This project is designed to elucidate the molecular mechanisms of radiation-induced damage and repair as modified by exogenous thiols.
The specific aims i nvolve two interrelated areas: radioprotection and thiol toxicity. The radioprotection research will investigate (1) the importance of thiol and oxygen concentrations in determining the degree of radioprotection by thiols, thus testing the degree of applicability of the damage repair-fixation competition model and relate models to radioprotection; (2) the generality of mechanisms of radioprotection in thiols with varying chemicals and biochemical reactivities with 02, OH, organic radicals, H202, metals, etc.; (3) the relationship between radiation-induced cell killing and production of DNA damage, especially double strand breaks, and modification of that relationship by thiols; and (4) the involvement of thiols in enzymatic repair processes in irradiated cells. The toxicity studies will establish conditions for control of thiol-generated peroxide in order that the thiols are used properly in the radioprotection experiments or as a means to generate reactive oxygen species. The research has health-related implications because of its potential application to protection in cancer radiotherapy or radioprotection from nuclear disaster. Furthermore, the thiol studies are relevant to the current interest in oxygen radicals as damaging agents in chemotherapy, carcinogenesis, aging and arthritis. Radioprotection and toxicity will be studied using both cell survival and DNA damage assays. Cell survival will be measured using classical clongenic assays in rodent and human tumor cell lines. DNA damage measurements will be made using elution techniques. Cells for both survival and DNA studies will be irradiated using suspension and thin-layer techniques. The repair studies include measurements of DNA repair, potentially lethal damage repair, sublethal damage repair, and use of repair-deficient mammalian cells. The thiols to be used are dithiothreitol, glutathione, and cysteamine and its derivatives, including WR-1065. All studies will be designed to control for oxygen level and metal- catalyzed thiol oxidation, and resulting peroxide formation.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA042167-08
Application #
3183079
Study Section
Radiation Study Section (RAD)
Project Start
1985-09-30
Project End
1994-05-31
Budget Start
1992-06-01
Budget End
1994-05-31
Support Year
8
Fiscal Year
1992
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
02199
Held, K D; Sylvester, F C; Hopcia, K L et al. (1996) Role of Fenton chemistry in thiol-induced toxicity and apoptosis. Radiat Res 145:542-53
Hopcia, K L; McCarey, Y L; Sylvester, F C et al. (1996) Radiation-induced apoptosis in HL60 cells: oxygen effect, relationship between apoptosis and loss of clonogenicity, and dependence of time to apoptosis on radiation dose. Radiat Res 145:315-23
Held, K D; Biaglow, J E (1994) Mechanisms for the oxygen radical-mediated toxicity of various thiol-containing compounds in cultured mammalian cells. Radiat Res 139:15-23
Held, K D; Tuttle, S W; Biaglow, J E (1993) Role of the pentose cycle in oxygen radical-mediated toxicity of the thiol-containing radioprotector dithiothreitol in mammalian cells. Radiat Res 134:383-9
Held, K D; Biaglow, J E (1993) Role of copper in the oxygen radical-mediated toxicity of the thiol-containing radioprotector dithiothreitol in mammalian cells. Radiat Res 134:375-82
Held, K D; Hopcia, K L (1993) Role of protein thiols in intrinsic radiation protection of DNA and cells. Mutat Res 299:261-9
Awad, S; Henderson, G B; Cerami, A et al. (1992) Effects of trypanothione on the biological activity of irradiated transforming DNA. Int J Radiat Biol 62:401-7
Kochevar, I E; Walsh, A A; Held, K D et al. (1990) Mechanism for 193-nm laser radiation-induced effects on mammalian cells. Radiat Res 122:142-8
Held, K D; Mirro, J; Melder, D C et al. (1990) Radiation-induced binding of DNA from irradiated mammalian cells to hydroxyapatite columns. Radiat Res 123:268-74
Held, K D (1988) Interactions of oxygen and sulfhydryls with free radicals in irradiated mammalian cells. Basic Life Sci 49:441-8

Showing the most recent 10 out of 12 publications