Characteristics of the post-radiation reaction of hematopoietic tissue with adrenaline use

It was shown that the administration of adrenaline before or after X-irradiation intensified the recovery of mouse haemopoiesis. When adrenaline was administered before irradiation the survival of CFUs (endo- and exo-tests) increased and the bone marrow cellularity and the spleen weight were restored more rapidly than those of the controls. With adrenaline administered after irradiation, the survival of endo-CFUs increased, the bone marrow cellularity was restored and the spleen weight increased.     

In vivo synergistic effect of the immunomodulator AS101 and the PKC inducer bryostatin.

The immunomodulator AS101 has recently been found to have radioprotective properties when injected prior to sublethal and lethal doses of irradiation. In addition, this compound was found to protect mice from hemopoietic damage caused by sublethal doses of cyclophosphamide (CYP) and to increase the rate of survival of mice treated with lethal doses of CYP. AS101 was previously shown to exert a synergistic effect with the PKC-inducer bryostatin in cytokine secretion in vitro. The present studies were designed to evaluate the effects of in vivo combined treatment with AS101 and bryostatin on bone marrow and spleen cellularity and on the number of committed progenitors in the bone marrow at various points of time after their treatment with a sublethal dose of CYP or irradiation. In addition, the combined effect was tested on the survival of mice irradiated with a lethal dose of irradiation. Our data show the presence of synergism which greatly enhances the number of bone marrow and spleen cells 48 hr and 9 days after CYP treatment or irradiation. The combined effect was also demonstrated when bone marrow colony-forming units granulocyte-macrophage (CFU-GM) progenitor cells were evaluated. Moreover, AS101 and bryostatin synergized in their protective effects against lethal damages of irradiation. These results strongly suggest that bryostatin, which lacks tumor-promoting activity, is a particularly good candidate in combination with AS101 for treatment in vivo in counteracting chemotherapy- or radiation-induced hematopoietic suppression or in generally improving the restoration of immune response under conditions involving immune or hemopoietic damage.     

Radioprotection of mice with interleukin-1: relationship to the number of spleen colony-forming units

Compared to saline-injected mice 9 days after 6.5 Gy irradiation, there were twofold more Day 8 spleen colony-forming units (CFU-S) per femur and per spleen from B6D2F1 mice administered a radioprotective dose of human recombinant interleukin-1-alpha (rIL-1) 20 h prior to their irradiation. Studies in the present report compared the numbers of CFU-S in nonirradiated mice 20 h after saline or rIL-1 injection. Prior to irradiation, the number of Day 8 CFU-S was not significantly different in the bone marrow or spleens from saline-injected mice and rIL-1-injected mice. Also, in the bone marrow, the number of Day 12 CFU-S was similar for both groups of mice. Similar seeding efficiencies for CFU-S and percentage of CFU-S in S phase of the cell cycle provided further evidence that rIL-1 injection did not increase the number of CFU-S prior to irradiation. In a marrow repopulation assay, cellularity as well as the number of erythroid colony-forming units, erythroid burst-forming units, and granulocyte-macrophage colony-forming cells per femur of lethally irradiated mice were not increased in recipient mice of donor cells from rIL-1-injected mice. These results demonstrated that a twofold increase in the number of CFU-S at the time of irradiation was not necessary for the earlier recovery of CFU-S observed in mice irradiated with sublethal doses of radiation 20 h after rIL-1 injection.     

Survival of irradiated animals and the preservation of CFUs after the administration of various radioprotectors

The comparative data are presented concerning the 30-day restoration of the bone marrow cellularity and the number of endogenous colonies in the spleen of the control animals and of those treated with the radioprotective agents after irradiation with doses from 4.5 to 8.1 Gy. There was a good agreement between the results of studies in the integrity of the haemopoietic system on day 9 after irradiation and the 30-day survival of animals.     

Effect of autologous blood irradiated in isolation on the restoration of leukopoiesis in an experimental model of prolonged leukopenia

Reinfusion of irradiated (220 Gy) isolated blood (IIB) was shown to accelerate leukopoiesis restoration in conditions of myelodepression induced by the injection of cyclophosphane. Restoration of leucocyte count in the peripheral blood was preceded by the increase in DNA synthesis and bone marrow cellularity. Reinfusion of IIB also promoted a more rapid restoration of cellularity of lymphoid organs with cAMP predominating therein. The comparison of the processes under study in time permits to assume that the stimulatory effect of IIB is related to activation of proliferation and stimulation of cell maturing in bone marrow and lymphoid organs.     

Effect of choline on the DNA supramolecular complex in rats and their survival following gamma irradiation

The injection of choline-chloride (200 mg/kg) to rats 15 min before 6 Gy irradiation was shown to increase their survival rate over a period of 30 days, to prolong their average life, and to promote the complete restoration of elastoviscosity of DNA supramolecular complexes in thymus, spleen, liver and brain. When administered immediately after irradiation the drug increased the survival rate of rats.     

DNA replication in mammalian cells after the action of physical, chemical or biological factors. VI. The recovery of DNA synthesis in a culture of irradiated cells

The kinetics of DNA synthesis restoration in cultured HeLa cells and in L-929 mouse fibroblasts irradiated by gamma-rays of 60Co with a dose of 10 Gy was studied. Early after irradiation the rate of DNA synthesis in HeLa cells measured with 3H-thymidine incorporation was seen to decrease. Two hours later the incorporation starts to increase to reach the control level 4 hours after irradiation and then becomes even higher than this level. The distribution of cells among phases of the cell cycle measured with flow cytometry undergoes changes. 4-6 hours after irradiation part of S-phase cells increased contributing presumably to the elevating of 3H-thymidine incorporation observed at this time. The restoration of the incorporation was suppressed by inhibitors of protein and RNA synthesis--cycloheximide and actinomycin D. It is suggested that the processes of restoration of DNA synthesis in irradiated cells can be of inducible nature. In irradiated HeLa and L-929 cells the restoration of DNA synthesis is resistant to novobiocin, an inhibitor of DNA replication.     

Kinetics of the main sections of the hematopoietic system in the process of postradiational regeneration]

After a sublethal (200 rad) irradiation of mice there occurred during the first 24 hours in the bone marrow a marked reduction of the number of the stem (to 4%), committed precursors of granulocytes and macrophages (to 20%) and of the morphologically-identified cells (to 50%). Complete restoration of hemopoiesis was observed by the end of the 2 weeks after the irradiation and was primarily due to the exponential growth of the number of the stem cells and their intensified proliferation. An increase in the number of the committed precursors was retarded to the moment of restoration of the normal amount of cells in the bone marrow.     

The action of the tumor necrosis factor (TNF) on the recovery processes of hemopoietic colony-forming cells in irradiated mice

The influence of a tumor-necrotic factor (TNF) on the CFUs population has been studied normally and after irradiation. An inhibitory effect on the pool of the seven-day and doubling of the yield of the eleven-day colonies have been observed in mice received TNF 20 h before bone marrow removal as compared with the controls. The kinetics of restoration of bone marrow cellularity and CFUs number in mouse donors treated with TNF 20 h before irradiation (5.0 Gy) has demonstrated the stimulatory effect of the agent on both indices.     

The influence of IL-1 treatment on the reconstitution of the hemopoietic and immune systems after sublethal radiation

The influence of IL-1 administration on the recovery of the hemopoietic and immune systems from sublethal irradiation was assessed. Mice were irradiated (750 R) and injected twice daily with purified recombinant derived IL-1 beta (200 ng/injection). At various times after irradiation, the functional capacity of the hemopoietic and immune systems was determined. It was found that IL-1 therapy resulted in a significantly greater number of granulocyte-macrophage-CSF responsive colony-forming cells in the bone marrow of the irradiated mice on days 5 and 11 postirradiation but not at later times. In addition the radiation induced neutropenia recovered quicker in the IL-1-treated mice with significantly greater numbers of peripheral blood granulocytes being seen on days 15 and 20 after irradiation. The influence of IL-1 therapy on the recovery of the immune system was also assessed. Of note was the observation that mice receiving IL-1 therapy had chronically hypoplastic thymi. Although thymic cellularity increased with time after irradiation in the control mice, there was no such increase in the IL-1-treated mice. Similarly, the number of pre-B cells in the marrow of these mice was also diminished. Thus, in the IL-1-treated mice the regeneration of the peripheral immune function was retarded, characterized by a general lymphopenia and decreased splenic responses to mitogenic stimuli.     

Effectiveness of correcting radiation injuries of the thymic endocrine function by T-activin in conditions of reduced postradiation hypercorticism reaction]

T-activin administered to rats after exposure to whole-body 1.5 Gy neutron- and 6 Gy X-radiation increases considerably the thymosin-like serum activity, accelerates cellularity restoration in the thymus and spleen, but does not influence the survival rate. Ionol administered prior to X-irradiation reduces the postirradiation hypercorticism reaction and the indirect effect of radiation on lymphoid organs which it is responsible for. The combined injection of ionol and T-activin increases the thymosin-like serum activity and spleen cellularity to the highest possible level and increases the survival rate of rats from 24 to 64 per cent and the lifespan up to 6 days.     

The role of the hemopoietic microenvironment on the hemopoiesis-stimulating effect of cystamine

The influence of cystamine delivered in a radioprotective dose before and after irradiation of mouse-recipients (8 Gy) on the effectiveness of exogenous bone marrow cloning has been investigated. Cystamine administered prior to irradiation exerts a protective effect on CFUs and also causes an increase in the number of splenic colonies grown from CFUs of the transplanted bone marrow. With cystamine administered after irradiation the protective effect is absent, but the CFUs number in the femur increases in recipients transplanted with intact bone marrow in comparison with those transplanted without cystamine. It is believed, that in addition to the specific protective mechanism of action of radioprotectors, there is a nonspecific mechanism of increasing the proliferation of protected stem cells that is connected with the stimulatory effect of radioprotective agents on the haemopoietic stroma elements.     

The antiradiation properties of betamide under conditions of sublethal and lethal gamma irradiation]

Bone marrow cellularity in the femur, mass and cellularity of the spleen and small intestine, and nucleic acid concentration in the leukocyte mass of blood were investigated after the intraperitoneal administration of betamide (500 mg/kg) 15 min before gamma irradiation of mice with doses of 4, 7 and 9 Gy. The number of myelokaryocytes and splenocytes in the protected animals was shown to exceed considerably that in the controls on days 3 and 9 after irradiation with the three doses. With betamide injected on day 9 following irradiation the number of nucleated cells of the small intestine was larger and the nucleic acid concentration in leukocytes higher than the same indices in the irradiated control.     

Flavobion and thioctacid lessen irradiation-induced latent injury of the liver]

The effect of hepatoprotective drugs (flavobion and thioctacid) and a single whole-body irradiation (5.7 Gy of gamma radiation) on the regeneration of rat liver was examined. Liver regeneration was estimated on the basis of chosen morphological parameters on hour 30 after partial hepatectomy. Radiation-induced latent injury to intact rat liver 30 min before partial hepatectomy manifested in remaining regenerating liver by slowing-down of the increase in liver weight, cellularity and inhibition of the mitotic activity and in more frequent chromosome aberrations. Both hepatoprotective agents, especially thioctacid, used i.p. 60 min before irradiation, i.e. 90 min before partial hepatectomy, alleviate the manifestations of latent injury in this low proliferating organ as indicated by an increase in cellularity and mitotic index as compared with unprotected animals. Furthermore, the preparations tested decreased the frequency of radiation-induced chromosome aberrations.     

Relation between the radiation sensitivity of the rat thymus and the subpopulation composition of its lymphocytes

The administration to rats of Freund adjuvant and conditions of their keeping in the autumn time reduce the mass and cellularity of the thymus and inhibit cell proliferation therein, the content of lymphocytes with high buoyant density being relatively increased. The indicated changes are accompanied by a two-fold increase in the death rate of thymus cells both after irradiation of rats and following four-hour incubation.     

Short- and long-term effects of whole-body irradiation with fission neutrons or X rays on the thymus in CBA mice

Young adult (6 weeks old) female CBA mice were exposed to whole-body irradiation with either 2.5-Gy fast fission neutrons of 1 MeV mean energy or 6.0-Gy 300 kVp X rays at centerline dose rates of 0.1 and 0.3 Gy/min, respectively. The weight of spleen and animal and the weight, cellularity, and histological structure of the thymus were studied at different times after irradiation. Thymic recovery after whole-body irradiation showed a biphasic pattern with minima at 5 and 21 days after irradiation and peaks of regeneration at Days 14 and 42 after X irradiation or at Days 14 and 70 after neutron irradiation. After the second phase of recovery, a marked decrease in relative thymus weight and cellularity was observed, which lasted up to at least 250 days after irradiation. Splenic recovery showed a monophasic pattern with an overshoot on Day 21 after irradiation. After neutron irradiation a late decrease in relative spleen and animal weight was observed. The observed late effects on thymus and spleen weight and thymus cellularity are discussed in terms of a persistent defect in the bone marrow.     

Radioprotective effects of the immunomodulator AS101

Ammonium trichloro(dioxyethylene-O-O')tellurate (AS101) is a new synthetic compound previously described by us as having immunomodulating properties and minimal toxicity. Clinical trials are currently in progress with AS101 on AIDS and cancer patients. We found that AS101 was capable of inducing spleen cells and peritoneal exudate cells to secrete high quantities of CSF and IL-1. Because IL-1 has been previously described as a radioprotector and CSF may induce in vivo the proliferation of hemopoietic cells, we designed the present study in order to evaluate the effects of prolonged in vivo injections of AS101 on protection against lethal doses of irradiation, on the recovery pattern of precursor cells, and on the functioning of bone marrow (BM) and spleen cells of mice undergoing sublethal doses of treatment. We demonstrate that pretreatment with AS101 protects mice from lethal effects of ionizing radiation. AS101 was also found to significantly increase the number of BM and spleen cells, the absolute number of granulocyte macrophage-CFU and the secretion of CSF by BM cells. All were tested 9 days after sublethal dose of irradiation was administered. AS101 was found to have all of these radioprotective effects only when administered to mice before irradiation treatment. Moreover, the compound was found to enhance the proportion of CFU-S that enters the S phase of the cell cycle. These findings indicate that AS101 may be a promising agent to be used in reducing the time needed for reconstitution of hemopoietic cells after irradiation treatment.     

The early decrease in the endothelial cells of the cerebral vessels of rats after local irradiation

Possible causes of diminution of endothelial cells of rat brain vessels immediately after local irradiation have been investigated. It has been shown that the diminution occurs during the first 24 h following irradiation, its value (-15%) being independent of radiation dose within a wide range (from 5 to 100 Gy), and the cellularity is not restored during the subsequent two weeks of observation. Interphase death of part of cells distinguished by high radiosensitivity seems to be the most probable reason for the population heterogeneity observed.     

Dynamics of changes in the cellularity of the vascular endothelium in the brain of rats following local irradiation

Dynamics of changes in endothelium cellularity of rat brain vessels was studied during 12 months following local irradiation with a dose of 25 Gy that approximated the therapeutic one by its efficacy. A 15 per cent decrease in the endothelium cellularity was registered 24 h after irradiation followed by a slow 40 per cent depletion of the population at a constant rate up to the 6th month. By month 10 the cellularity was restored and after 12 months it dropped again drastically.     

In vivo administration of IL-1 induces thymic hypoplasia and increased levels of serum corticosterone

Administration of IL-1 alpha or IL-1 beta to normal mice induces a decrease in thymic cellularity, the magnitude of which depends on the number of injections and dose of IL-1. Twice daily injections of 200 ng of IL-1 alpha or -beta for 4 days results in a 90% decrease in thymic cellularity, which regenerated after cessation of treatment. Study of thymocyte subpopulations revealed that the number of CD4+/CD8+ thymocytes was dramatically decreased in IL-1-treated mice. Functional assessment of the CD4-/CD8- population from treated animals showed that these cells had adequate mitogenic responses in vitro and that the proportion of these cells in cycle was not different from control CD4-/CD8- cells. IL-1 treatment also prevented the regeneration of thymic cellularity after irradiation. The use of strains of mice differing genetically at the Ly 1 locus to construct radiation bone marrow chimeras demonstrated that bone marrow-derived thymocyte precursors were able to seed the thymus in the IL-1-treated animals. Again, however, the CD4+/CD8+ thymocyte population was significantly decreased. Thymic repopulation occurred upon cessation of IL-1 therapy. Finally, we determined that a single i.p. injection of IL-1 caused a three-fold increase in serum corticosterone levels, which peaked approximately 3 h after IL-1 administration. Thus, an IL-1-dependent increase in serum corticosterone levels may be responsible for the observed thymic hypoplasia.