Diverse delayed effects in human lymphoblastoid cells surviving exposure to high-LET (56)Fe particles or low-LET (137)Cs gamma radiation

To obtain information on the origin of radiation-induced genomic instability, we characterized a total of 166 clones that survived exposure to (56)Fe particles or (137)Cs gamma radiation, isolated approximately 36 generations after exposure, along with their respective control clones. Cytogenetic aberrations, growth alterations, responses to a second irradiation, and mutant frequencies at the Na(+)/K(+) ATPase and thymidine kinase loci were determined. A greater percentage of clones that survived exposure to (56)Fe particles exhibited instability (defined as clones showing one or more outlying characteristics) than in the case of those that survived gamma irradiation. The phenotypes of the unstable clones that survived exposure to (56)Fe particles were also qualitatively different from those of the clones that survived gamma irradiation. A greater percentage (20%) of the unstable clones that survived gamma irradiation than those that survived exposure to (56)Fe particles (4%) showed an altered response to the second irradiation, while an increase in the percentage of clones that had an outlying frequency of ouabain-resistant and thymidine kinase mutants was more evident in the clones exposed to (56)Fe particles than in those exposed to gamma rays. Growth alterations and increases in dicentric chromosomes were found only in clones with more than one alteration. These results underscore the complex nature of genomic instability and the likelihood that radiation-induced genomic instability arises from different original events.     

Cytogenetic study of the bone marrow and peripheral blood lymphocytes in monkeys in long-term gamma irradiation

A comparative study of chromosome structures of bone marrow and peripheral blood cells has been carried out in 8 rhesus macaques (2-7 years of age), 4 of which survived after prolonged low-capacity (3.87 microA/kg) gamma irradiation, the total dose being 7.97 Gy (LD50/60). It has been established that prolonged low-capacity gamma irradiation was of a high mutagenic activity. Various tissues of irradiated monkeys showed differences in the frequency (4 months) and types (4-33 months) of aberrations within the period of 4 to 33 months following irradiation. Mutagenic effect characteristic of the early period after the irradiation was retained in the peripheral blood of irradiated monkeys within the period of observation.     

Radiomodifying effect of serotonin on the cells of the hematopoietic system

Mice were injected with serotonin (0.5 and 2.0 mg/mouse) 15 min before and immediately after irradiation (4.5 and 7.0 Gy). With the preparation administered prior to irradiation one could observe an increase in the quantity of CFUc survived (endo- and exo-test), acceleration of restoration of cellularity (in the bone marrow) and growth of the spleen weight. The acceleration of restoration of the bone-marrow cellularity was also noted when serotonin was administered after irradiation. The post-irradiation effect of serotonin was also detected in cells in vitro. It is concluded that the radiomodifying effect of serotonin on the haemopoietic system is due to a decrease in the number of damaged cells and increase in the rate of reproduction of intact cells.     

Effect of Simulated Solar Radiation and Sodium Fluorescein on the Recovery of Venezuelan Equine Encephalomyelitis Virus from Aerosols

Almost 90% of the Trinidad strain of Venezuelan equine encephalomyelitis (VEE) virus survived for 1 hr after aerosolization into a dark environment at 30% relative humidity (RH), and 78% survived for 1 hr at 60% RH. After exposure to simulated solar radiation (584 mcal per cm(2) per min) 0.02% of the aerosolized virus survived for 1 hr at 30% RH and 0.006% survived for 1 hr at 60% RH. When 1.0 mg of sodium fluorescein per ml was added to suspensions prior to aerosol dissemination (to determine physical loss of aerosol), no virus was detected after 30 min at either RH upon irradiation. Sodium fluorescein also exhibited some toxicity (31% survival at 60 min) for nonirradiated aerosols of VEE virus at 60% RH; no effect was noted at 30%.     

Radioprotective effect of pyrazolone derivatives]

The intraperitoneal injection of analgin (1000 mg/kg), antipurine (400 mg/kg), amidopyrine (100 mg/kg) 3 hours before the irradiation of mice in a dose of 800 R led to survival of 30 to 45% of the animals (against 12.5% in control) and to increase in the average duration of life of the animals that perished. 80-95% of mice survived the period of "intestinal deaths" (the 7th day after the irradiation) after combined prophylactic use of purasolone derivatives and cystamine before the irradiation of these animals in a dose of 1050 R. The radioprotective effect of pyrasolone derivatives given in therapeutic doses was less pronounced.     

Nonuniform irradiation of the canine intestine. I. Effects

To investigate the effects of nonuniform irradiation on the small intestine, we prepared 24 dogs for continent isoperistaltic ileostomies under aseptic surgical conditions and general anesthesia. After a 3-week recovery period, the ileum was catheterized with a fiberoptic endoscope to observe the intestinal mucosa and to harvest mucosal biopsies. The baseline macroscopic and microscopic appearance of the intestinal mucosa was determined. Two weeks later, the ileum was catheterized with a 100-cm soft tube containing 40 groups of three thermoluminescent dosimeters placed at equally spaced intervals, and a dose of either 4.5, 8, 10, 11, or 15 Gy 60Co gamma rays was delivered to the right abdomen (nonuniform exposure). This method allowed a direct and precise assessment of the dose received at 40 sites located in the 100-cm intestinal segment. The intestinal mucosa was again evaluated 1, 4, and 6 days after irradiation. All animals exposed to 4.5 and 8 Gy survived, whereas none survived after 11 and 15 Gy. After exposure to 10 Gy, 60% of the animals died within 4-6 days and 40% survived with symptoms associated with both the intestinal and the hematopoietic syndromes. Crypt cell necrosis, blunting of villi, and reduction of the mucosal lining increased between 1 and 4 days after irradiation, and mucosal damage was correlated with intraintestinal dosimetry at Day 6. The granulocyte counts at Day 4 were significantly lower than baseline level in animals that died within 4-6 days but not in survivors. The present model appears to be realistic and clinically relevant, allowing the concurrent study of the intestinal and hematopoietic effects of high-dose nonuniform irradiation similar to that received by patients during radiation therapy as well as by radiation accident victims.     

Recombinant human interleukine-1beta (betaleukine) usage for acute radiation sickness of severe degree treatment at canines

Recombinant human interleukine-1beta (betaleukune) of Institute of especially pure biopreparation production had been examined as a treatment means at acute radiation disease of severe degree at dogs. Dogs were irradiated totally in doses above the LD95/45. Betaleukine had been administered s/c twice in day in 15 min - 2 h after irradiation. All the dogs, including control ones, received in acute period 8-24/26 days after irradiation antibiotics ampicillin and gentamycin i/m. Betaleukine increased 45 day-survival by 37% at 4 Gy and by 25% at 4.4 Gy. The effect correlated with more high level of nadir and more early beginning the leucocyte number restoration. We observed the regularity at all the dogs that received betaleukine as survived as died, but in the latter case in a lesser degree certainly. Besides the noticed character of leucocytes kinetics had been repeated at all the blood cell types but in the different degree. It had been concluded on the base of these observations that betaleukine acts on hemopoietic stem cells preferentially. The effect is in preventing death of a stem cells part, or in stimulating survived stem cells proliferation, or in both together. Betaleukin can be regarded as a suitable means of urgent pathogenic therapy at radiation accidents.     

The effects of gamma irradiation on the survival and development of Clonorchis sinensis metacercariae

The effects of gamma irradiation on the survival and development of C. sinensis metacercariae were studied to evaluate the feasibility of irradiation as a control measure for clonorchiasis. Pseudorasbora parva were collected at an endemic river of clonorchiasis and were used for irradiation of the fluke in three schemes. The first (Scheme 1) was irradiation of the isolated metacercariae from the fish followed by infection to experimental rats. The second (Scheme 2) was irradiation of the fish, and then the metacercariae were isolated and infected to rats. The third (Scheme 3) was irradiation on the rat livers after infection with normal metacercariae. Irradiation doses varied from 5 to 100 Gy for Schemes 1 and 2, and 10 to 25 Gy for Scheme 3. The rats were sacrificed 2 to 6 weeks after infection. In Scheme 1, the metacercariae irradiated at 50 Gy failed to survive in the rats after 2 or 6 weeks. However, 1 to 44% of the metacercariae irradiated at 5-30 Gy survived. The estimated LD50 of Scheme 1 was 16.5 Gy. The flukes irradiated in Scheme 2 survived better than those in Scheme 1. The average worm recovery rate in 50 Gy was 28%(7-39% individually). Increasing the dose up to 100 Gy brought a remarkably low survival rate of an average 1%(0-3% individually). The LD50 of Scheme 2 was 47.5 Gy. Worm recovery rates in the 10 Gy group of Scheme 3 were 21-39%, and those in the 25 Gy group were 2% and 34%. Although the metacercariae were irradiated, all of the recovered worms were morphologically normal.(ABSTRACT TRUNCATED AT 250 WORDS)     

The modifying action of the Japanese pagoda tree (Sophora japonica) and pantocrine in radiation lesions

A study was made of the effect of Sophora japonica and pantocrine on irradiated (2.5 Gy) human lymphoblastoid cells. The radioprotective effect was manifested with the preparations injected separately after irradiation. The highest radioprotective effect was produced by the mixture of the preparations, the injection 15 min after irradiation being more effective than preinjection. The protective effect of the agents was studied on mongrel mice after the administration thereof for the purposes of protection protection-and-treatment and treatment. Sophora japonica and pantocrine were shown to increase the survival rate of lethally exposed mice (LD90/30) when administered in a combination 5-15 min before irradiation and when used for the purposes of protection--and--treatment: 53.3% and 50% of animals, respectively, survived by day 30 following irradiation. DMF was 1.25.     

Effect of Shadowing on Survival of Bacteria under Conditions Simulating the Martian Atmosphere and UV Radiation

Spacecraft-associated spores and four non-spore-forming bacterial isolates were prepared in Atacama Desert soil suspensions and tested both in solution and in a desiccated state to elucidate the shadowing effect of soil particulates on bacterial survival under simulated Martian atmospheric and UV irradiation conditions. All non-spore-forming cells that were prepared in nutrient-depleted, 0.2-μm-filtered desert soil (DSE) microcosms and desiccated for 75 days on aluminum died, whereas cells prepared similarly in 60-μm-filtered desert soil (DS) microcosms survived such conditions. Among the bacterial cells tested, Microbacterium schleiferi and Arthrobacter sp. exhibited elevated resistance to 254-nm UV irradiation (low-pressure Hg lamp), and their survival indices were comparable to those of DS- and DSE-associated Bacillus pumilus spores. Desiccated DSE-associated spores survived exposure to full Martian UV irradiation (200 to 400 nm) for 5 min and were only slightly affected by Martian atmospheric conditions in the absence of UV irradiation. Although prolonged UV irradiation (5 min to 12 h) killed substantial portions of the spores in DSE microcosms (~5- to 6-log reduction with Martian UV irradiation), dramatic survival of spores was apparent in DS-spore microcosms. The survival of soil-associated wild-type spores under Martian conditions could have repercussions for forward contamination of extraterrestrial environments, especially Mars.     

Interleukin-2 stimulates the colony-forming activity of in vitro irradiated bone marrow

The data are presented on the stimulatory effect of interleukin-2 on the formation of spleen exocolonies from bone marrow irradiated in vitro with doses of 0.5 to 2.5 Gy. It is suggested that the effect observed is associated with the increased proliferation of CFUs survived after irradiation.     

Loss of the Xeroderma Pigmentosum Group A Gene (XPA) Enhances Apoptosis of Cultured Cerebellar Neurons Induced by UV but Not by Low-K+ Medium

Abstract: To study the involvement of the xeroderma pigmentosum group A gene ( XPA ) in neuronal apoptosis, we cultured cerebellar neurons from mice lacking XPA gene ( XPA ^−/−) and induced apoptosis by exposure to UV irradiation or medium containing a low concentration of potassium (low-K⁺ medium). When cerebellar neurons from postnatal days 15–16 wild-type mice were treated with UV irradiation, apoptotic neuronal death was observed after 24–48 h. About 60% of neurons survived 48 h after UV irradiation at a dose of 5 J/m². On the other hand, neurons from XPA ^−/− mice showed a significantly increased vulnerability to UV irradiation, and >90% of neurons died 48 h after UV irradiation at a dose of 5 J/m². In contrast, low-K⁺ medium induced apoptosis of neurons from mice of each genotype with the same kinetics. These results suggest that the XPA gene is involved in neuronal DNA repair and that it thereby influences apoptosis induced by DNA damage in cultured cerebellar neurons.     

Thymineless Death in Escherichia coli: Inactivation and Recovery

The effects of chloramphenicol (CAP) on the progress of thymineless death (TLD), nalidixic acid (NA) inactivation, ultraviolet (UV) irradiation, and mitomycin C (MC) inactivation were studied in Escherichia coli B, B(s-1), B(s-3), B(s-12), and B/r. This was done before, during, and after inactivation. During the progress of inactivation, it was found that at 10 to 20 mug of CAP per ml, up to 50% of the UV-sensitive bacteria survived TLD and about 10% survived NA. In E. coli B/r, at these concentrations of CAP, about 10 to 15% of the cells survived TLD and about 20 to 25% survived NA. Concentrations of CAP greater than 25 mug/ml actually increased the sensitivity of E. coli B, B(s-1), B(s-3), and B(s-12) to inactivation by either TLD or NA; at 150 mug of CAP per ml, the sensitivity of E. coli B/r to inactivation also increased. When E. coli B cells were incubated in CAP prior to inactivation, the longer the preincubation the longer onset of TLD was delayed; NA inactivation was also affected in that the rate of inactivation after CAP incubation was greatly decreased. Preincubation of E. coli B/r with CAP had much less effect on the progress of inactivation. After thymineless death, incubation in CAP plus thymine led to a rapid and almost complete recovery of E. coli B and B(s-12). Lesser recoveries were observed after inactivation due to UV, NA, or MC inactivation. E. coli B(s-1) and B/r did not recover viability after any mode of inactivation, and E. coli B(s-3) and B(s-12) recovered from UV to about 20% of the initial titer. It was suggested that protein synthesis, in particular proteins involved in deoxyribonucleic synthesis, was a determining factor in these inactivating and recovery events.     

The radioprotective effect of extracts of Archangelica officinalis Hoffm. and Ledum palustre L. on mice

A single injection of Archangelica officinalis Hoffm. and Ledum palustre L. extracts to mice 5-15 min before irradiation with a median lethal dose increased their survival rate. The most favourable effect was produced by a combination of the two preparations: by day 30 100% of animals survived after a dose of 6 Gy (LD50/30); 70% survived after a dose of 7.5 Gy (LD90/30), and 25% after a dose of 8 Gy (LD100/12). DMF for the extract mixture was 1.48.     

Postirradiation sensitization of mammalian cells by the thiol-depleting agent dimethyl fumarate

Dimethyl fumarate (DMF) depletes intracellular glutathione (GSH) by covalent bond formation in a reaction mediated by GSH-S-transferase. Treatment of hypoxic Chinese hamster V79 cells with 5 mM DMF before irradiation radiosensitizes the cells, resulting in an enhancement ratio (ER) of about 2.7 with minimal toxicity, when the end point is clonogenic cell survival. Under the same conditions aerobic cells are sensitized, and ER of about 1.3 is found, and GSH is reduced to about 3% of control. Very similar results were obtained previously with Chinese hamster ovary (CHO) cells. In addition, new data presented here show that DMF treatment of V79 or CHO cells immediately after irradiation under hypoxic conditions sensitizes the cells, resulting in an ER of about 1.5, DMF treatment after irradiation under aerobic conditions results in an ER of 1.3, and this DMF treatment reduces protein thiols (PSH) to about 70% of control. When induction of DNA damage is measured using the neutral elution assay, treatment of V79 or CHO cells with DMF prior to irradiation under hypoxic conditions results in an ER of 1.9-2.0, but there is no enhancement of DNA damage when DMF is added after irradiation under hypoxic conditions or when cells are treated with DMF before or after irradiation under aerobic conditions. Based on these data we postulate that DMF radiosensitizes killing of hypoxic cells by two actions: depletion of GSH interferes with the chemical competition between damage fixation and repair, and depletion of PSH causes an inhibition of enzymatic repair processes. We also suggest that DMF sensitizes aerobic cells only by inhibition of enzymatic repair processes.     

Hepatic injury after whole-liver irradiation in the rat

Radiation-induced hepatic injury in rats, which is characterized by marked ascites accompanied by liver necrosis, fibrosis, and vein lesions, is described in this study. These adverse sequelae are produced within 30 days after irradiation if there is surgical removal of two-thirds of the liver immediately after whole-liver irradiation. The LD50/30 day and median survival time after liver irradiation and two-thirds partial hepatectomy is 24 Gy and 17 days, respectively. Death is preceded by reduction in liver function as measured by [131I]-labeled rose bengal clearance. Prior to death, liver sepsis and endotoxemia were detected in most irradiated, partially hepatectomized animals. Pretreatment of the animals with endotoxin and/or antibiotic decontamination of the GI tract, which increase the host resistance to infection and endotoxemia, resulted in increased survival time, but no irradiated, partially hepatectomized animal survived beyond 63 days. The combination of these treatments resulted in additive effects leading to 38% survival at 100 days. These treatments did not, however, prevent the eventual development of radiation-induced liver pathology. This suggests that sepsis and endotoxemia resulting from the bacteria in the intestine are the immediate cause of death after 30-Gy liver irradiation and partial hepatectomy. It is concluded that the hepatectomized rat model is an economical and scientifically manageable experimental system to study a form of radiation hepatitis that occurs in compromised human livers.     

Murine survival of lethal irradiation with the use of human umbilical cord blood.

We have found that human umbilical cord blood (HUCB) will routinely protect mice exposed to lethal levels of irradiation. At the end of 50 days, over seventy percent (70%) of mice injected with HUCB survived 900 cGy or irradiation, which produced 100% deaths in the uninjected control animals. Moreover, there was some evidence that human colony stimulating factors further improved survival. Anti-Natural Killer cell (NK) antibody was utilized along with HUCB in these studies, however, Anti-NK cell serum alone had no radioprotective effect in mice. The studies reported here suggest the possibility of utilizing HUCB for immediate protection of humans from lethal irradiation.     

Mouse embryonic stem cells that survive γ-rays exposure maintain pluripotent differentiation potential and genome stability

This study aimed to investigate the cell cycle, apoptosis, cytogenetics and differentiation capacity of mouse embryonic stem cells (mESCs) that survived a single dose of 2 or 5 Gy γ-rays during a period of up to 96 h of culture. After 2 Gy irradiation and 24 h culture, compared to control, a significant majority of cells was blocked at the G2/M phase and a massive apoptosis was recorded. Between 48 and 72 h post-irradiation, the parameters used to describe the cell cycle and apoptosis returned similar to those of control samples. When mESCs were irradiated with 5 Gy, a small fraction of cells, even after 96 h of culture, still presented clear evidences of a G2/M block and apoptosis. The cytogenetic analysis performed at 96 h showed that the structural stability of the aberrations did not change significantly when comparing control and 2 or 5 Gy-treated populations. However, the chromosomal damage observed in the progeny of the survived cells after 5 Gy exposure is significantly higher than that observed in control samples, although it is mostly of the stable and transmissible type. Ninety-six hours after irradiation, the survived mESCs maintained their undifferentiated status and capability to differentiate into the three germ layers. Overall, these results indicate a commitment of mESCs to maintain pluripotency and genome stability.     

Comparison on the genotoxic effects of nuclear vs cytoplasmic irradiation from the alteration of CD59 gene locus

Using microbeam to irradiate human-hamster hybrid AL cells withdefined number of a particles in a highly localized spatial region, this paper showed that cytoplasmic irradiation induced very little toxicity. For example, the cell killing by 4 a particle traversal through the cytoplasm was about 10%, and about 70% cells survived after their cytoplasm was irradiated with 32 a particles. In contrast, the survival fractions for nuclear irradiation at the same doses were 35% and less than 1% respectively. Mutation induction showed that while nuclear irradiation induced 3-4-fold more CD59- mutants than cytoplasmic irradiation at equivalent particle traversal, at an equitoxic dose level of 90% survival, the latter exposure mode induced 3.3-fold more mutants than nuclear irradia-tion. Moreover, using multiplex PCR to analyze five marker genes on chromosome 11 (WT, CAT, PTH, APO-A1 and RAS), the results showed that the majority of mutants induced by cytoplasmic irradiation had retained all of the marker genes analyzed. By comparison, the proportion of mutants suffering loss of additional chromosomal markers increased with increasing number of particle traversal through nuclei.     

Induction of genomic instability in TK6 human lymphoblasts exposed to 137Cs gamma radiation: comparison to the induction by exposure to accelerated 56Fe particles

The induction of genomic instability in TK6 human lymphoblasts by exposure to (137)Cs gamma radiation was investigated by measuring the frequency and characteristics of unstable clones isolated approximately 36 generations after exposure. Clones surviving irradiation and control clones were analyzed for 17 characteristics including chromosomal aberrations, growth defects, alterations in response to a second irradiation, and mutant frequencies at the thymidine kinase and Na(+)/K(+) ATPase loci. Putative unstable clones were defined as those that exhibited a significant alteration in one or more characteristics compared to the controls. The frequency and characteristics of the unstable clones were compared in clones exposed to (137)Cs gamma rays or (56)Fe particles. The majority of the unstable clones isolated after exposure to either gamma rays or (56)Fe particles exhibited chromosomal instability. Alterations in growth characteristics, radiation response and mutant frequencies occurred much less often than cytogenetic alterations in these unstable clones. The frequency and complexity of the unstable clones were greater after exposure to (56)Fe particles than to gamma rays. Unstable clones that survived 36 generations after exposure to gamma rays exhibited increases in the incidence of dicentric chromosomes but not of chromatid breaks, whereas unstable clones that survived 36 generations after exposure to (56)Fe particles exhibited increases in both chromatid and chromosome aberrations.