Role of interleukin-6 (IL-6) in the pathogenesis of combined radiation/thermal injuries

Combined injury such as whole body gamma-irradiation at the dose of 7 Gy+10% body surface full-thickness thermal burn were investigated in (CBA x C57BL6)F1 mice. Enhanced level of IL-6 in mice serum at 6-24 hs following combined injury was established. The potential inhibiting activity of pentoxifylline (POF) as an influence to IL-6 levels, and measure of several acute phase response signs has been evaluated. It was established, that single POF injection don't modify IL-6 production, don't change leukocytosis and early hyperfermentemia (as alaninaminotransferase levels indicated). But serum albumin content was increased after preliminary POF administration to mice with combined injury. On the other side, mouse anti-IL-6 monoclonal antibodies administration increased 30-days animal survival up to 60% while 100% lethality was registered in untreated mice. Possible anti-inflammatory inactivity reasons of POF under combined injury conditions are discussed in this article, and important role of IL-6 hyperproduction in combined injury outcomes burden is suggested.     

The estimation of the nitric oxide role in the aggravation of combined radiation-thermal injuries

The influence of specific inhibitor of inducible NO synthase S-ethil-isothiourea (as "Difetur" preparation) on liver NO production level, and 30-days survival, mean survival time and probability of mortality within animals under combined radiation/thermal injury (CRTI) were evaluated. Experiments were carrying out on mice (whole body gamma-irradiation at the dose of 7 Gy + 10% body surface full-thickness thermal burn). It was shown, that CRTI induce 2-fold statistical significant increase of NO production in liver of experimental animals. Mice pretreatment with Difetur preparation lead to practically full inhibition of NO production. In the group of animals, with Difetur administration during first two days after CRTI 60% mice survived as compared 15% survive in control group. In pair with data on probability of mortality it was suggested that growth of NO production in the early period of CRTI increase sensitivity of animals to pathological processes leading to death on 10-12 days.     

Some consequences of systemic inflammatory response in the pathogenesis of aggravation of outcomes of combined radiation and thermal injuries

Experiments were executed on (CBA x C57BL6) F1 male mice. Animals were subjected to the total body irradiation with a dose 7 Gy or combine radiation-thermal injury (CRTI), when irradiated animals were additionally subjected to a thermal burn of 10% of the body surface. Some signs of systemic inflammatory response were investigated in these two compared groups. It was established that the period of substantial increasing of the mortality in animals with CRTI (from 7th till 15th day) was characterized with expressed postradiation leikopenia and thrombocytopenia, was accompanied by hypoalbuminemia and hyperfibrinogenemia with a moderate raise in serum ALT activity. From all investigated hematological and biochemical parameters, at CRTI only plasma level of fibrinogen statistically differed from that in a group of the irradiated mice without a burn. It is suggested that endogenous infection and bacterial toxins are important at the pathogenesis of hyperfibrinogenemia and aggravation of CRTI outcomes by the 30-days survival criteria.     

Cytokine production by different population of macrophages following radiation or combined radiation injury

Male mice (CBA x C57BL6)F1 were used for the experiments throughout this study. The levels of spontaneous and LPS-stimulated cytokines production (IL-1 beta, IL-6 and TNF-alpha) by peritoneal, splenic, and bone marrow macrophages were evaluated by means of enzyme-linked immunosorbent assay at 3, 6, 24, 48 and 72 hours after irradiation alone or combined injury (irradiation + thermal burn). The results suggest that macrophages, harvested from the main mice hematopoietic organs (bone marrow, spleen), did not increase cytokines production within the first three days following the 7 Gy gamma-irradiation or combined injury. Peritoneal macrophages revealed a capacity to enhance IL-6 and IL-1 production versus normal healthy mice. There were no significant differences of cytokine-producing activity if macrophages were harvested from irradiated or combined injured mice.     

Comparative analysis of proinflammatory cytokines in plasma of mice exposed to radiation or in combined radiation injury

Male mice (CBA x C57BL/6)F1 were used for the experiments throughout this study. Blood serum levels of IL-1 beta, IL-6, TNF-alpha, IL-3, and GM-CSF were evaluated by means of enzyme-linked immunosorbent assay at 3, 6, 24, 48 and 72 hours after 7 Gy gamma-irradiation alone or combined injury (irradiation + thermal burn). Radiation as well as combined injury did not cause any important alterations of IL-1 beta, TNF-alpha, IL-3, and GM-CSF concentrations in the system circulation. Combined injury revealed more enhanced serum levels of IL-6 versus only irradiated mice. A possible significance of this phenomenon at the combined radiation and thermal burns' pathogenesis is discussed.     

Functional activity of T- and B-lymphocytes in thermal burns

The functional activity of B and T (helpers and suppressors) lymphocytes was studied in mice with thermal injury covering an area of 10 and 30% of the body surface. Following 10% burn the activity of B lymphocytes and T helpers increased while that of T suppressors dropped down. Insufficiency of T lymphocyte function developed after vast injury. At the same time B cells maintained their ability to form antibodies against sheep red blood cells.     

Acute alcohol intoxication increases interleukin-18-mediated neutrophil infiltration and lung inflammation following burn injury in rats

In this study, we examined whether IL-18 plays a role in lung inflammation following alcohol (EtOH) and burn injury. Male rats ( approximately 250 g) were gavaged with EtOH to achieve a blood EtOH level of approximately 100 mg/dl before burn or sham injury ( approximately 12.5% total body surface area). Immediately after injury, rats were treated with vehicle, caspase-1 inhibitor AC-YVAD-CHO to block IL-18 production or with IL-18 neutralizing anti-IL-18 antibodies. In another group, rats were treated with anti-neutrophil antiserum approximately 16 h before injury to deplete neutrophils. On day 1 after injury, lung tissue IL-18, neutrophil chemokines (CINC-1/CINC-3), ICAM-1, neutrophil infiltration, MPO activity, and water content (i.e., edema) were significantly increased in rats receiving a combined insult of EtOH and burn injury compared with rats receiving either EtOH intoxication or burn injury alone. Treatment of rats with caspase-1 inhibitor prevented the increase in lung tissue IL-18, CINC-1, CINC-3, ICAM-1, MPO activity, and edema following EtOH and burn injury. The increase in lung IL-18, MPO, and edema was also prevented in rats treated with anti-IL-18 antibodies. Furthermore, administration of anti-neutrophil antiserum also attenuated the increase in lung MPO activity and edema, but did not prevent the increase in IL-18 levels following EtOH and burn injury. These findings suggest that acute EtOH intoxication before burn injury upregulates IL-18, which in turn contributes to increased neutrophil infiltration. Furthermore, the presence of neutrophils appears to be critical for IL-18-meditaed increased lung tissue edema following a combined insult of EtOH and burn injury.     

Increasing the radioprotective therapeutic efficacy of typhoid vaccine using sexta-anatoxin in combination with the antimetabolite methotrexate]

A typhoid vaccine with sexta-anatoxin delivered to mice 4.5-5 h after gamma-irradiation has a pronounced therapeutic effect: survival rate is 42% with radiation dose of 8.2 Gy (LD85/30) and 19% with radiation dose of 8.7 Gy (LD95/30). The vaccine of 2.5 and 5 mg/kg combined with methotrexate has a more pronounced therapeutic effect increasing the survival rate up to 65% (LD85/30) and up to 35-40% (LD95/30).     

Pulmonary changes in a mouse model of combined burn and smoke inhalation-induced injury.

The morbidity and mortality of burn victims increase when burn injury is combined with smoke inhalation. The goal of the present study was to develop a murine model of burn and smoke inhalation injury to more precisely reveal the mechanistic aspects of these pathological changes. The burn injury mouse group received a 40% total body surface area third-degree burn alone, the smoke inhalation injury mouse group received two 30-s exposures of cotton smoke alone, and the combined burn and smoke inhalation injury mouse group received both the burn and the smoke inhalation injury. Animal survival was monitored for 120 h. Survival rates in the burn injury group, the smoke inhalation injury group, and the combined injury group were 70%, 60%, and 30%, respectively. Mice that received combined burn and smoke injury developed greater lung damage as evidenced by histological changes (septal thickening and interstitial edema) and higher lung water content. These mice also displayed more severely impaired pulmonary gas exchange [arterial PO2 (PaO2)/inspired O2 fraction (FiO2)<200]. Lung myeloperoxidase activity was significantly higher in burn and smoke-injured animals compared with the other three experimental groups. Plasma NO2-/NO3-, lung inducible nitric oxide synthase (iNOS) activity, and iNOS mRNA increased with injury; however, the burn and smoke injury group exhibited a higher response. Severity of burn and smoke inhalation injury was associated with more pronounced production of nitric oxide and accumulation of activated leukocytes in lung tissue. The murine model of burn and smoke inhalation injury allows us to better understand pathophysiological mechanisms underlying cardiopulmonary morbidity secondary to burn and smoke inhalation injury.     

6-Formylindolo (3, 2-b) Carbazole (FICZ)–mediated protection of gut barrier is dependent on T cells in a mouse model of alcohol combined with burn injury

6-Formylindolo (3, 2-b) Carbazole (FICZ) is a ligand of aryl hydrocarbon receptor (AHR) which regulates Th17 release of IL-17 and IL-22 production. Earlier, we showed that ethanol combined with burn injury suppresses Th17 responses and disrupts intestinal barrier leading to increased gut bacterial growth and translocation. Since IL-22 is known for its role in intestinal barrier maintenance, we determined whether treatment of mice with FICZ restores T cell IL-22 release and protects intestine barrier following ethanol and burn injury. Wildtype and Rag1−/− mice were gavaged with ~2.9 g/kg ethanol or water, and given a ~12.5% total body surface area burn. Mice were given FICZ (5 μg) in resuscitation fluid. FICZ treatment of wildtype mice normalized IL-22 and IL-17 in lamina propria and spleen T cells, as well as increased CYP1A1 expression in spleen T cells. This was accompanied by improved gut motility, decreased copy number of small intestine total bacteria and Enterobacteriaceae, attenuation of intestinal tissue levels of IL-6, KC, IL-18, decreased apoptosis, and prevention of gut leakiness following ethanol and burn injury. However, FICZ treatment of Rag1−/− mice did not improve any of the parameters listed after ethanol and burn injury. Additional data generated using mice treated with recombinant IL-22 alone or in combination with anti-IL-18 antibody suggest that full protection of gut barrier integrity requires both IL-18 inhibition and IL-22 restoration following ethanol and burn injury. Together our findings suggest that AHR ligand FICZ may have better therapeutic potential for maintenance of gut barrier function after ethanol and burn injury.     

The effect of graded doses of fission neutrons or X rays on the lymphoid compartment of the thymus in mice

Young adult CBA/H mice were exposed to graded doses of whole-body irradiation with either fast fission neutrons or 300 kVp X rays at center-line dose rates of 0.1 and 0.3 Gy/min, respectively. Dose-response curves were determined at Days 2 and 5 after irradiation for the total thymic cell survival and for the survival of thymocytes defined by monoclonal anti-Thy-1, -Lyt-1, -Lyt-2, and -T-200 antibodies as measured by flow cytofluorometric analysis. Cell dose-response curves of thymocytes show, 2 days after irradiation, a two-component curve with a radiosensitive part and a part refractory to irradiation. The radiosensitive part of the dose survival curve of the Lyt-2+ cells, i.e., mainly cortical cells, has a D0 value of about 0.26 and 0.60 Gy for neutrons and X rays, respectively, whereas that of the other cell types has corresponding D0 values of about 0.30 and 0.70 Gy. The radiorefractory part of the dose-response curves cannot be detected beyond 5 days after irradiation. At that time, the Lyt-2+ cells are again most radiosensitive with a D0 value of 0.37 and 0.99 Gy for neutrons and X rays, respectively. The other measured cell types have corresponding D0 values of about 0.47 Gy. The fission neutron RBE values for the reduction in the thymocyte populations defined by either monoclonal anti-Thy-1, -Lyt-1, -Lyt-2, or -T-200 antibodies to 1.0% vary from 2.6 to 2.8. Furthermore, the estimated D0 values of the Thy-1-, T-200- intrathymic precursor cells which repopulate the thymus during the bone marrow independent phase of the biphasic thymus regeneration after whole-body irradiation are 0.64-0.79 Gy for fission neutrons and 1.32-1.55 Gy for X rays.     

Suppression of thymic lymphoma induction by life-long low-dose-rate irradiation accompanied by immune activation in C57BL/6 mice

The induction of thymic lymphomas by whole-body X irradiation with four doses of 1.8 Gy (total dose: 7.2 Gy) in C57BL/6 mice was suppressed from a high frequency (90%) to 63% by preirradiation with 0.075 Gy X rays given 6 h before each 1.8-Gy irradiation. This level was further suppressed to 43% by continuous whole-body irradiation with 137Cs gamma rays at a low dose rate of 1.2 mGy/h for 450 days, starting 35 days before the challenging irradiation. Continuous irradiation at 1.2 mGy/h resulting in a total dose of 7.2 Gy over 258 days yielded no thymic lymphomas, indicating that this low-dose-rate radiation does not induce these tumors. Further continuous irradiation up to 450 days (total dose: 12.6 Gy) produced no tumors. Continuously irradiated mice showed no loss of hair and a greater body weight than unirradiated controls. Immune activities of the mice, as measured by the numbers of CD4+ T cells, CD40+ B cells, and antibody-producing cells in the spleen after immunization with sheep red blood cells, were significantly increased by continuous 1.2-mGy/h irradiation alone. These results indicate the presence of an adaptive response in tumor induction, the involvement of radiation-induced immune activation in tumor suppression, and a large dose and dose-rate effectiveness factor (DDREF) for tumor induction with extremely low-dose-rate radiation.     

Caspase inhibition reduces cardiac myocyte dyshomeostasis and improves cardiac contractile function after major burn injury.

In the heart, thermal injury activates a group of intracellular cysteine proteases known as caspases, which have been suggested to contribute to myocyte inflammation and dyshomeostasis. In this study, Sprague-Dawley rats were given either a third-degree burn over 40% total body surface area plus conventional fluid resuscitation or sham burn injury. Experimental groups included 1) sham burn given vehicle, 400 microl DMSO; 2) sham burn given Q-VD-OPh (6 mg/kg), a highly specific and stable caspase inhibitor, 24 and 1 h prior to sham burn; 3) burn given vehicle, DMSO as above; 4) burn given Q-VD-OPh (6 mg/kg) 24 and 1 h prior to burn. Twenty-four hours postburn, hearts were harvested and studied with regard to myocardial intracellular sodium concentration, intracellular pH, ATP, and phosphocreatine (23Na/31P nuclear magnetic resonance); myocardial caspase-1, -3,and -8 expression; myocyte Na+ (fluorescent indicator, sodium-binding benzofurzan isophthalate); myocyte secretion of TNF-alpha, IL-1beta, IL-6, and IL-10; and myocardial performance (Langendorff). Burn injury treated with vehicle alone produced increased myocardial expression of caspase-1, -3, and -8, myocyte Na+ loading, cytokine secretion, and myocardial contractile depression; cellular pH, ATP, and phosphocreatine were stable. Q-VD-OPh treatment in burned rats attenuated myocardial caspase expression, prevented burn-related myocardial Na+ loading, attenuated myocyte cytokine responses, and improved myocardial contraction and relaxation. The present data suggest that signaling through myocardial caspases plays a pivotal role in burn-related myocyte sodium dyshomeostasis and myocyte inflammation, perhaps contributing to burn-related contractile dysfunction.     

Adaptive response and split-dose effect of radiation on the survival of mice

Although the importance of radiation-induced adaptive response has been recognized in human health, risk assessment and clinical application, the phenomenon has not been understood well in terms of survival of animals. To examine this aspect Swiss albino mice were irradiated with different doses (2–10 Gy) at 0015 Gy/s dose rate and observed on a regular basis for 30 days. Since almost 50% lethality was seen with 8 Gy, it was selected as the challenging dose for further studies. Irradiation of mice with conditioning doses (0.25 or 0.5 Gy) and subsequent exposure to 8 Gy caused significant increase in the survival of mice compared to irradiated control. The splitting of challenging dose did not influence the efficiency of conditioning doses (0.25 Gy and 0.5 Gy) to induce an adaptive response. However conditioning doses given in fractions (0.25 Gy + 0.25 Gy) or (0.5 Gy + 0.5 Gy) were able to modulate the response of challenging dose of 8 Gy. These results clearly showed the occurrence of adaptive response in terms of survival of animals. The conditioning dose given in small fractions seemed to be more effective. The findings have been discussed from a mechanistic point of view. The possible biological implications, potential medical benefits, uncertainties and controversies related to adaptive response have also been addressed     

Macrophage migration inhibitory factor mediates late cardiac dysfunction after burn injury

We have recently demonstrated that macrophage migration inhibitory factor (MIF) is a myocardial depressant protein and that MIF mediates late, prolonged cardiac dysfunction after endotoxin challenge in mice. Because many factors, including endotoxin, have been implicated in the pathogenesis of cardiac dysfunction after burn injury, we tested the hypothesis that MIF might also be the mediator of prolonged cardiac dysfunction in this model. At 4 h after 40% total body surface area burn in anesthetized mice, serum MIF levels increased significantly compared with baseline (2.2-fold). This increase was accompanied by a significant decrease in cardiac tissue MIF levels (2.1-fold decrease compared with controls). This pattern was consistent with MIF release from preformed cytoplasmic stores in the heart and other organs. To determine whether MIF mediates cardiac dysfunction after burn injury, mice were pretreated with anti-MIF neutralizing monoclonal antibodies or isotype control antibodies. Beginning 4 h after burn injury (and continuing through 48 h), burned mice demonstrated a significantly depressed left ventricular shortening fraction of 38.6 +/- 1.8%, compared with the normal controls (56.0 +/- 2.6%). Mice treated with anti-MIF displayed an initial depression of cardiac function similar to nontreated animals but then showed rapid restoration of cardiac function with complete recovery by 24 h, which persisted for the duration of the protocol. This study is the first to demonstrate that MIF mediates late, prolonged cardiac dysfunction after burn injury and suggests that MIF blockade should be considered a therapeutic target for the treatment of burn injury.     

Luplatex and its radioprotective properties

In experimental conditions the radioprotective properties of the placental complex Luplatex created in Scientific production complex "Biotechindustry" was studied. In experiments on mice F1(CBA x C57Bl) it was shown that Luplatex injected intraperitoneally in dose 0.5 ml 5-10 min before or after whole body gamma-irradiation with 8 Gy (LD80/30) increased the survival up to 40% as compared to the control group. In white mice protected by oral administration of Luplatex 30 min before exposure to 7.5 Gy, which is absolute minimal lethal dose for this type of mice (LD100/30), the effect was 48.3%.     

Effects of burn injury on myocardial signaling and cytokine secretion: Possible role of PKC

This study examined the effects of major burn injury on the cellular distribution of several PKC isoforms in adult rat hearts and examined the hypothesis that PKC plays a regulatory role in cardiomyocyte cytokine secretion. Burn trauma was given over 40% total body surface area in Sprague-Dawley rats. An in vitro model of burn injury included addition of burn serum, 10% by volume, to primary cardiomyocyte cultures (collagen perfusion). In vivo burn injury produced redistribution of PKCdelta, PKCepsilon, and PKCalpha from the cytosol (soluble) to the membrane (particulate) component of the myocardium. This activation of the PKC isoforms was evident 2 h after burn injury and progressively increased over 24 h postburn. Addition of burn serum to isolated myocytes produced similar PKC isoform redistribution from the soluble to the particulate compartment, promoted myocyte Ca2+ and Na+ loading, and promoted robust myocyte secretion of inflammatory cytokines similar to that reported after in vivo burn injury. Pretreating cardiomyocytes with either calphostin or PKCepsilon inhibitory peptide, a potent inhibitor of PKCepsilon, prevented burn serum-related redistribution of the PKCepsilon isoform and prevented burn serum-related cardiomyocyte secretion of TNF-alpha, IL-1beta, IL-6, and IL-10. These data suggest that the PKCepsilon isoform plays a pivotal role in myocardial inflammatory response to injury, altering cardiac function by modulating cardiomyocyte inflammatory cytokine response to injury.     

The role of interleukin 6 in interferon-gamma production in thermally injured mice

Following traumatic injury, patients suffer from compromised immunity increasing their susceptibility to infection. Previous studies from this laboratory demonstrated that female BALB/c mice subjected to a 15% total body surface area (TBSA) scald injury exhibit a decrease in cell-mediated immunity 10 days post-burn. Studies described herein revealed that concanavalin A (Con A; 2 microg/ml)-stimulated splenocytes from sham treated animals produced 3557+/-853 pg/ml of IFN-gamma while splenocytes from burn injured animals released two-fold more cytokine (P<0.05). To determine whether leukocyte production of IFN-gamma was under the influence of macrophages, splenic macrophage supernatants generated from burned animals were incubated with splenic lymphocytes from sham and burn animals. The amount of IFN-gamma released by lymphocytes from sham animals increased when cultured with macrophages from burned mice (P<0.05). This suggests that the increase in IFN-gamma production by unfractionated splenocytes in burned mice relative to sham treated animals is macrophage-dependent. Macrophage supernatants from burned mice released twice as much IL-6 as supernatants from sham animals (P<0.05), and when IL-6 was blocked in vivo, the amount of IFN-gamma production in burned mice decreased to sham levels (P<0.05). Thus, IL-6 mediates IFN-gamma production following burn.     

Thyroid gland hypofunction during separate and combined radiation-thermal injury

A study was made of the dynamics of structural, morphological and histological changes in the thyroid gland of Wistar rats subjected to gamma-irradiation (7.5 Gy) and thermal burn (15% of a body surface) and a combined effect of these two factors. Concurrently, an estimation was made of the iodine content of the gland, using the roentgen-fluorescent method, and of the thyroxin concentration in blood. The results obtained were considered in relation to the clinical course and the outcome of the affection caused by the combined and individual effects of radiation and heat. It is conluded that the cell-tissue substrate providing the thyroid hormones synthesis does not undergo substantial variations from normal values which could be considered as a cause of the decrease in the hormone content of blood after burn, irradiation and the combined radiation and thermal injury. Other possible causes of hyperthyroxynemia are discussed.     

旋转磁场治疗印^60CO辐射造血损伤小鼠生存分析的实验研究

目的：初步探讨旋转恒定磁场治疗急性骨髓型放射病的效果。方法：BALB／C小鼠按体重随机分为磁疗组和对照组,每组再各分为4组．分别接受0Gy、6．0Gy、8．0Gy、10．0Gy ^60COγ射线全身辐射,照后,对照组不作任何处理,磁疗组接受磁场处理30d,每天2次,每次1．5h,旋转磁场强度为0．6T,比较两组小鼠30d的存活率和存活期。结果：单纯磁场处理对正常小鼠生存状态及存活率无明显影响;10．0Gy组和8．0Gy组小鼠生存率磁疗组与对照组之间比较均无统计学差异（P〉0．05）;6．0Gy组生存率磁疗组和对照组之间比较有统计学差异（P〈0．05）,其磁疗组30d平均存活率为71．43％,平均存活期为（24．93±8．43）d,对照组30d平均存活率21．4l％．平均存活期为（17．07±7．70）d。结论：旋转恒定磁场不能提高10．0Gy及8．0Gy剂量所致极重度急性骨髓型放射病小鼠的生存率,但对6．0Gy所致重度急性骨髓型放射病有明显的保护作用,从而为旋转恒定磁场应用于临床治疗重度急性骨髓型放射损伤提供了实验依据。