High sensitivity of rat foetal germ cells to low dose-rate irradiation

PURPOSE: To investigate the response of germ and Sertoli cells to gamma-irradiation at two distinct periods of testicular development in rat foetuses. MATERIALS AND METHODS: Pregnant rats were exposed to 60Co gamma-rays at days 15, 19 or 21 post-coitum (p.c.), at doses ranging from 0.1 to 1.5Gy, and at different dose-rates. Testicular weight, seminiferous tubule condition and the number of germ and Sertoli cells were measured at early and late times after irradiation. Apoptosis was studied by the ISEL method and p53 expression was studied by immunohistochemistry. RESULTS: At high dose-rates (> or = 3.3 Gy min(-1)), 1.5 Gy radiation at day 15 p.c. had a short-term effect on germ cell survival. A large proportion of these cells rapidly underwent p53-independent apoptosis. Apoptotic cells were strongly clustered. The remaining germ cells divided and differentiated normally leading to a majority of normal tubules in the adult testis. However, at low dose-rate (0.6mGy min(-1)), much greater depopulation of the seminiferous tubules occurred. When irradiation was given at day 19 p.c., the same dose had a delayed effect on germ cells, leading to sterility. Sertoli cells had a normal survival for irradiation at day 15 p.c. Their proliferation became higher in prepubescent testis compared with controls, when irradiation occurred at day 19 p.c. CONCLUSION: The position of gonocytes in the cell cycle at the time of irradiation seems to be a determining parameter for inducing gonocyte apoptosis. The strong effect of irradiation on germ cells at very low dose-rate and the appearance of clusters of apoptotic gonocytes may be a consequence of the syncitial organization of germ cells, favouring their cell synchronisation or the transmission of death signalling when they are in a radiosensitive period.     

Continuous gamma-irradiation of rats: dose-rate effect on loss and recovery of spermatogenesis

Male Sprague Dawley rats were continuously irradiated at a dose-rate of either 5 or 7 cGy/day, up to a total dose of 900 cGy. Changes in spermatogenesis with irradiation and the recovery of the testis during 33 weeks after irradiation were studied. No clear dose-rate effect with testicular weight occurred. During the irradiation time, increased dose and dose-rate induced a decrease in A spermatogonia and preleptotene spermatocyte number. In our experimental conditions germ cell production did not plateau, as shown by the increasing number of tubular cross sections devoid of germ cells beyond 500 cGy. The recovery of seminiferous epithelium occurred essentially within nine weeks. It was not dose-rate dependent and was still incomplete after 33 weeks. This lack of recovery might be due to limited compensatory division ability of the stem cells. Clusters of Sertoli cells were observed in the lumen of the seminiferous tubules; impaired function of these cells could also prevent the complete recovery of the seminiferous epithelium. By 16 weeks after the end of irradiation 67% of 5 cGy/day irradiated rats and 34% of 7 cGy/day irradiated rats recovered fertility.     

Study of the gonocyte cell cycle in irradiated TP53 knockout mouse foetuses and newborns

Purpose : To investigate the role of p53 in gonocyte cell-cycle arrest in rodents with or without radiation exposure. Materials and methods : Pregnant p53 (+/-) mice, mated with p53 (-/-) males, were exposed to 137 Cs γ-rays at day 18 postcoitum (p.c.) at doses ranging from 1.5 Gy to 3 Gy. The gonocyte cell cycle was studied in p53 (-/-) male foetuses and newborns after BrdU incorporation and DAPI staining, and compared with those of p53 wild-type animals. Results : The proliferation of gonocytes in wild-type mice is normally arrested between day 16 p.c. and birth, a period when p53 is strongly expressed in gonocytes; p53 high expression is prolonged in all gonocytes after 3 Gy irradiation. In p53 (-/-) mice, this period of gonocyte cell-cycle arrest is not modified, compared with wild-type mice. It is also prolonged after a 3 Gy exposure. Conclusion : Two hypotheses are proposed. Either p53 is not involved in the control of gonocyte cell-cycle arrest in control and irradiated mice, or its role is redundant in this process.     

Threshold effect for teratogenic risk of radiation depends on dose-rate and p53-dependent apoptosis

PURPOSE: To obtain evidence that the p53 gene is indispensable for reduction of high teratogenic risk of radiation at a high dose-rate to zero risk by lowering the dose-rate. MATERIALS AND METHODS: Wild-type p53(+/+), heterozygous p53(+/-) and null p53(-/-) mice were exposed to gamma-rays at high or low dose-rates during days 9.5-10.5 of gestation. The incidence of malformations and prenatal deaths was studied. Frequencies of cells dying by apoptosis were measured during or after protracted irradiation. RESULTS: After irradiation with 2 Gy, the frequency of apoptotic cells increased to 20% for p53(+/+) mice and did not increase at all for p53(-/-) mice. For p53(+/+) mice, 2 Gy y-rays induced 70% malformations when given at 1.06 Gy/min, but no malformations above the control when given at 1.2 mGy/min. In contrast, after irradiation of p53(-/-) foetuses with 2 Gy at 1.2mGy/min, the incidence of malformations increased 12% above control levels. CONCLUSION: Foetal irradiation with 2 Gy at 1.2 mGy/min was not teratogenic for p53(+/+) mice but teratogenic for p53(-/-) mice. This indicates that the p53 gene is indispensable for a threshold effect in the risk of radiation at low doses or dose-rates.     

Chromosome aberrations detected by FISH and correlation with cell survival after irradiation at various dose-rates and after bromodeoxyuridine radiosensitization

PURPOSE: To determine whether measurement of chromosome aberrations by fluorescence in situ hybridization (FISH) predicts cell survival after irradiation at different dose-rates and after radiosensitization by bromodeoxyurdine (BrdU) in a lung carcinoma cell line. MATERIALS AND METHODS: The human lung carcinoma cell line SW1573 was irradiated at high dose-rate (HDR: 0.8 Gy min-1) or at pulsed low dose-rate (p-LDR: average dose-rate 1 Gy h-1) with or without radiosensitization by bromodeoxyuridine (BrdU). Cell survival was determined by clonogenic assay. Chromosome aberrations (colour junctions) were measured by whole-chromosome FISH of chromosome 2 and 18 and were scored according to the PAINT method. RESULTS: Clear radiosensitization by BrdU was observed both after HDR and p-LDR irradiation. Chromosome 18 was more radiosensitive than chromosome 2. There was a good correlation between induction of colour junctions and cell survival both after HDR and p-LDR irradiation and after radiosensitization by BrdU. CONCLUSIONS: Determination of chromosome aberrations by FISH can predict cell survival after different dose-rates and after radiosensitization by BrdU     

A Cs-137 afterloading device. Preliminary results of cell kinetic effects of low dose-rate irradiation in an experimental tumour

A Cs-137 afterloading technique is described which can be used in experimental tumours. Preliminary results, obtained with the human cervical carcinoma ME-180 xenografted to nude athymic mice, demonstrated that 20 Gy of low dose-rate irradiation induced an important redistribution of cells over cell cycle. The proportion of cells in G2-phase increased from 14.4% to 44.2% at 140 hours after irradiation. This method allows an accurate calculation of the dose-rate distribution in the tumour. Investigations of the cell kinetic effects of low dose-rate irradiation, at different dose-rates and different total doses, are therefore facilitated by the technique.     

p63 expression pattern in foetal and neonatal gonocytes after irradiation and role in the resulting apoptosis by using p63 knockout mice

Purpose:?To investigate the role of p63, a member of the p53 family, in gonocyte apoptosis after radiation exposure.

Materials and methods:?Wild-type (WT) and p63 knock-out (KO) testes were exposed in vivo or in vitro to a 3 Gy dose of ¹³⁷Cesium (¹³⁷Cs) γ-rays at day 18.5 post-conception (p.c.). p63 whole expression was studied in neonatal testes by immunohistochemistry, whereas TAp63 and ΔNp63 isoforms were studied by Reverse-transcribed Polymerase Chain Reaction (RT-PCR). Gonocyte apoptosis was analysed by immunohistochemistry (cleaved caspase 3) and In Situ End labelling (ISEL).

Results:?Such foetal irradiation leads to a strong increase of gonocyte apoptosis in newborns. It also induces the up-regulation of the TAp63α isoform and the down-regulation of the ΔNp63α isoform. Moreover, in control p63KO testis, a significant increase in the number of gonocytes was associated with a strong reduction of their apoptosis compared with the control wild-type testis. Unexpectedly, after irradiation this increase of the number of apoptotic gonocytes was seen in p63KO testis, which was comparable to that in irradiated p63WT testis.

Conclusion:?We demonstrate that p63 is able to trigger gonocyte apoptosis in control testis but is not necessarily required in their radio-induced apoptosis.     

Study of the gonocyte cell cycle in irradiated TP53 knockout mouse foetuses and newborns

PURPOSE: To investigate the role of p53 in gonocyte cell-cycle arrest in rodents with or without radiation exposure. MATERIALS AND METHODS: Pregnant p53 (+/-) mice, mated with p53 (-/-) males, were exposed to (137)Cs gamma-rays at day 18 postcoitum (p.c.) at doses ranging from 1.5 Gy to 3 Gy. The gonocyte cell cycle was studied in p53 (-/-) male foetuses and newborns after BrdU incorporation and DAPI staining, and compared with those of p53 wild-type animals. RESULTS: The proliferation of gonocytes in wild-type mice is normally arrested between day 16 p.c. and birth, a period when p53 is strongly expressed in gonocytes; p53 high expression is prolonged in all gonocytes after 3 Gy irradiation. In p53 (-/-) mice, this period of gonocyte cell-cycle arrest is not modified, compared with wild-type mice. It is also prolonged after a 3 Gy exposure. CONCLUSION: Two hypotheses are proposed. Either p53 is not involved in the control of gonocyte cell-cycle arrest in control and irradiated mice, or its role is redundant in this process.     

Radiation response of apoptosis in C57BL/6N mouse spleen after whole-body irradiation

Purpose : Primary conditioning low dose irradiation suppresses the molecular responses against secondary challenge high dose irradiation; this phenomenon has been termed the radioadaptive response. The mechanism of the radioadaptive response is not yet clear. This study was undertaken to elucidate the radiation response of apoptosis in mouse spleen after whole-body irradiation. Materials and methods : The induction of apoptosis was analysed in the spleens of C57BL/6N mice after chronic irradiation with γ-rays at 1.5 Gy (0.001 Gy/min for 25 h) followed by challenge irradiation with X-rays at 3.0Gy (1 Gy/min). Results : Accumulation of p53 and Bax, and the induction of apoptosis were observed dose-dependently in mouse spleen 12 h after acute irradiation at a high dose-rate. However, it was found that there was significant suppression of the accumulation of p53 and Bax, and induction of apoptosis 12 h after challenge irradiation at 3.0Gy at a high dose-rate following chronic preirradiation at 1.5Gy at a low dose-rate. In addition, the combination of pre-irradiation at 1.5Gy at a high dose-rate and challenge irradiation at 3.0Gy at a high dose-rate could not suppress the accumulation of p53 and Bax or the induction of apoptosis. Conclusions : Chronic pre-irradiation at a low dose-rate suppressed Bax-mediated apoptosis. These findings suggest that the radioadaptive response in mouse spleen may be due to a suppression of p53-mediated apoptosis.     

Radiation effect on rat Sertoli cell function in vitro and in vivo

PURPOSE: To investigate the response of Sertoli cell function to 60Co gamma-rays. MATERIALS AND METHODS: Rat Sertoli cells were exposed in vitro and in vivo to 60Co gamma-rays in the dose range 3 Gy to 48 Gy and at 3 Gy and 6 Gy respectively. Cell viability and transferrin and IL-6 production were measured at different times following irradiation. RESULTS: This study confirms the resistance of in vitro irradiated rat Sertoli cells in the dose range 3 Gy to 48 Gy in terms of cell number. Radiation had no effect on the IL-1 activity of Sertoli cells. However, the experiments show that despite the absence of a macroscopic effect, Sertoli cells respond to ionizing radiation by increasing transferrin secretion, transferrin response to (Bu)2cAMP stimulation and IL-6 activity. CONCLUSIONS: Transferrin is involved in the transport of iron into germ cells and in cell differentiation. IL-6 is a potent inhibitor of meiotic DNA synthesis. Radio-induced transferrin and IL-6 could play a role in the protection of germ cells and could explain, in part, the resistance of Sertoli cells to radiation.     

Lack of inverse dose-rate effect and binding of the retinoblastoma gene product in the nucleus of human cancer T-47D cells arrested in G2 by ionizing radiation

PURPOSE: To investigate the radiosensitivity of human breast cancer cells, T-47D, irradiated with low dose-rates and to study activation of the retinoblastoma gene product in the G1 and G2 phases during irradiation. MATERIALS AND METHODS: Cells were irradiated with (60)Co gamma-rays with dose-rates of 0.37 and 0.94 Gy h(-1). Cell survival was measured as the ability of cells to form colonies. Cells were extracted, fixed and stained for simultaneous measurements of nuclear-bound pRB content and DNA content. Cell nuclei were stained with monoclonal antibody PMG3-245 and Hoechst 33258 was used for additional staining of DNA. Two-parametric flow cytometry measurements of pRB and DNA content were performed using a FACSTAR(PLUS) flow cytometer. RESULTS: It was observed that irradiated cells were arrested in G2. No increase in radiation sensitivity was observed when the cells accumulated in G2. Irradiation of cells at both 0.37 and 0.94 Gy h(-1) resulted in exponential dose-survival curves with nearly equal alpha values, i.e. the same radiosensitivity. However, the retinoblastoma gene product was bound in the nucleus, i.e. hypophosphorylated, in about 15% of the cells arrested in G2. CONCLUSIONS: T47-D cells accumulate in G2 during low dose irradiation, but no inverse dose-rate effect, i.e. a more efficient inactivation of cells at lower than at higher dose-rates, was observed. A population of arrested G2 cells has pRB protein bound in the nucleus, and pRB therefore could play a role in protecting cells against radiation-induced cell death in G2.     

p63 expression pattern in foetal and neonatal gonocytes after irradiation and role in the resulting apoptosis by using p63 knockout mice

PURPOSE: To investigate the role of p63, a member of the p53 family, in gonocyte apoptosis after radiation exposure. MATERIALS AND METHODS: Wild-type (WT) and p63 knock-out (KO) testes were exposed in vivo or in vitro to a 3 Gy dose of 137Cesium (137Cs) gamma-rays at day 18.5 post-conception (p.c.). p63 whole expression was studied in neonatal testes by immunohistochemistry, whereas TAp63 and DeltaNp63 isoforms were studied by Reverse-transcribed Polymerase Chain Reaction (RT-PCR). Gonocyte apoptosis was analysed by immunohistochemistry (cleaved caspase 3) and In Situ End labelling (ISEL). RESULTS: Such foetal irradiation leads to a strong increase of gonocyte apoptosis in newborns. It also induces the up-regulation of the TAp63alpha isoform and the down-regulation of the DeltaNp63alpha isoform. Moreover, in control p63KO testis, a significant increase in the number of gonocytes was associated with a strong reduction of their apoptosis compared with the control wild-type testis. Unexpectedly, after irradiation this increase of the number of apoptotic gonocytes was seen in p63KO testis, which was comparable to that in irradiated p63WT testis. CONCLUSION: We demonstrate that p63 is able to trigger gonocyte apoptosis in control testis but is not necessarily required in their radio-induced apoptosis.     

Effect of subsequent acute-dose irradiation on cell survival in vitro following low dose-rate exposures

Purpose : Following acute irradiation, excess radiosensitivity is generally seen at doses <1 Gy, a phenomenon termed 'low-dose hyper-radiosensitivity' (HRS). A very strong, HRS-like inverse dose-rate effect has also been described following continuous low dose-rate (LDR) irradiation at <30 cGy h -1. We report on the sequential irradiation of a cell line by such LDR exposures followed by low acute doses, where either treatment individually would elicit a hypersensitive response. The aim was to determine if a prior LDR exposure would remove the HRS normally seen in response to very small acute radiation doses. Materials and methods : T98G human glioma cells were given single continuous LDR exposures of 5-60 cGy h -1 using a 60 Co γ-source. At intervals of 0 or 4 h following LDR irradiation, cells were further irradiated with a range of acute doses using 240-kVp X-rays. The response to the combined treatment was assessed using high-precision clonogenic cell survival assays, and the amount of HRS at acute doses <1 Gy was determined. Results : LDR at ≥60 cGy h -1 to total doses up to 5 Gy in asynchronously growing cells did not remove HRS in the subsequent acute-dose survival curve. In confluent cultures, subsequent acute-dose HRS was not present after an LDR dose of 5 Gy at either 60 or 30 cGy h -1, but returned if a 4-h interval was left between LDR and acute-dose irradiation. In confluent cultures, acute-dose HRS remained for LDR treatments at 5 or 10 cGy h -1 or if the total dose was 2 Gy. Taking all cultures and dose-rates together, the 'degree' of acute-dose HRS, as measured by α s, was significantly greater in cells irradiated at LDR to a total dose of 2 than of 5Gy. Conclusions : Initial LDR exposure can affect a subsequent HRS response. HRS is reduced after LDR exposures at greater dose intensity, but can recover again within 4 h of completion of LDR exposure. This suggests that processes determining increased resistance to small acute doses (removal of HRS) might be governed by the level of repairable DNA lesions.     

Influence of dose-rate, post-irradiation incubation time and growth factors on interphase cell death by apoptosis and clonogenic survival of human peripheral lymphocytes.

PURPOSE: To investigate the effects of dose-rate, post-irradiation incubation time and growth factors on radiation-induced interphase cell death by apoptosis and reproductive cell death in human peripheral lymphocytes. MATERIALS AND METHODS: Lymphocytes in G0-phase were exposed in vitro to 1-3Gy 137Cs gamma-radiation at a high- (HDR, 45Gy/h) or a low dose-rate (LDR, 0.024Gy/h). HDR exposures were performed either on day 1 (HDR1) simultaneously with the start of the 3 Gy LDR exposure, or on day 6 (HDR6) when the LDR exposures ended. Apoptosis was studied at different times after irradiation by measuring (1) cellular membrane integrity, (2) morphological changes and (3) cell size reduction. Clonogenic survival was analysed for cells plated directly after irradiation (LDR, HDR6, HDR1 day 1) or after 5 days post-irradiation incubation (HDR1 day 6). RESULTS: A significant decrease in reproductive cell death was observed after 3 Gy LDR exposure as compared with the HDR1 exposure for cells plated day 6. For the lower doses applied, the dose-rate effect could not be statistically verified. A decrease in apoptosis for all three doses applied (i.e. 1, 2 and 3Gy) was observed when the LDR exposures were compared with the HDRI analysed day 6, although not of statistical significance. Radiation-induced apoptosis was efficiently counteracted by growth factors up to 24-48 h after 3 Gy HDR exposure. The prevention of radiation-induced cell death by growth factors was dependent on dose and post-irradiation time in G0. When the growth factors were added after a prolonged post-irradiation incubation in G0 (HDR 1 cells plated day 6), a significant increase in reproductive cell death was found (3 Gy) as compared with HDR protocols where the growth factors were added directly after irradiation (HDR 1 plated day 1 and HDR6). CONCLUSIONS: A dose-rate effect on radiation-induced apoptosis was indicated but not statistically verified. A significant dose-rate effect on reproductive cell death was observed. This dose-rate effect was, however, inverted when growth factors were added directly after the HDR irradiations.     

Influence of dose-rate,post-irradiation incubation time and growth factors on interphase cell death by apoptosis and clonogenic survival of human peripheral lymphocytes

Purpose: To investigate the effects of dose-rate, post-irradiation incubation time and growth factors on radiation-induced interphase cell death by apoptosis and reproductive cell death in human peripheral lymphocytes. Materials and methods : Lymphocytes in G0-phase were exposed in vitro to 1-3Gy 137Cs gamma-radiation at a high- (HDR, 45Gy/h) or a low dose-rate (LDR, 0.024Gy/h). HDR exposures were performed either on day 1 (HDR1) simultaneously with the start of the 3Gy LDR exposure, or on day 6 (HDR6) when the LDR exposures ended. Apoptosis was studied at different times after irradiation by measuring (1) cellular membrane integrity, (2) morphological changes and (3) cell size reduction. Clonogenic survival was analysed for cells plated directly after irradiation (LDR, HDR6, HDR1 day 1) or after 5 days post-irradiation incubation (HDR1 day 6). Results: A significant decrease in reproductive cell death was observed after 3Gy LDR exposure as compared with the HDR1 exposure for cells plated day 6. For the lower doses applied, the dose-rate effect could not be statistically verified. A decrease in apoptosis for all three doses applied (i.e. 1, 2 and 3Gy) was observed when the LDR exposures were compared with the HDR1 analysed day 6, although not of statistical significance. Radiation-induced apoptosis was e fficiently counteracted by growth factors up to 24-48h after 3Gy HDR exposure. The prevention of radiation-induced cell death by growth factors was dependent on dose and post-irradiation time in G0. When the growth factors were added after a prolonged post-irradiation incubation in G0 (HDR1 cells plated day 6), a significant increase in reproductive cell death was found (3Gy) as compared with HDR protocols where the growth factors were added directly after irradiation (HDR1 plated day 1 and HDR6). Conclusions: A dose-rate effect on radiation-induced apoptosis was indicated but not statistically verified. A significant dose-rate effect on reproductive cell death was observed. This dose-rate effect was, however, inverted when growth factors were added directly after the HDR irradiations.     

Expression of Cytoskeletal Elements in Proliferating Cells Following Radiation Exposure

Summary

Previous work has demonstrated that radiation exposure modulates the expression of a series of genes, including those that encode cytoskeletal elements. The experiments reported here were designed to examine (1) the comparative effects of neutrons administered at high versus low dose-rates, (2) the comparative effects of neutrons on cycling versus resting cells and (3) the comparative effects of neutrons versus γ-rays on β- and γ-actin mRNA accumulation in Syrian hamster embryo (SHE) cells 1 and 3 h post-irradiation. JANUS fission-spectrum neutrons from Argonne National Laboratory's JANUS reactor administered at high (12 cGy/min) dose-rates had little effect on resting cells, but at very low dose-rates (0·1 cGy/min) had a repressive effect on γ-actin mRNA accumulation. Increased accumulation of β-actin mRNA was detected following the exposure of cells to neutrons administered at high dose-rates, but repression of β-actin mRNA was observed when neutrons were administered at low dose-rates. Cycling cells (unexposed and neutron irradiated) in all cases expressed higher levels of all actin-specific mRNAs than resting cells; β-actin mRNA (but not γ-actin mRNA) was induced to a greater extent in cycling cells than in resting cells during the first hour following neutron exposure. In resting cells, however, low dose-rate neutrons were more effective than low dose-rate γ-rays at repressing both γ- and β-actin mRNA accumulation. These results demonstrate the differential effects of radiation quality (neutrons versus γ-rays) and cell-cycle state on the modulation of actin isotype-specific gene expression.     

In vitro response of human and porcine vascular cells exposed to high dose-rate γ-irradiation

Aim : The objective of this study was to compare the in vitro response of human and pig endothelial cells, smooth muscle cells and fibroblasts exposed to conventional high dose-rate γ-irradiation. Materials and methods : Clonogenic cell survival and growth responses were obtained after irradiation of plateau-phase cells with a 60 Co source at a dose-rate of 1.5 Gy/min. DNA single-strand breaks were also evaluated using an alkaline filter elution technique. Results : Overall, both the pig and human cell lines showed a similar response to conventional high dose-rate irradiation. Using clonogenic assays, the human aortic smooth muscle cell line was more sensitive than the fibroblast and endothelial cell lines, whereas the pig endothelial cell line was more sensitive than smooth muscle cells and fibroblasts. Shortly after irradiation (10 days) there was a temporary growth arrest, which was similar for endothelial, smooth muscle cells and fibroblasts with doses above 6 Gy. There was also a non-linear, dose-dependent growth delay up to 4 weeks after irradiation. This effect was also consistent between the different cell lines. Using alkaline filter elution, there was no significant difference in relative elution between endothelial cells, smooth muscle cells and fibroblasts, indicating similar DNA damage among the different cell lines. Conclusion : The in vitro response of human and pig endothelial cells, smooth muscle cells and fibroblasts exposed to high doserate irradiation appeared similar. The pig model seems well suited to evaluate the short- and long-term effects of ionizing radiation in the prevention of restenosis after vessel injury.     

Radiation response of apoptosis in C57BL/6N mouse spleen after whole-body irradiation

PURPOSE: Primary conditioning low dose irradiation suppresses the molecular responses against secondary challenge high dose irradiation; this phenomenon has been termed the radioadaptive response. The mechanism of the radioadaptive response is not yet clear. This study was undertaken to elucidate the radiation response of apoptosis in mouse spleen after whole-body irradiation. MATERIALS AND METHODS: The induction of apoptosis was analysed in the spleens of C57BL/6N mice after chronic irradiation with gamma-rays at 1.5 Gy (0.001 Gy/min for 25 h) followed by challenge irradiation with X-rays at 3.0Gy (1 Gy/min). RESULTS: Accumulation of p53 and Bax, and the induction of apoptosis were observed dose-dependently in mouse spleen 12 h after acute irradiation at a high dose-rate. However, it was found that there was significant suppression of the accumulation of p53 and Bax, and induction of apoptosis 12 h after challenge irradiation at 3.0Gy at a high dose-rate following chronic preirradiation at 1.5Gy at a low dose-rate. In addition, the combination of pre-irradiation at 1.5Gy at a high dose-rate and challenge irradiation at 3.0Gy at a high dose-rate could not suppress the accumulation of p53 and Bax or the induction of apoptosis. CONCLUSIONS: Chronic pre-irradiation at a low dose-rate suppressed Bax-mediated apoptosis. These findings suggest that the radioadaptive response in mouse spleen may be due to a suppression of p53-mediated apoptosis.     

Oxidative and nitrative stress-related changes in human lens epithelial cells following exposure to X-rays

Purpose: There is limited understanding of the mechanistic effects of ionizing radiation (IR) exposure in cataract formation. In this study, we explored the effects of IR on reactive oxygen/nitrogen species (ROS and RNS) generation in human lens epithelial (HLE) cells as an early key event to long-term damage.

Materials and methods: HLE cell-line was exposed to X-rays at varied doses (0–5?Gy) and dose-rates. Cell lysates and supernatants were collected 20?h post-exposure and analysed for viability, cell cycling and metabolites of ROS (p, m-, o-, tyrosines, 3-chlorotyrosine (cl-tyrosine), 8-hydroxy deoxyguanosine, (8-OH-dG) and RNS (3-nitrotyrosine).

Results and conclusions: HLE cell-line exhibited a bi-phasic response in terms of cell viability, ROS and RNS profiles. At doses <0.5?Gy, ROS and RNS levels were lower than control and at higher doses (>0.5?Gy) a steady increase was observed in each metabolite. This response was observed irrespective of dose-rate. Among the associations tested, cl, p, m-tyrosine and 3-nitrotyrosine revealed changes (p?相似文献   

Radiation-induced apoptosis in the scid mouse spleen after low dose-rate irradiation

Purpose : To elucidate the process of radioadaptation, the role of DNA-PK activity was examined using the scid mouse defective in DNA-PKcs. Materials and methods : The induction of apoptosis in the spleens of the C.B-17 Icr scid mouse and the parental mouse was studied after chronic irradiation with γ-rays at 1.5 Gy (0.001Gy min -1 for 25 h) followed by challenge irradiation with X-rays at 3.0 Gy (1.0 Gy min -1 for 3 min). Results : When the wild-type mouse was previously exposed to chronic irradiation (1.5Gy) at a low dose-rate (0.001 Gy min -1) , apoptosis induced by acute irradiation (3.0 Gy, 1.0Gy min -1) was significantly suppressed, especially in the splenic white pulp. There was no change by acute irradiation after chronic irradiation in the scid mouse, although an effect was detected in the spleen after acute irradiation alone. Conclusions : These data suggest that DNA-PK activity might play a major role in the radioadaptive response following pre-irradiation at a low dose-rate.