Human tumor cells differ in radiosensitivity, between cell lines of different histological types and also within each histological type. Differences are clearly seen in the low-dose region of the acute radiation survival curve and they are greatly magnified by irradiation at low dose rate (around 1-5cGy/min). These differences are large enough to influence success or failure in clinical radiotherapy. This project seeks to explore differences among cell lines from tumors of the cervix, bladder, skin, and nervous system, among others. Cell survival will be assessed by means of established cell cloning assays. The dose-rate effect will be studied and the data evaluated in terms of the relative roles of recoverable and non-recoverable damage. Multiple split-dose experiments will be performed at a range of dose levels and compared with similar studies of delayed-plating recovery. These studies will critically evaluate our current evidence that recovery increases with radiosensitivity (in contrast to the accepted view) and that the alpha/beta ratio for human tumor cells is roughly constant.
The aim i s to obtain a reliable overview of the therapeutic importance of recoverable and nonrecoverable damage in human tumor cells. Selected human tumor cell lines of differing radiosensitivity, also human normal and AT fibroblasts, will be sychronised by mitotic selection and the variation of sensitivity and recovery through the cell cycle will be examined. The results will be carefully analyzed for evidence on the variation in the initial slope of the survival curve with cell-cycle phase. The main thrust of the work will be towards a deeper understanding of the initial slope of cell survival curves. Since there are grounds for believing that this slope is similar to the slope of the cell survival curve at low dose rate, we regard this as reflecting non-repaired 'residual' cellular damage. We will explore this by documenting non-repaired PCC breaks and micronucleus formation across a range of human tumor cell lines. In addition, we will study the sensitivity of the cells to mutation at specific loci in order to ask more detailed questions about the nature of residual genetic damage.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA026059-11
Application #
3167180
Study Section
Radiation Study Section (RAD)
Project Start
1979-09-15
Project End
1995-08-31
Budget Start
1993-09-01
Budget End
1994-08-31
Support Year
11
Fiscal Year
1993
Total Cost
Indirect Cost
Name
Institute of Cancer Research
Department
Type
DUNS #
City
London
State
Country
United Kingdom
Zip Code
Yarnold, J R; Price, P; Steel, G G (1995) Non-surgical management of early breast cancer in the United Kingdom: radiotherapy fractionation practices. Clinical Audit Sub-committee of the Faculty of Clinical Oncology, Royal College of Radiologists, and the Joint Council for Clinical Oncology. Clin Oncol (R Coll Radiol) 7:223-6
Jones, L A; Clegg, S; Bush, C et al. (1994) Relationship between chromosome aberrations, micronuclei and cell kill in two human tumour cell lines of widely differing radiosensitivity. Int J Radiat Biol 66:639-42
Lockhart, S P; Down, J D; Steel, G G (1992) Mouse hemithoracic irradiation and its interaction with cytotoxic drugs. Radiother Oncol 24:177-85
Parkins, C S; Bush, C; Price, P et al. (1991) Cell proliferation in human tumour xenografts: measurement using antibody labelling against bromodeoxyuridine and Ki-67. Cell Prolif 24:171-9
Lockhart, S P (1990) Inhaled thiol and phosphorothiol radioprotectors fail to protect the mouse lung. Radiother Oncol 19:187-91
Parkins, C S; Steel, G G (1990) Growth and radiosensitivity testing of human tumour cells using the adhesive tumour cell culture system. Br J Cancer 62:935-41
Kelland, L R; Tonkin, K S (1989) The effect of 3-aminobenzamide in the radiation response of three human cervix carcinoma xenografts. Radiother Oncol 15:363-9
Parkins, C S; Begg, A C; Bush, C et al. (1989) In vivo bromodeoxyuridine labelling in human tumour xenografts. Int J Radiat Biol 56:787-91
Tonkin, K S; Kelland, L R; Steel, G G (1989) A comparison of the in vivo and in vitro radiation response of three human cervix carcinomas. Radiother Oncol 16:55-63
Kelland, L R; Steel, G G (1989) Recovery from radiation damage in human squamous carcinoma of the cervix. Int J Radiat Biol 55:119-27

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