Effect of low doses of low-intensity irradiation on the incidence and progress of spontaneous leukosis in AKR mice

Development of spontaneous leukosis in AKR mice is accelerated by irradiation with low doses (1.2-2.4 cGy, dose-rate 0.6 cGy/day): the leukoses incidence rate increases, deaths of the animals from leukosis occurs earlier, shortening the average and maximum life-spans of the animals. The dynamics of changes in the mass of organs of the immune systems (thymus and spleen) shown extrema. The moment of reaching the extremum correlates with the maximum rate of animals' deaths.     

Effect of low-level irradiation on incidence rate and development of malignant neoplasms

Low-level irradiation (1.2-2.4 cGy, dose-rate 0.6 cGy/day) leads to a significant acceleration of the development of spontaneous leukosis in AKR mice: decrease in the average and the maximum life-span of animals leukosis-carriers (by 20 and 120 days, respectively) and an increase in the leukosis incidence rate (%). The introduction of antioxidant phenozan (beta-(4-hydroxy-3,5-ditertbutylphenyl) propionic acid) results in a considerable antileukosis effect: the average life-span increases by more than 40 days and the leukosis incidence rate decreases by 6%.     

P53 under low-intensity inluence of physical and chemical nature (ionizing radiation and antioxidant)

It was found that low-intensity ionizing radiation and the antioxidant fenozan at a low concentration (10(-14) M) produce opposite effects on the content of protein p53 in the blood serum of mice. Thus, low-intensity gamma-irradiation of AKR mice with a dose of 1.2 cGy (0.6 cGy per day) led to a decrease in the content of p53 and acceleration of leukosis, whereas fenozan, which has membranolytic and radioprotective properties, when injected intramuscularly to F1 mice (CBA + c57 black) increased the content of p53. However, the dynamics of the activation of protein p53 depended on the concentration of fenozan (10(-4) or 10(-14)), which may be due to the difference in its binding to the membrane and the changes in its antioxidative properties depending on concentration.     

Study of genome instability using DNA fingerprinting of the offspring of male mice subjected to chronic low dose gamma irradiation

By a polymerase chain reaction with an arbitrary primer (AP-PCR), the possibility of transmission of genome instability to somatic cells of the offspring (F1 generation) from male parents of mice exposed to chronic low-level gamma-radiation was studied. Male BALB/c mice 15 days after exposure to 10-50 cGy were mated with unirradiated females. Biopsies were taken from tale tips of two month-old offspring mice and DNA was isolated. The primer in the AP-PCR was a 20-mer oligonucleotide flanking the microsatellite locus Atp1b2 on chromosome 11 of the mouse. A comparative analysis of individual fingerprints of AP-PCR products on DNA-templates from the offspring of irradiated and unirradiated male mice revealed an increased variability of microsatellite-associated sequences in the genome of the offspring of the males exposed to 25 and 50 cGy. The DNA-fingerprints of the offspring of male mice exposed to chronic irradiation with the doses 10 and 25 cGy 15 days before fertilization (at the post-meiotic stage of spermatogenesis) showed an increased frequency of "non-parent bands". The results of the study point to the possibility of transmission to the offspring somatic cells of changes increasing genome instability from male parents exposed to chronic low-level radiation prior to fertilization.     

Genetic efficacy of low doses of ionizing radiation in chronically-irradiated small mammals

Earlier we have established the genetic effects of low dose chronic irradiation in bank vole (somatic and germ cells, embryos), in pond carp (fertilized eggs, embryos, fry) and in laboratory mice (somatic and germ cells) in the range of doses from near-background to 10 cGy. These low dose effects observed in mammals and fish are not expected from extrapolation of high dose experiments. For understanding reasons this discrepancy the comparative analysis of genetic efficiency of low dose chronic irradiation and the higher doses of acute irradiation was carried out with natural populations of bank vole which inhabited the two sites differing in ground of radionuclide deposition. For comparing efficiency the linear regression model of dose-effect curve was used. Dose-effect equations were obtained for animals from two chronically irradiated bank vole populations. The mean population absorbed doses were in the range 0.04-0.68 cGy, the main part of absorbed doses consisted of external radiation of animals exposed to 137Cs gamma-rays. Dose-effect equations for acute irradiation to 137Cs gamma-rays (10-100 cGy) were determined for the same populations. Comparison of genetic efficiency was made by extrapolation, using regression coefficient beta and doubling dose estimation. For chronic exposure the doubling doses calculated from low-dose experiments are 0.1-2 cGy and the doubling doses determined from high-dose experiments are in the range of 5-20 cGy. Our hypothesis that the doubling dose estimate is calculated in higher-dose ionizing radiation experiments should be much higher than the deduced from the low dose line regression equation was verified. The doubling dose estimates for somatic cells of bank vole and those for germ cells of laboratory mice are in close agreement. The radiosensitivity of bank vole chromosomes were shown is practically the same as that for human lymphocytes since doubling dose estimates for acute irradiation close to each other. For low LET radiation a higher genetic efficiency of chronic low doses in comparison with the higher doses of acute gamma-irradiation (137Cs source) was proved by three methods.     

The effects of low doses of low-level gamma-radiation and phenozan injection on structural characteristics of mice spleen DNA

It is well known that AKR mice with spontaneous leucosis are more sensitive to ionizing irradiation as compared to normal F1 (CBA x C57BL) mice. A study on changes of the structural characteristics of spleen DNA and level of protein p53 in the blood serum under the action of low-level gamma-irradiation in a dose of 1.2 cGy and injections of 10(-14) or 10(-4) mol/kg phenozan was performed. The changes in the structural characteristics of DNA (the adsorption on nitrocellulose filters and number of double-strand breaks) and p53 content were observed for each line of mice under gamma-irradiation and each phenozan concentration. Both factors showed long-time post-effects, and structural changes in AKR DNA were consistent with the life span of these mice. Phenozan in the above doses has abolished the induction of double-strand breaks in case of irradiation of F1 mice in a dose of 1.2 cGy and showed long-time post-irradiation effect. These facts suggest a radioprotection property of phenozan.     

Changes in levels of p53 protein, immunoglobulin L-chains, and iron complexes in mice of leukosis strain AKR following low dose irradiation

Changes in the content of protein p53 (regulator of the cell cycle) L-chains of immunoglobulins, and iron complexes (Fe2+) during the development of spontaneous leukosis in AKR mice and upon irradiation of animals with a dose of 1.2 cGy were studied by ESR spectroscopy, electrophoresis, and immunoblotting. It was found that irradiation leads to an increase in the incidence of leukoses in males by 7% and a decrease in life duration of females. A decrease in the content of protein p53 and L-chains in immunoglobulins in males and females was observed; however, in females, the decreases was less pronounced because the content of these proteins in females is naturally decreased. In mice irradiated with low doses at the age of three- to four months, a decrease in the amount of iron complexes at a later age (seven- to eight months) was registered. These data suggest that there is a relationship between the induction of protein p53 and the content of immunoglobulin L-chains in the blood serum of animals.     

Expression of transfected recombinant oncogenes increases radiation resistance of clonal hematopoietic and fibroblast cell lines selectively at clinical low dose rate

To determine the effect of oncogene expression on gamma radiation sensitivity of hematopoietic compared to fibroblastic cells, we selected clonal sublines of an interleukin-3 (IL-3)-dependent hematopoietic progenitor cell line 32D cl 3 and NIH/3T3 embryo fibroblastic cells following transfection with each oncogene linked to the mycophenolic acid resistance gene. Each mycophenolic acid-resistant subclone demonstrated high levels of specific poly(A)+ mRNA for each oncogene. The parent line 32D cl 3 demonstrated similar radiosensitivity at 116 cGy/min (D0 126, n 1.17) compared to 5 cGy/min (D0 123, n 1.65). This pattern was not altered in subclones of 32D cl 3 cells transfected with the epidermal growth factor (EGF) receptor gene and grown in EGF (at 116 cGy/min D0 104, n 0.998, at 5 cGy/min D0 115, n 1.09), or in 32D cl 3 cells expressing the v-sis oncogene (at 116 cGy/min D0 122.4, n 1.79, at 5 cGy/min D0 135, n 1.43). In contrast, expression of the transfected oncogenes v-erb-B, v-abl, or v-src conferred significant radioresistance at 5 cGy/min dose rate (D0 194, n 1.77; D0 165.5, n 1.56; D0 171, n 1.28, respectively). With the exception of v-sis, oncogene expression resulted in nonautocrine factor independence of 32D cl 3 subclones, and production of donor origin tumors in syngeneic new-born or adult mice. Two rare spontaneous factor-independent subclones of 32D cl 3 were also tested. Nonautocrine clone 32D cl 2 demonstrated significantly increased radioresistance at low dose rate (D0 186, n 1.63), while autocrine (IL-3 producing) subclone 32D cl 4 revealed no significant increase in radioresistance at 5 cGy/min. The parent fibroblast cell line NIH/3T3 showed an intrinsic relative radioresistance at low dose rate (at 5 cGy/min D0 157.3, n 1.81, compared to 116 cGy/min D0 134.3, n 1.57). Expression in NIH/3T3 of transfected oncogenes v-abl, v-fms, v-fos, or H-ras increased radioresistance at low dose rate (D0 208.6, n 1.61; D0 206.6, n 1.51; D0 167.5, n 1.85; and D0 206.8, n 1.08, respectively). Thus expression of each of several oncogenes induces resistance to gamma irradiation at 5 cGy/min in hematopoietic and fibroblast cell lines. These data may help explain the clinical recurrence of oncogene-expressing leukemia and lymphoma cells after marrow stem cell ablative doses of low-dose-rate total-body irradiation.     

The estimation of molecular and cytogenetic effects in mice exposed to chronic low dose gamma-radiation

Molecular and cytogenetic parameters were estimated in male CBA/lac mice exposed to chronic low dose-rate gamma-radiation (62 cGy/year) for 40, 80, 120, 210, and 365 days. After 40 days of exposure (6.7 cGy), spleen lymphocyte susceptibility to hydrogen peroxide was shown to increase. However, beginning from the day 120 of the treatment (20.4 cGy), the opposite effect was observed. An increase in number of the DNA-protein crosslinks was recorded in spleen lymphocytes only on day 40 of the experiment. The number of DNA breaks increased significantly beginning from day 120 of the experiment, as shown by the DNA-comet method. On the day 210 of irradiation, the frequency of abnormal sperm heads in the mice significantly increased. The number of normochromatic micronucleated erythrocytes of the peripheral blood remained unchanged.     

The relative biological effectiveness of low doses of 14 MeV neutrons in steady-state murine spermatogenesis as determined by flow cytometry

The relative biological effectiveness of 14 MeV neutrons in the low-dose range < or =1 Gy has been determined in differentiating and differentiated spermatogonia. Male NMRI mice were exposed to single doses of 2 cGy to 3 Gy of (60)Co gamma rays or neutrons. The ratios of testicular S-phase cells, 4c primary spermatocytes, and elongated spermatids were quantified by DNA flow cytometry 2 to 70 days after irradiation and were found to decrease. Histological samples and testis weight were analyzed in parallel. Doses of 2-5 cGy neutrons and 10-50 cGy gamma rays significantly (P<0.05) decreased the proportions of S-phase cells, spermatocytes and elongated spermatids at 4, 14 and 28 days postirradiation. For S-phase cells, the biphasic shape of the cell survival curves was described with a D(50) of 5 cGy neutrons. The D(50) for (60)Co gamma rays and the relative biological effectiveness could not be determined. The relative biological effectiveness of neutrons at 50% reductions of testis weight, primary spermatocytes, and elongated spermatids were 2.5, 10.0 and 6.1, respectively. This in vivo assay is interesting because of its sensitivity at dose ranges that are relevant for exposures in the environment, the workplace and radiotherapy.     

Effect of continuous irradiation with a very low dose of gamma rays on life span and the immune system in SJL mice prone to B-cell lymphoma

Ionizing radiation has been shown to have dose- and dose-rate-dependent carcinogenic effects on the hematopoietic and lymphoreticular systems. We report here that continuous exposure to a low dose of gamma rays influences the course of spontaneous B-cell lymphoma in SJL mice. We studied the biological effects of 10 cGy year(-1) gamma rays on the life span of 560 4-week-old SJL/J female mice and on various parameters of the cell-mediated immune response. Life span was slightly prolonged. The mean survival was 397 days for controls and 417 days for irradiated mice that died with lymphoma (P = 0.34). In lymph nodes and spleen, lower percentages of CD4+ and CD8+ T cells were observed in irradiated mice before 32 weeks. Interestingly, the percentages of CD49+ NK cells were increased in the spleens of irradiated mice at 28 weeks (0.61 +/- 0.08% compared to 0.43 +/- 0.12% in controls, P = 0.01) and at 32 weeks (0.62 +/- 0.24% compared to 0.33 +/- 0.09%, P = 0.02), while NK cell activity remained unchanged in exposed mice. These results provide further support for the absence of harmful effects of a continuous very low dose of radiation on life span and incidence of lymphoma in SJL mice.     

The role of antioxidative status in development of the consequences of biological action under low dose and low intensity irradiation

The scale and direction of changes of a number of biophysical, biochemical and physiological parameters in SHK mice (male) tissues were studied depending on their initial values for mice control groups within 1 day after low intensity gamma-irradiation (15 cGy). The reciprocal dependences between the scales of the lipid antioxidative activity (AOA) in brain or the spleen mass changes and their values for mice control groups were found. The external dependences were revealed between the amounts of lipid peroxidation secondary products in spleen, liver and blood plasma of the control mice and a scale of their change after irradiation. The most substantial changes of this parameter were observed in blood plasma and the changes of the phospholipid content within the total lipid composition were found in spleen and blood erythrocytes of the irradiated mice, that is in the lipids of tissues, which had the lowest level of AOA for mice control groups. The experimental data obtained indicate that the initial antioxidant status of animal tissues plays the important role for the development of consequences of the biological action under low dose and low intensity irradiation.     

Induction of stress genes by low doses of gamma rays.

Using cells of a human myeloid tumor cell line (ML-1), we have detected induction of several stress-responsive genes by doses of gamma rays below 50 cGy. We found a linear dose-response relationship for induction of CDKN1A (formerly known as CIP1/WAF1) and GADD45 mRNA levels over the range of 2-50 cGy, with no evidence of a threshold for induction. Although exposures to 2 and 5 cGy did not result in any detectable reduction in cloning efficiency or increased apoptosis in ML-1 cells, these exposures did produce a transient delay of cells in the phases of the cell cycle in addition to the observed up-regulation of CDKN1A and GADD45. The relative induction of genes such as CDKN1A by radiation doses that produce little toxicity indicates that surviving cells do contribute significantly to the observed stress responses. These studies should provide insight into the molecular responses to physiologically relevant doses that cannot necessarily be extrapolated from high-dose studies.     

Effect of low doses of ionizing irradiation on viability of cortical thymocytes

The cortical thymocytes of rats in whole organism, isolated lobes of thymus and cells suspension were exposed to ionizing radiation in a wide range of doses (0.1-200 cGy). In contrast to relatively high dose radiation (50-200 cGy), exposure to doses of 10 cGy resulted in cell death without DNA degradation. The level of doses lower than 10 cGy (0.5-5 cGy) induced thymocyte death which is independent of DNA degradation, RNA and protein synthesis. With decrease in radiation dose, the increase of latent period preceding cell death took place.     

Carcinogenesis in laboratory mice after low doses of ionizing radiation

Experimental data on the incidence of solid tumors from various long-term mouse studies performed at the Casaccia laboratories over several years were reconsidered, limiting the analysis to the results available for doses equal to or less than 17 cGy of neutrons and 32 cGy of X rays since these dose limits are reasonably close to the generally accepted low-dose levels for high- and low-LET radiation (i.e. D(high-LET) < 5 cGy and D(low-LET) < 20 cGy, respectively). The following long-term experiments with BC3F1 mice were reviewed: (a) females treated with single doses of 1.5 MeV neutrons or 250 kVp X rays, (b) males treated with fractionated doses of fission neutrons, and (c) mice of both sexes irradiated in utero 17.5 days post coitus with single doses of fission neutrons or X rays. An experiment with CBA mice of both sexes treated with single doses of fission neutrons was also included in this study. Analysis was done on animals at risk; thus all incidences of tumor-bearing animals were expressed as the percentage excess incidence with respect to the controls. Ovarian tumors and other solid neoplasms were considered. The percentage frequencies and mean survival times of tumor-free mice were also recalculated. The results indicate the existence of a region at low doses where the final incidence of solid neoplasms is indistinguishable from the background incidence. These data reinforce the idea that at low doses the effectiveness of ionizing radiation in inducing solid neoplasms in laboratory mice is very low.     

The immunity indices of rats after the long-term action of tritium oxide or gamma irradiation

In experiments with Wistar rats, a study was made of the content of antibody-forming cells and cytotoxic activity of normal killers after long-term administration of tritium oxide (3HOH) (370 kBq.g-1 of body mass daily, cumulative dose, 8.1 Gy, and dose rate, 8.5 cGy/day), and after gamma irradiation with corresponding doses. The long-term radiation effect caused a decrease in the immunity indices: the impairment of the immune reactions was more pronounced after the effect of 3HOH than after gamma irradiation. Damages to the immune system of mice and rats after irradiation with similar doses were compared.     

Proliferative characteristics of clonal endothelial cell strains

We have utilized clonal strains of bovine fetal aortic endothelial cells to study cellular senescence in a differentiated cell type of physiological significance. Serial subcultivation of nine endothelial clones derived from three fetal calf aortas revealed proliferative life-spans in vitro of 53–125 population doublings (PDs), compared with 60 and 143 PDs for two lines of bovine fetal lung cells and 85 and 147 PDs for two lines of bovine vascular smooth muscle cells. Serial growth curves showed marked reductions associated with endothelial cellular senescence both in cellular growth rate and culture plateau density. Studies of the 24-hour [³H]-thymidine labeling index versus percentage of proliferative life-span completed indicated that clonal endothelial cultures contained a large proportion (greater than 90%) of rapidly cycling cells until about 75% of the life-spans were completed. Senescent endothelial cells showed evidence of large increases in cell area, cell volume, and protein content. In those clones examined, one specialized endothelial function, Factor VIII antigen expression, was retained qualitatively throughout the life-spans.     

Marsupial cells in long-term culture

Cell lines have been developed from several species of Australian marsupials and studied during long-term growth. Cell lines developed from macropodid skin or heart tissues all had reproducible finite life-spans. However, cell lines developed from dasyurids showed bariable behavior in culture: lines developed from Antechinus stuartii and Dasyurus viverrinus had finite life-spans, while lines developed from Sminthopsis crassicaudata had indefinite life-spans. S. crassicaudata lines usually became heteroplloid, but one was still diploid after 150 population doublings, while another contained a proportion (10%) of haploid cells. Other lines were developed from the peramelid, Perameles nasuta, and the phanlngerid, Trichosurus vulpecula.     

Aspects of the adaptive response to very low doses of radiation and other agents

When human lymphocytes and other cells are pre-exposed to very low doses of ionizing radiation and subsequently exposed to a high dose, less genetic damage, i.e., fewer chromosome aberrations, is found than is observed in cells that had not been pre-exposed. This has been termed the adaptive response and has been attributed to the induction of a repair mechanism by the low dose exposure. Several experiments have now been carried out on this adaptive response to better characterize the phenomenon. (A) Experiments with differential display of mRNAs indicate that human lymphocytes exposed to 2 cGy of X-rays have somewhat different mRNAs expressed than do unexposed cells. This is providing access to DNA that might be involved in adaptation. (B) Other experiments with embryonic cells from transgenic mice that are deficient in superoxide dismutase (SOD) have shown that the adaptive response is unrelated to the amount of SOD in the cells, and thus is independent of superoxide radicals. (C) Experiments in which very low doses of various restriction enzymes were electroporated into human lymphocytes have shown that low levels of double-strand DNA breaks alone are able to induce the adaptive response. (D) Experiments in which human male lymphocytes (XY chromosome constitution) and human female lymphocytes (XX chromosome constitution) were cocultivated have shown that adaptation is not caused by a change in the rate of cell progression to mitosis after a challenge dose, and is a further indication that cell stage sensitivity is not a factor in the adaptive response.     

Elevated sodium chloride concentrations enhance the bystander effects induced by low dose alpha-particle irradiation

Previous studies have shown that high NaCl can be genotoxic, either alone or combined with irradiation. However, little is known about the relationship between environmental NaCl at elevated conditions and radiation-induced bystander effects (RIBE). RIBE, which has been considered as non-targeted bystander responses, has been demonstrated to occur widely in various cell lines. In the present study, RIBE under the elevated NaCl culture condition was assessed in AG 1522 cells by both the induction of gamma-H2AX, a reliable marker of DNA double-strand break (DSB) for the early process (<1h post irradiation), and the generation of micronuclei (MN), a sensitive marker for relative long process of RIBE. Our results showed that in the absence of irradiation, NaCl at elevated concentration such as 8.0, 9.0 and 10.0g/L did not significantly increase the frequency of gamma-H2AX foci-positive cells and the number of foci per positive cell comparing with that NaCl at a normal concentration (6.8g/L). However, with 0.2cGy alpha-particle irradiation, the induced fraction of gamma-H2AX foci-positive cells and the number of induced gamma-H2AX foci per positive cell were significantly increased in both irradiated and adjacent non-irradiated regions. Similarly, the induction of MN by 0.2cGy alpha-particle irradiation also increased with the elevated NaCl concentrations. With N(G)-methyl-l-arginine, an inhibitor of nitric oxide synthase, the induced fraction of foci-positive cells was effectively inhibited both in 0.2cGy alpha-particle irradiated and adjacent non-irradiated regions under either normal or elevated NaCl conditions. These results suggested that the cultures with elevated NaCl medium magnified the damage effects induced by the low dose alpha-particle irradiation and nitric oxide generated by irradiation was also very important in this process.