Radiation research
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Radiation-induced apoptosis detected by gel electrophoresis was measured in cells of three human prostate carcinoma cell lines (TSU, PC-3 and DU-145) and compared to their intrinsic radiosensitivities as measured by clonogenic assays. The intrinsic radiosensitivities of each cell line were defined by their alpha and beta coefficients and their surviving fraction at 2 Gy, derived from complete survival curves. The temporal expression and kinetics of radiation-induced apoptosis for DU-145 cells, the human prostate carcinoma cell line which expressed the highest rate of radiation-induced apoptosis, was characterized further by differential sedimentation and the immunofluorescence assay (Apoptag) which was specific for 3'-OH ends in cellular DNA. ⋯ These may correlate with apoptosis and proliferative cell death, respectively. Of the three prostate cancer cell lines investigated, only DU-145 cells displayed significant levels of radiation-induced DNA fragmentation and rapid cell death, with characteristics of apoptosis. This mechanism of cell death was complete by 24 h after irradiation and was well separated in time from the death of cells by the major mechanisms which occurred after 72 h, and accounted for about 5% of cell inactivation by a single-hit mechanism.