Radiation sensitization by estramustine studies on cultured human prostatic cancer cells.

Abstract

In low-stage prostatic carcinoma, local cure can be obtained with radiation therapy alone, while in locally advanced disease the chances for cure are less. In this study, we have addressed the question of whether estramustine (EM), the main cytostatic metabolite of estramustine phosphate (Estracyt), may act as a radiosensitizing agent. This drug accumulates in prostatic cancer and has also been shown to arrest cancer cells at metaphase both in vitro and in vivo. The human prostatic cancer cell line DU 145 was grown as cultures monolayer and incubated with EM in concentrations varying from 1 to 20 micrograms/ml. External beam irradiation was performed with doses ranging from 0 to 8 Gy using gamma rays from a 60Co source. Clonogenic cell survival (CS) was used to analyse the radiation sensitizing effect of EM. The radiation dose modifying factor (DMF) at the survival level 0.1 was found to be 0.77 in the presence of EM (5 micrograms/ml), i.e., 23% sensitization was obtained. When irradiating cells at the standard fraction dose of 2 Gy in the absence of EM, 22% of the cells lost their clonogenic ability. In presence of EM (5 micrograms/ml), 2 Gy caused 40% of the cells to lose their clonogenic ability. Thus a radiation sensitizing effect of EM was established in the CS assay. It was also of interest to determine if the radiosensitizing effect of EM could be confirmed in a rapid assay. The rapid fluorescence assay was used to observe early damage of the cells. Results showed that by 2 days after exposure to irradiation a weak tendency towards sensitization was seen, while a clear sensitization was obtained after 4 days. This indicates that the rapid assay might be developed to a predictive assay for detection of the response of primary prostate tumor cells to the radiation sensitizing effect of EM.