Long-term effects of negative pions in female mice exposed to whole-body irradiation

Summary Long-term effects, especially the incidence of tumors, of whole-body exposure of female NMRI mice with either negative pions (peak or plateau region) or X rays have been studied in comparison to controls. Animals were irradiated at the age of 10 days after birth. The mice were then regularly examined for deaths and signs of severe disease, moribund animals being killed. A detailed histopathological work-up has been performed. The data show that the survival as defined by death or the time of autopsy is significantly lower in irradiated mice in comparison to controls, that there is no difference in reduction of survival between groups treated either with X rays or pions at peak region, but that a difference can be seen when comparing X rays with pions at plateau region. The incidence of ovarian tumors at any particular age is higher in mice treated with X rays or pions than in control groups, but significantly lower in animals exposed to plateau pions than in those treated with peak pions or X rays.     

Changes in the resistance of mice to whole-body lethal irradiation after local irradiation of the abdominal area

The resistance of mice to whole-body irradiation with lethal doses, after preirradiation of part of the abdomen, was studied with a reference to radiation dose, the volume of local exposure, and the interval between exposures. The radioresistance was found to increase when the preirradiated zone corresponded to the spleen projection, the interval between exposures was 3-7 days, and the dose of local exposure, 2 Gy.     

Purine metabolizing enzyme activities in radiosensitive tissues of mice after sublethal whole-body irradiation

The activities of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) were determined between days 1-14 in the spleen, thymus and femoral bone marrow of mice subjected to whole-body gama irradiation with a dose of 5.5 Gy. In control animals, the highest activity of ADA (as related to 10(6) cells) was recorded in the thymus (58.9 pmol.s-1), the lowest one in the femur (34.8 pmol.s-1), the PNP activity was the lowest in the thymus (14.5 pmol.s-1) and the highest in the femur (96.0 pmol.s-1). In the spleen, an elevation of ADA activity (up to 379%) was observed during the first postirradiation days; PNP activity was reduced (to 58%) on postirradiation day 3, followed by the return and even elevation on day 14 (265%). In the thymus, a parallel reduction of the activities of both enzymes appeared during the first postirradiation days, with a subsequent increase during the regeneration phase. In the femoral bone marrow, ADA and PNP activities were increased on postirradiation day 1 (275% and 201%, respectively). Reference is made to the possible relationship between the observed characteristic changes in activities and the degree of damage and/or renewal of cell population in the hemopoietic tissues after irradiation.     

Early increase in osteoclast number in mice after whole-body irradiation with 2 Gy X rays

Willey, J. S., Lloyd, S. A. J., Robbins, M. E., Bourland, J. D., Smith-Sielicki, H., Bowman, L. C., Norrdin, R. W. and Bateman, T. A. Early Increase in Osteoclast Number in Mice after Whole-Body Irradiation with 2 Gy X Rays. Radiat. Res. 170, 388-392 (2008).Bone loss is a consequence of exposure to high-dose radiotherapy. While damage to bone vasculature and reduced proliferation of bone-forming osteoblasts has been implicated in this process, the effect of radiation on the number and activity of bone-resorbing osteoclasts has not been characterized. In this study, we exposed mice to a whole-body dose of 2 Gy of X rays to quantify the early effects of radiation on osteoclasts and bone structural properties. Female C57BL/6 mice (13 weeks old) were divided into two groups: irradiated and nonirradiated controls. Animals were killed humanely 3 days after radiation exposure. Analysis of serum chemistry revealed a 14% increase in the concentration of tartrate resistant acid phosphatase (TRAP)-5b, a marker of osteoclast activity, in irradiated mice (P < 0.05). Osteoclast number (+44%; P < 0.05) and osteoclast surface (+213%; P < 0.001) were elevated in TRAP-stained histological sections of tibial metaphyses. No significant change was observed in osteoblast surface or osteocalcin concentration or in trabecular microarchitecture (i.e. bone volume fraction) as measured through microcomputed tomography (P > 0.05). This study provides definitive, quantitative evidence of an early, radiation-induced increase in osteoclast activity and number. Osteoclastic bone resorption may represent a contributor to bone atrophy observed after therapeutic irradiation.     

The persistence of lymphocytes with dicentric chromosomes following whole-body X irradiation of mice

Thirty-six male C57B1/6 mice were X-irradiated whole body with 3 Gy to generate lymphocytes with dicentric chromosomes to study the persistence of these lymphocytes in the spleen and peripheral blood to estimate the life span of mature B- and T-cells. Peripheral blood and spleen were removed from groups of four mice immediately after radiation exposure and on Days 1, 3, 7, 14, 28, 56, and 112 thereafter. Peripheral blood lymphocytes were cultured with phytohemagglutinin to stimulate T-cell division, and splenic lymphocytes were cultured with either lipopolysaccharide or phytohemagglutinin to stimulate B- or T-cell division, respectively. The initial frequencies of dicentric chromosomes with accompanying fragments observed in splenic T-cells (0.44), splenic B-cells (0.43), and peripheral blood lymphocyte cultures (0.48) initiated on Day 0 were not significantly different. For both splenic and peripheral blood T-lymphocytes, the frequency of cells containing dicentric chromosomes declined in an exponential manner following irradiation, with a 50% reduction in frequency occurring 14 days after exposure. In contrast, the frequency of B-cells containing dicentric chromosomes remained stable through Day 7 but then declined precipitously between Day 7 and Day 14 and remained relatively stable, although slightly above baseline, through Day 112 post-exposure. For both B- and T-cells, less than 5% of the cells contained a dicentric chromosome with accompanying fragments at Day 112. These data indicate that B- and T-lymphocytes with dicentric chromosomes show different decay kinetics and suggest that they may possess different life spans.     

Melatonin reduces oxidative damage and increases survival of mice infected with Schistosoma mansoni

The tropical parasite Schistosoma mansoni causes granulomatous inflammation after its eggs lodge in hepatic portal capillaries. In vitro studies indicate that the host's response involves the production of reactive oxygen species, although whether this occurs in vivo at the site of the infection is unknown. The role of oxidative processes in mice infected with S. mansoni was investigated in the current study using the antioxidant melatonin. In Experiment 1, the survival rate of infected mice with and without daily melatonin (10 mg/kg) administration was determined. After 56 d, 25 of 25 infected mice that were diluent treated had died. In contrast, 22 or 25 infected mice (88%) given melatonin were still alive at 56 d. Of these 22 surviving mice, melatonin injections were continued in 11 while the 11 others were switched to diluent. Within 10 d, 11 of 11 diluent-injected mice that were infected with S. mansoni were dead while 6 of 11 melatonin-treated mice survived. In Experiment 2, S. mansoni-infected mice were treated for 30 d with either melatonin or diluent. Uninfected, untreated mice served as controls. In these mice, the levels of lipid peroxidation (LPO) products, vitamin E, nitric oxide (NO), glutathione (GSH), and superoxide dismutase (SOD) activity in the liver, kidney, and spleen were measured. In the serum, cholesterol levels and liver damage (alkaline phosphatase (ALP), aspartate transaminases (AST), total protein, and albumin) were monitored. In addition, peroxynitrite anion (ONOO(-)) in the liver and kidney and inducible nitric oxide synthase (iNOS) in the spleen were immunocytochemically localized. Also, histopathological changes in the liver, kidney, and spleen were examined. The results documented increased LPO and NO levels and decreased vitamin E, GSH, and SOD activity in the liver, kidney, and spleen of S. mansoni-infected mice. Also, there was an increase in serum cholesterol and evidence of liver damage in the infected mice. Immunohistochemical results indicated positive staining of ONOO(-) in the liver and kidney and positive iNOS staining in the spleen of S. mansoni-infected mice. Histopathological observations revealed granuloma formation in the liver with eosinophil infiltration, a large number of megakaryocytes in the spleen, and degeneration with necrotic cells in some tubules of the kidney cortex in the infected mice. Melatonin administration after S. mansoni infection prevented most of the previously described changes. These results suggest that oxidative processes occur at the site of inflammation and are involved in the damaging effects of schistosomiasis and indicate that free radicals may be a major component of the disease. Likewise, melatonin, presumably due to its antioxidant and free radical scavenging activity, is highly protective against the pathological changes associated with schistosomiasis.     

Interactions of drugs and radiation in haemopoietic tissue assessed by lethality of mice after whole-body irradiation

Drug-radiation interactions in haemopoietic tissue were assessed as the lethality of mice within 7-28 days after whole-body irradiation. The investigated drugs were adriamycin (ADM), bleomycin (BLM), cyclophosphamide (CTX), 5-fluorouracil (5-FU), methotrexate (MTX), mitomycin C (MM-C) and cis-diamminedichloroplatinum II (cis-DDP). The drugs were administered as single doses 15 min before graded doses of whole-body irradiation or at different intervals from 7 days before to 7 days after fixed radiation doses. ADM, CTX, 5-FU, MM-C and cis-DDP enhanced the radiation response when administered 15 min before irradiation. The dose effect factor (DEF) was 9.11 for 5-FU and in the range 1.25-1.59 for the other drugs. MTX administration 15 min before irradiation had no effect (DEF 1.00). However, MTX increased lethality if given 1-3 days after irradiation (DEF 1.21-1.76) and protected against lethality if given 1-3 days before irradiation (DEF 0.83). A similar time dependence was observed for ADM, CTX, 5-FU, MM-C and cis-DDP. Protection against lethality was not observed but in all these cases the lethality was significantly lower at administration 1-3 days before than 1-3 days after irradiation. A proper investigation of the effect of BLM was not possible as the combination of this drug and whole-body irradiation caused a high rate of gastrointestinal deaths.     

16,16-Dimethyl prostaglandin E2 increases survival in mice following irradiation

16,16-Dimethyl prostaglandin E2 (DiPGE2), a stable analog of PGE2, increases the LD50/30 survival in CD2F1 male mice when given prior to ionizing radiation. Subcutaneous administration of 40 micrograms of DiPGE2 30 min prior to 60Co gamma irradiation extends the LD50/30 from 9.39 Gy in the control animals to 16.14 Gy in DiPGE2 treated, with a dose reduction factor of 1.72 [95% confidence limits: 1.62, 1.82]. The degree of protection is dependent on both the time of administration and the dose of the prostaglandin. Ten micrograms administered 5 min prior to receiving a lethal dose of 10 Gy provides 90% survival but only 10% survival if administered 30 min prior to irradiation. Experiments to determine the in vivo concentration of DiPGE2 in organs postinjection show increased levels over time, but these are not correlated with protection. At 30 min after injection, as much as 80% of the DiPGE2 present in the spleen and plasma is unmetabolized. These results suggest that the protection results from the physiologic action of DiPGE2 rather than direct in vivo detoxification of radicals.     

The accumulation of lipid peroxidation products in the eye structures of mice under whole-body x-ray irradiation

In studying the effect of whole-body X-irradiation on the accumulation of lipid peroxidation products (conjugated dienes, TBA-active products, and Schiff bases) in retina and retinal pigmented epithelium of pigmented and nonpigmented mice it was shown that irradiation of dark-pigmented mice does not cause even a slight accumulation of lipid peroxidation products as compared to that in the controls. Albino mice exhibited a marked increase in the level of lipid peroxidation products which was manifested soon after irradiation and persisted for at least 3 months after irradiation. Melanine is suggested to participate in protecting eye structures against pro-oxidizing action of ionizing radiation.     

Transient infiltration of neutrophils into the thymus following whole-body X-ray irradiation in IL-10 knockout mice

IL-10 is known to suppress the inflammatory responses in a variety of experimental models. Because we previously found that whole-body X-irradiation causes massive apoptosis in the thymus and transient infiltration of neutrophils, in this study, we examined whether or not IL-10 is involved in the regulation of neutrophil infiltration upon whole-body X-ray irradiation using IL-10 knockout mice. Although IL-10 was induced in the thymus on whole-body X-ray irradiation, apoptosis of thymocytes, neutrophil infiltration, and MIP-2 and KC production in the thymus were not affected by an IL-10 deficiency. Coculturing of bone marrow-derived macrophages with late apoptotic cells caused MIP-2 production, which was also not affected by an IL-10 deficiency. These results suggest the uniqueness of the inflammatory response induced by whole-body X-ray irradiation, which does not seem to be regulated by IL-10.