A Takahashi1. 1. Department of Biology, Nara Medical University, Kashihara, Japan. atakahas@naramed-u.ac.jp
Abstract
PURPOSE: This study was undertaken to clarify the effects of acute or chronic pre-irradiation on the induction of p53-dependent apoptosis by X-rays or heat shock. MATERIALS AND METHODS: Having an identical genotype except for p53-status, the human cultured squamous cell carcinoma cells (SAS) were transfected with a mutant p53 gene (SAS/mp53) or neo alone (SAS/neo) as a control. After acute X-irradiation (1 Gy min(-1)), chronic gamma-irradiation (0.001 Gy min(-1)) or heat shock (44 degrees C), the cells were for the incidence of apoptotic bodies and DNA ladders, cellular levels of p53 and bax, and caspase-3 activity. RESULTS: It was found that (1) a challenge treatment with X-rays (5.O Gy) or heat shock (30 min) immediately after chronic pre-irradiation (1.5 Gy) but not acute pre-irradiation (1.5 Gy) resulted in lower levels of apoptosis than those observed after challenge treatment only in SAS/neo cells; (2) a challenge treatment-induced apoptosis was observed 48 h after cessation of chronic pre-irradiation in SAS/neo cells; (3) apoptosis was barely increased in SAS/mp53 cells; and (4) the levels of apoptosis-related proteins after challenge treatments were strongly correlated with the above phenomena. CONCLUSIONS: Chronic pre-irradiation at a low dose-rate suppressed induction of p53-dependent apoptosis via bax and caspase-3. These findings suggest that chronic pre-irradiation suppressed p53 function through radiation-induced signalling and/or p53 stability.
PURPOSE: This study was undertaken to clarify the effects of acute or chronic pre-irradiation on the induction of p53-dependent apoptosis by X-rays or heat shock. MATERIALS AND METHODS: Having an identical genotype except for p53-status, the human cultured squamous cell carcinoma cells (SAS) were transfected with a mutant p53 gene (SAS/mp53) or neo alone (SAS/neo) as a control. After acute X-irradiation (1 Gy min(-1)), chronic gamma-irradiation (0.001 Gy min(-1)) or heat shock (44 degrees C), the cells were for the incidence of apoptotic bodies and DNA ladders, cellular levels of p53 and bax, and caspase-3 activity. RESULTS: It was found that (1) a challenge treatment with X-rays (5.O Gy) or heat shock (30 min) immediately after chronic pre-irradiation (1.5 Gy) but not acute pre-irradiation (1.5 Gy) resulted in lower levels of apoptosis than those observed after challenge treatment only in SAS/neo cells; (2) a challenge treatment-induced apoptosis was observed 48 h after cessation of chronic pre-irradiation in SAS/neo cells; (3) apoptosis was barely increased in SAS/mp53 cells; and (4) the levels of apoptosis-related proteins after challenge treatments were strongly correlated with the above phenomena. CONCLUSIONS: Chronic pre-irradiation at a low dose-rate suppressed induction of p53-dependent apoptosis via bax and caspase-3. These findings suggest that chronic pre-irradiation suppressed p53 function through radiation-induced signalling and/or p53 stability.