The effect of total gnotobiological isolation and antimicrobial preparations on the survival of mice with acute radiation sickness

In experiments on 406 CBA mice the effect of antimicrobial preparations, used in combination with total gnotobiotic isolation, on the survival rate of totally irradiated animals was studied. The use of antimicrobial preparations was shown to considerably enhance the survival rate of these animals. Cyprofloxacin, a new preparation of the kinolone row, exhibited a good effect ensuring selective decontamination of the intestine. The use of cyprofloxacin prior to irradiation with the subsequent isolation of the animals in gnotobiotic chambers increased the survival rate of these animals by 2.7 times. But the maximum survival rate of irradiated mice was observed in those cases when antimicrobial preparations were used both before and after irradiation in combination with the total gnotobiotic isolation of the animals.     

Selective decontamination of the intestine and total gnotobiologic isolation in treatment of mice with acute radiation sickness]

Comparative study of ciprofloxacin, pefloxacin and amikacin showed that ciprofloxacin and pefloxacin had a selective action on the intestinal microflora of conventional mice. Amikacin induced inhibition not only of the opportunistic bacteria but also of the representatives of the indigenous microflora. The use of the drugs in combination with total gnotobiological isolation in treatment of experimental radiation sickness provided an increase in survival of the irradiated animals, the more so as ciprofloxacin was used.     

Administration of recombinant human IL11 after supralethal radiation exposure promotes survival in mice: interactive effect with thrombopoietin

In the present study, we evaluated the therapeutic potential of recombinant human IL11 in lethally irradiated C57BL6/J mice exposed to gamma rays. IL11 administered for 5 consecutive days beginning 2 h after total-body irradiation with 8 or 9 Gy 60Co gamma rays resulted in a significant increase in 30-day survival. When IL11 was administered, only a slight improvement in the hematopoietic status (both blood cell counts and progenitor cells) was observed after an 8-Gy exposure, and no improvement in hematopoietic reconstitution was observed after 9 Gy total-body irradiation. The enhancement of fibrinogen in the plasma of irradiated animals suggested the importance of infections in the death of animals. IL11 was able to limit the increase in fibrinogen levels. However, prevention of bacterial infections by antibiotic treatment, although it delayed death, was ineffective in promoting survival either in placebo-treated and IL11-treated mice. IL11 was administered along with thrombopoietin (TPO) or bone marrow transplantation to limit the hematopoietic syndrome, in addition to antibiotic treatment. When IL11 was combined with TPO, a potent stimulator of hematopoiesis, the survival of animals which had been irradiated with 10 Gy 137Cs gamma rays was increased significantly compared to those treated with IL11 or TPO alone. Furthermore, an interactive effect of TPO and IL11 on hematopoietic reconstitution was observed. Similarly, IL11 in combination with bone marrow transplantation enhanced survival after 15 Gy 137Cs gamma rays. These data suggest that the effect of IL11 on the hematopoietic system is only moderate when it is used alone in supralethally irradiated mice but that the effect is improved in the presence of a hematopoietic growth factor or bone marrow transplantation.     

Specific effect of attenuated strain of Francisella tularensis on the development of radiation induced lesions in experimental animals and effictiveness of antibacterial therapy for lesions induced by radiation combined with virulemt strain of the bacteria

For study of the effects of whole-body gamma-radiation (1 and 4 Gy) on the response of the body to administration of vaccines and virulent strains of tularemia 206 outbred white mice were used. The results of the study shown that the administration of attenuated bacterial cells in 5 days after exposure to radiation (1 and 4 Gy) caused more severe post-radiation effects and the increase in the number of died animals. The severity of the disease was less if mice were vaccinated in 26 days after irradiation (4 Gy). The treatment of tularemia in irradiated mice twith Riphampicin (daily peroral administration, 5 mg/mouse, duration of treatment--7 days) administered in 4 hours after infection was effective and caused high survival of affected mice. The results show effectiveness of the riphampicin treatment of tularemia in the animals exposed to sublethal dose of radiation.     

Photo-chemically induced DNA effects in the comet assay with epidermal cells of SKH-1 mice after a single oral administration of different fluoroquinolones and 8-methoxypsoralen in combination with exposure to UVA

Due to the need for in vivo photo-genotoxicity tests, the in vivo photo-comet assay was established in epidermal cells of the SKH-1 mouse. Groups of 10 male SKH-1 mice each were treated once orally with vehicle only, with three fluoroquinolones (25 mg/kg clinafloxacin, 20 mg/kg lomefloxacin, 200 mg/kg ciprofloxacin) or with 200mg/kg 8-methoxypsoralene (8-MOP). Thirty minutes after treatment half of the mice in each group were exposed to 23.8 J/cm2 UVA. Thereafter the mice were killed and their epidermal cells tested in the alkaline (pH >13) comet assay; at the same time after administration, compound-treated, non-irradiated mice were killed and analysed. A negative control group of ten male SKH-1 mice received the vehicle only; half of these animals were exposed to UVA, half were not. The comet tail lengths of epidermal cells of the mice were statistically significantly increased for all three fluoroquinolones (FQ) tested in combination with UV irradiation. Treatment with 8-methoxypsoralene+UV induced a significant reduction of comet tail length. Tail intensity and tail moment gave essentially the same results after combined exposure (compound+UV). Without irradiation, the tail lengths of controls and compound-treated mice were comparable under the conditions of this study. In contrast, tail intensity and tail moment were increased for all test compounds (including 8-MOP), without irradiation. Irradiated controls had a tail length comparable to non-irradiated controls, while tail intensity and tail moment were clearly increased in irradiated controls. In conclusion: under the present experimental conditions the in vivo photo-comet assay is able to detect photo-chemically induced DNA strand breaks as well as photo-chemically induced DNA cross-links.     

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.     

Synergistic action of some antibacterial agents in studies on albino mice with experimental plague caused by Fr- phenotype strain of the plague microbe]

Possible use of ciprofloxacin combinations with some other antibiotics such as rifampicin, ampicillin, cefotaxime, doxycycline and amikacin was studied on albino mice with experimental plague caused by the pathogen strain (approximately 1000 LD50) deprived of the ability to produce the capsular antigen, fraction I (Fra- phenotype). The combination of ciprofloxacin with ampicillin or doxycycline had no effect on the increase of the survival rate (t<2) evident of inexpediency of its use in the infection caused by the Fra- strains of the plague microbe. The combination of ciprofloxacin and cefotaxime used in definite doses had some effect (t=2.6). The most significant synergistic effect was observed with the use of ciprofloxacin in combination with amikacin or rifampicin (t>3.3-9.0) which made the combination most promising.     

Short and long courses of ofloxacin therapy of Klebsiella pneumoniae sepsis following irradiation.

Exposure to whole-body irradiation is associated with fatal gram-negative sepsis. The optimal length of therapy of such infection is not established. The effect of short and long courses of oral therapy with the quinolone ofloxacin for orally acquired Klebsiella pneumoniae infection was tested in B6D2F1 mice exposed to 8.0 Gy of bilateral radiation from 60Co. A dose of 10(8) organisms was given orally 4 days after irradiation, and therapy was started 1 day later. Cultures of the ileum 7 days after irradiation showed the recovery of K. pneumoniae in 7 of 10 untreated mice and in 3 of 20 treated with ofloxacin. However, 14 days after irradiation K. pneumoniae was isolated in 5 of 6 untreated mice, in 7 of 9 that received the short course of therapy, and in one of those that received the long course of therapy (P less than 0.05). At Day 7, K. pneumoniae was isolated from the livers of 6 of 10 untreated mice, and from none of those receiving ofloxacin (P less than 0.05). At 14 days, K. pneumoniae was isolated in 4 of 6 untreated animals, in 4 of 9 that received the short course of therapy, and in none of the mice that received the long course of therapy (P less than 0.05). Only 3 of 20 (15%) untreated mice survived for 30 days as compared to 11 of 20 (55%) mice treated for 7 days with ofloxacin and 18 of 20 (90%) mice treated for 21 days with ofloxacin (P less than 0.05). These survival data illustrate the efficacy of a 21-day course over a 7-day course of ofloxacin therapy for orally acquired K. pneumoniae infection in irradiated hosts.     

Radioprotective action of a combination of poly I-poly C and mexamine

In experiments on (CBA X C57Bl)F1 mice irradiated with doses of 8-12 Gy a study was made of the effect of a mixture of polyI-polyC (2.5 mg/kg, 2 days before irradiation) and mexamine (30 mg/kg, 5 min before irradiation) on the survival rate of animals and the times of their death. It was shown that polyI-polyC potentiates the protective effect of mexamine not increasing its toxicity. The protective agents used in a combination decrease the "intestinal" death of irradiated animals while used separately fail to produce this effect.     

Immunostimulating activity of polycomponent vaccine "Immunovac-VP-4" and grippol after their combined administration

The experimental study of the immunostimulating activity of therapeutic bacterial polycomponent vaccine VP-4 and prophylactic vaccine grippol, introduced both separately and in combination, on mice infected with Salmonella typhimurium, used as a model. Both preparations were found to produce an immunomodulating effect. The combined subcutaneous injection of VP-4 and grippol did not decrease their immunostimulating activity, but their separate administration at an interval of 14 days resulted in essential decrease in the protective activity of each of these two preparations. As shown on the model of Klebsiella infection in mice, challenged 4 weeks after immunization, VP-4 ensured the survival of 78.6% of mice, while after the injection of grippol their survival rate was not different from that of the group of intact animals. The evaluation of the immunostimulating activity of these preparations under the conditions of the prophylaxis of influenza and acute respiratory infections in organized groups of children revealed that the use of VP-4 alone or grippol in combination with VP-4 considerably decreased the number of secondary bacterial complications in children.     

The chemotherapeutic efficacy of ciprofloxacin and lomefloxacin in the inhalation method of infecting white mice with tularemia]

Peculiarities of the protective effect of ciprofloxacin and lomefloxacin were studied and the optimal regimens of their use were determined in multifactor experiments on albino mice infected with finally dispersed aerosol of the virulent strain of the European subspecies of Francisella tularensis. As for protective effect, the fluoroquinolones provided high percentage of the animal survival. The optimal course of the treatment was at least 7 days. The interval of 0 to 48 hours between the infection and the start of the treatment had no statistically significant effect on chemotherapeutic efficacy of fluoroquinolones.     

Protection against radiation oxidative damage in mice by Triphala

Protection against whole body gamma-irradiation (WBI) of Swiss mice orally fed with Triphala (TPL), an Ayurvedic formulation, in terms of mortality of irradiated animals as well as DNA damage at cellular level has been investigated. It was found that radiation induced mortality was reduced by 60% in mice fed with TPL (1g/kg body weight/day) orally for 7 days prior to WBI at 7.5 Gy followed by post-irradiation feeding for 7 days. An increase in xanthine oxidoreductase activity and decrease in superoxide dismutase activity was observed in the intestine of mice exposed to WBI, which, however, reverted back to those levels of sham-irradiated controls, when animals were fed with TPL for 7 days prior to irradiation. These data have suggested the prevention of oxidative damage caused by whole body radiation exposure after feeding of animals with TPL. To further understand the mechanisms involved, the magnitude of DNA damage was studied by single cell gel electrophoresis (SCGE) in blood leukocytes and splenocytes obtained from either control animals or those fed with TPL for 7 days followed by irradiation. Compared to irradiated animals without administering TPL, the mean tail length was reduced about three-fold in blood leukocytes of animals fed with TPL prior to irradiation. Although, similar protection was observed in splenocytes of TPL fed animals, the magnitude of prevention of DNA damage was significantly higher than that observed in leukocytes. It has been concluded that TPL protected whole body irradiated mice and TPL induced protection was mediated through inhibition of oxidative damage in cells and organs. TPL seems to have potential to develop into a novel herbal radio-protector for practical applications.     

Potentiation of the efficacy of murine L1210 leukemia vaccine by a novel immunostimulator 7-thia-8-oxoguanosine: Increased survival after immunization with vaccine plus 7-thia-8-oxoguanosine

Summary We have investigated the ability of a novel immunopotentiator, 7-thia-8-oxoguanosine (7T8OG) to increase the efficacy of a weakly immunogenic murine L1210 leukemia vaccine. The vaccine was prepared by irradiating L1210 leukemia cells in a cesium source with a total of 6000-R dose. DBA/2 mice were treated with 150 mg/kg 7T8OG and/or with vaccine consisting of 10⁷ irradiated cells. In combination therapy, mice first received the vaccine and then were injected with 75 mg/kg 7T8OG 2 h and 4 h after vaccination. One week after the last treatment all mice were inoculated with 10⁴ live leukemia cells intraperitoneally. Control, untreated mice (n = 66) injected with 10⁴ live leukemia cells had a mean survival time ± standard error of 10.5±0.2 days. Treating mice (n = 66) with one, two or three doses of 7T8OG administered i.p. 1 week apart did not increase survival (mean survival time = 10.7 days). Mice immunized with one, two or three doses of vaccine had 14.5±1.1, 45.4±6.2 and 68.3±10.6 days mean survival, respectively. 7T8OG-stimulated vaccination increased the survival dramatically. The best survival was noted when the mice were treated with 2× (vaccine + 7T8OG). Immunization of mice (n = 30) with this treatment regimen increased the mean survival to 156±10.0 days. Over 90% of mice that were treated this way had a cumulative survival time greater than 160 days. In contrast, only 12% of the mice immunized twice with the leukemia vaccine alone survived over 160 days. These results suggest a rationale for the use of this immuno-potentiator with various vaccines for a more effective immunization.     

Course of the post-irradiation syndrome after irradiation with lethal doses in newborn conventional,germ-free andEscherichia coli-monoassociated piglets

The influence of whole-body irradiation with lethal doses of ionizing radiation (⁶⁰Co) was studied in conventional, germ-free andEscherichia coli-monoassociated newborn piglets. The dose 1,200 R produced an acute intestinal death (i.e. within 3–4 days) in conventional animals, whereas survival was three times as long in their germ-free counterparts. Artificial colonization of the intestinal tract of germ-free piglets with non-pathogenic strain ofEscherichia coli, prior to irradiation with the same dose, produced the conventionalization of these animals and reduction in the survival time almost to the level of conventional animals. In conventional animals, profound focal regressive changes of the epithelium accompanying the denudation of intestinal villi were found already on the 2nd–3rd day after irradiation with 1,200 R. On the other hand, the intestinal epithelium of germ-free piglets, irradiated with 1,200 R, was found to be intact on the 7th–9th day of post-irradiation, and the first signs of damage started to occur around the 9–10th days. The morphological characteristics of the intestinal mucous membrane ofEscherichia coli-monoassociated piglets were comparable to those of conventional, irradiated piglets. The role of the presence of the microbial factor for the turnover and radiosensitivity-resistance of enterocytes, and for the survival-death rate of animals irradiated with doses producing the post-irradiation gastro-intestinal syndrome, is discussed.     

Interleukin 4 promotes survival of lethally irradiated mice in the absence of hematopoietic efficacy

The therapeutic potential of Il4 in lethally irradiated mice was evaluated in C57BL6/J mice subjected to 7 to 10 Gy total-body irradiation (TBI) from a (60)Co gamma-ray source. Il4 was administered 2 h after TBI either in a single injection or for 5 consecutive days. Il4 treatment increased 30-day survival of mice irradiated with doses as high as 8.5 Gy, which caused 100% mortality in placebo-treated animals. By convention, hematopoietic failure would induce death over a period of up to 30 days. However, in our study, the Il4-enhanced survival of mice within this period could not be attributed to significantly accelerated hematopoietic reconstitution as shown by blood cell counts and progenitor cell contents in the bone marrow and spleen. Our data strongly suggest that aplasia is not the only cause of death of animals irradiated with doses around the LD(50) and that Il4-treated animals can survive in spite of a very poor hematopoietic activity.     

Radioprotective effects of lipid A, liposomes, and liposomes containing lipid A in mice

Lipid A from Gram-negative bacterial lipopolysaccharide (endotoxin) was incorporated into liposomal membranes and examined as a prophylactic radioprotectant compound in lethally irradiated mice. Splenic hematopoietic activity, resulting in increased numbers of spleen cell colonies, was induced both by lipid A alone or more strongly by liposomal lipid A. Increased survival of lethally irradiated animals was induced to a slight extent by liposomes alone, to a greater extent by lipid A, and at the highest level by liposomes containing lipid A. Under conditions where 100% of untreated or saline-treated animals died of acute radiation syndrome after 20 days, more than 90% of the animals pretreated with liposomal lipid A were still alive 30 days after irradiation. We conclude that lipid A had substantial radioprotectant activity by itself, and the activity was enhanced by incorporation into liposomes. Liposomes alone also exhibited mild radioprotectant effects.     

Alteration of circulating antibody response of mice exposed to 9-GHz pulsed microwaves

A significant increase was observed in the circulating antibody titers of mice exposed to 9-GHz pulsed microwaves at an average power density of 10 mW/ cm², two hours per day for five days compared with sham-irradiated animals. The mice were previously immunized with type III pneumococcal polysaccharide. Following irradiation, a portion of the immunized animals were challenged with virulent ^{Streptococcus pneumoniae}, type III. Ten days after challenge, mortality was essentially the same in the two groups, but during the ten day period, there was a noticeable increase in the survival time of the irradiated animals compared with the sham-irradiated animals, suggesting that the increased circulating antibody response afforded some degree of temporary protection to the animals.     

Enhanced body radioresistance resulting from the transfusion of autologous blood irradiated with low doses of ionizing radiation]

Preliminary administration of autogenic blood irradiated in vitro with ionizing radiation in small doses of 0.05, 0.3 or 0.5 Gy resulted in a pronounced increase in the radioresistance of mice [correction of rats] subsequently irradiated in a dose of 9 Gy. The optimum was autotransfusion of blood irradiated in a dose of 0.3 Gy a day or 10 days prior to the total irradiation which increased the survival rate of experimental animals to 80% while, in control groups, the survival rate was only 10%.     

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.     

Quinolone therapy in the prevention of mortality after irradiation

The effect of oral therapy with three quinolones (ofloxacin, ciprofloxacin, and pefloxacin) in the prevention of postirradiation bacteremia and mortality was tested in B6D2F1 mice given 9.5 Gy 60Co gamma radiation. Only 8 of 60 (13%) untreated mice survived for 30 days, compared to 47 of 60 (78%) mice treated with ofloxacin, 44 of 60 (74%) mice treated with ciprofloxacin, and 42 of 60 (70%) mice treated with pefloxacin (P less than 0.05). The organisms recovered from the mice were Streptococcus spp. and Enterobacteriaceae. More Enterobacteriaceae were recovered from the livers of untreated animals than from the mice treated with the quinolones. However, no reduction in the number of Streptococcus spp. was noted in the animals given quinolones when compared to controls. This study shows that quinolones prolonged survival and decreased systemic spread of Enterobacteriaceae up to 30 days after exposure of mice to lethal irradiation.