison of somatic mutational spectra in healthy study populations from Russia, Sweden and USA. Carcinogenesis 26:1138-51
Jones, I M; Thomas, C B; Xi, T et al. (2005) The genetic basis for variation in radiation sensitivity in the general population. Radiat Res 163:700-1
Tucker, James D; Cofield, Jackie; Matsumoto, Kyomu et al. (2005) Persistence of chromosome aberrations following acute radiation: I, PAINT translocations, dicentrics, rings, fragments, and insertions. Environ Mol Mutagen 45:229-48
Tucker, James D; Cofield, Jackie; Matsumoto, Kyomu et al. (2005) Persistence of chromosome aberrations following acute radiation: II, does it matter how translocations are scored? Environ Mol Mutagen 45:249-57
Tucker, James D (2002) Sensitivity, specificity, and persistence of chromosome translocations for radiation biodosimetry. Mil Med 167:8-9
Gardner, Shea N; Tucker, James D (2002) The cellular lethality of radiation-induced chromosome translocations in human lymphocytes. Radiat Res 157:539-52
Thomas, Cynthia B; Nelson, David O; Pleshanov, Pavel et al. (2002) Induction and decline of HPRT mutants and deletions following a low dose radiation exposure at Chernobyl. Mutat Res 499:177-87
Jones, Irene M; Galick, Heather; Kato, Paula et al. (2002) Three somatic genetic biomarkers and covariates in radiation-exposed Russian cleanup workers of the chernobyl nuclear reactor 6-13 years after exposure. Radiat Res 158:424-42
Jones, I M; Tucker, J D; Langlois, R G et al. (2001) Evaluation of three somatic genetic biomarkers as indicators of low dose radiation effects in clean-up workers of the Chernobyl nuclear reactor accident. Radiat Prot Dosimetry 97:61-7

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