The goal of this research is to evaluate the sequence of events from DNA damage to cytogenetic damage to cell death in mammalian cells grown in vitro in the presence of halogenated pyrimidines (HP) (mainly BrdUrd and IdUrd) at concentrations that are clinically achievable. The hypothesis is that HP sensitize cells to radiation damage by enhancing fixation of potentially lethal damage (PLD). This cellular fixation process will be related to fixation and misrepair of chromosome damage and to repair inhibition events at the DNA level. Studies will be carried out with transformed (CHO,TCL-15) and nontransformed (10T1/2) cell lines as in vitro models for tumor and normal tissue, respectively. At the cellular level, incorporation of HP into DNA will be correlated with relaxation of growth control mechanisms, and modification of the D0 and Dq of the radiation survival curve in growing vs. nongrowing cell as well as in cells irradiated in various phases of the cell cycle. The possibility that repair of PLD compromises radiosensitization induced by HP will be examined. Very little is known about IdUrd-induced radiosensitization at the endpoints examined here. A comparison will be made between BrdUrd and IdUrd mediated radiosensitization and the enhancement of killing caused by post-irradiation treatment with araA and caffeine. At the chromosome level, the induction of chromosome damage by radiation will be assayed by the Premature Chromosome Condensation (PCC) technique in plateau- phase or synchronized G1-phase cells grown in the presence of HP. A relationship will be established between the amount of thymidine replaced by HP and rate of repair of PCC fragments as well as amount of misrepair induced (rings and dicentrics). A similar relationship using chromosomal aberrations as classically measured at metaphase will be established in irradiated plateau-phase cells and cells synchronized and irradiated at various phases of the cell cycle. Repair at the chromosome level (PCC) will be compared to the repair of PLD observed under similar conditions and a correlation will be established between cell killing and chromosome damage. At the DNA level, DNA damage and repair (total breaks and double-strand breaks specifically) will be measured in exponentially growing cells, plateau-phase cells, and cells synchronized in G1-, S-, and G2+M-phase as a function of HP incorporation. A relationship will be established between amount of thymidine replaced by HP and induction and repair of DNA damage and residual damage.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA045557-03
Application #
3188665
Study Section
Radiation Study Section (RAD)
Project Start
1987-08-15
Project End
1992-07-31
Budget Start
1989-08-01
Budget End
1990-07-31
Support Year
3
Fiscal Year
1989
Total Cost
Indirect Cost
Name
Thomas Jefferson University
Department
Type
Schools of Medicine
DUNS #
061197161
City
Philadelphia
State
PA
Country
United States
Zip Code
19107
Wang, Y; Cheong, N; Iliakis, G (1993) Persistent inhibition of DNA synthesis in irradiated rat embryo fibroblasts expressing the oncogenes H-ras plus v-myc derives from inhibition of replicon initiation and is mitigated by staurosporine. Cancer Res 53:1213-7
Cheong, N; Wang, Y; Iliakis, G (1993) Radioresistance induced in rat embryo cells by transfection with the oncogenes H-ras plus v-myc is cell cycle dependent and maximal during S and G2. Int J Radiat Biol 63:623-9
Iliakis, G E; Pantelias, G E; Okayasu, R et al. (1992) Induction by H2O2 of DNA and interphase chromosome damage in plateau-phase Chinese hamster ovary cells. Radiat Res 131:192-203
Wang, Y; Iliakis, G (1992) Prolonged inhibition by X-rays of DNA synthesis in cells obtained by transformation of primary rat embryo fibroblasts with oncogenes H-ras and v-myc. Cancer Res 52:508-14
Iliakis, G; Wang, Y; Pantelias, G E et al. (1992) Mechanism of radiosensitization by halogenated pyrimidines: effect of BrdU on repair of DNA breaks, interphase chromatin breaks, and potentially lethal damage in plateau-phase CHO cells. Radiat Res 129:202-11
Iliakis, G; Mehta, R; Jackson, M (1992) Level of DNA double-strand break rejoining in Chinese hamster xrs-5 cells is dose-dependent: implications for the mechanism of radiosensitivity. Int J Radiat Biol 61:315-21
Okayasu, R; Iliakis, G (1992) The shape of DNA elution dose-response curves under non-denaturing conditions: the contribution of the degree of chromatin condensation. Int J Radiat Biol 61:455-63
Cheong, N; Wang, Y; Jackson, M et al. (1992) Radiation-sensitive irs mutants rejoin DNA double-strand breaks with efficiency similar to that of parental V79 cells but show altered response to radiation-induced G2 delay. Mutat Res 274:111-22
McKenna, W G; Iliakis, G; Weiss, M C et al. (1991) Increased G2 delay in radiation-resistant cells obtained by transformation of primary rat embryo cells with the oncogenes H-ras and v-myc. Radiat Res 125:283-7
Iliakis, G; Blocher, D; Metzger, L et al. (1991) Comparison of DNA double-strand break rejoining as measured by pulsed field gel electrophoresis, neutral sucrose gradient centrifugation and non-unwinding filter elution in irradiated plateau-phase CHO cells. Int J Radiat Biol 59:927-39

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