Effect of natural and postradiation volatile secretions of mice on the immune reactivity and blood cellularity of irradiated animals

It has been shown that natural and postradiation volatile urinary secretions of mice can remotely restore the immune reactivity and blood indices reduced as a result of exposure of laboratory mice to ionizing radiation. Antibody formation in spleen of gamma-irradiated (1 Gy) CBA strain mice was increased after exposure of both syngeneic and allogeneic animals with urine volatile secretions. Volatile natural secretions of intact mice have a more pronounced antibody stimulating activity than volatile secretions from animals exposed to gamma-radiation. Immunoreactivity ofy-irradiated C57B16 strain mice with low olfactory reactivity increases only after their exposure with volatile secretions of intact syngeneic animals. The total number of leukocytes and lymphocytes in the peripheral blood of gamma-irradiated (1 Gy) inbred mice increases after exposure with secretions obtained from them before irradiation. The role of hemo-signalling in the selective stimulation of immunity and blood content in conditions of radiation damage is discussed.     

DNA protective properties of vanillin against gamma-radiation under different conditions: possible mechanisms

Ionizing radiation is an important genotoxic agent. Protecting against this form of toxicant, especially by a dietary component, has several potential applications. In the present study, we have examined the ability of vanillin (4-hydroxy-3-methoxybenzaldehyde), a naturally occurring food flavouring agent, to inhibit radiation-induced DNA damage measured as strand breaks under in vitro, ex vivo and in vivo conditions besides the possible mechanisms behind the observed protection. Our study showed that there was a concentration-dependent inhibition of the disappearance of super-coiled (ccc) form of plasmid pBR322 (in vitro) upon exposure to 50 Gy of gamma-radiation. Presence of 0.5 mM vanillin has a dose-modifying factor (DMF) of 6.75 for 50% inactivation of ccc form. Exposure of human peripheral blood leucocytes (ex vivo) to gamma-radiation causes strand breaks in the cellular DNA, as assessed by comet assay. When leucocytes were exposed to 2 Gy of gamma-radiation there was an increase in parameters of comet assay such as %DNA in tail, tail length, 'tail moment' and 'Olive tail moment'. The presence of 0.5 mM vanillin during irradiation significantly reduced these parameters. Damage to DNA in mouse peripheral blood leucocytes after whole-body exposure of mice (in vivo) to gamma-radiation was studied at 1 and 2 h post-irradiation. There was recovery of DNA damage in terms of the above-mentioned parameters at 2 h post-irradiation. This was more than that observed at 1 h. The recovery was more in vanillin treated mice. Hence our studies showed that vanillin offers protection to DNA against radiation-induced damage possibly imparting a role other than modulation of DNA repair. To examine the possible mechanisms of radioprotection, in terms of radiation-derived radicals, we carried out the reaction of vanillin with ABTS*(+) radical spectrophotometrically besides with DNA peroxyl and carbonyl radicals by using pulse radiolysis. Our present investigations show that vanillin has ability to protect against DNA damage in plasmid pBR322, human and mouse peripheral blood leucocytes and splenic lymphocytes besides enhancing survival in splenic lymphocytes against gamma-radiation, and that the possible mechanism may involve scavenging of radicals generated during radiation, apart from modulation of DNA repair observed earlier.     

Pathophysiology of ischemic skin flaps: differences in xanthine oxidase levels among rats, pigs, and humans

Oxygen-derived free radicals have been implicated in a variety of diseases and pathologic processes, including ischemia reperfusion injury (IRI). Based on experimental work with rat skin-flap models, the enzyme xanthine oxidase (XO) has been proposed as a major source of free radicals responsible for tissue injury and flap necrosis. The presence of this enzyme is variable within different tissues of a specific species and between species. Xanthine oxidase levels in pig and human skin have not previously been reported. The activity of xanthine oxidase in the skin of rats (N = 16), pigs (N = 7), and humans (N = 8) was measured after varying intervals of ischemia and in the rat also following reperfusion. Control pig and human skin were found to contain minimal enzyme activity, almost 40 times less than that of the rat. In the rat, xanthine oxidase activity was stable throughout a prolonged period of ischemia, and a significant decrease in activity was found after 12 hours of reperfusion (p less than 0.05). In humans, xanthine oxidase activity was unaffected by ischemia time, and in the pig, it did not increase until 24 hours of ischemia (p less than 0.05). The potential sources of free radicals and the mechanism of action of xanthine oxidase and its inhibitor allopurinol in improving flap survival in different species are reviewed.     

Mechanisms of the disorder of the hormonal regulation of plasma membrane adenylate cyclase in the rat liver during early ontogeny under in vitro irradiation

Possible reasons for the previously detected inhibitory effect of gamma-radiation (100-1000 Gy in vitro) on isoproterenol-stimulated activity of adenylate cyclase (AC) of the liver plasma membranes of a 20-day-old rat fetus were investigated. It was discovered that the number of beta-adrenergic receptors was reduced. Analysis of basal and fluorine-stimulated activities of AC attests to the radiation-induced damage to catalytic and N-regulatory proteins. The radiation-induced derangement of membrane lipids, where AC functions, is shown.     

Effect of ionizing radiation on Fc-receptors of mouse peritoneal mononuclear cells

The influence of different gamma-radiation doses on the number of mouse peritoneal mononuclears bearing Fc-receptors was studied. At doses of 7 and 9.5 Gy, phase changes were observed in the number of cells bearing Fc-receptors: a short-term rise registered 24 h to 2 days after irradiation was followed by depression. In addition, the total number of peritoneal mononuclears decreased. At a dose of 100 Gy, the number of cells with Fc-receptors was reduced as early as 1 h after irradiation, and the pronounced cell lysis occurred.     

胶原蛋白的电子活性与矽肺纤维化Ⅱ正常大鼠与实验性矽肺大鼠肺Ⅰ型胶原稳定自由基的研究

由正常大鼠肺撮取的酸溶性Ⅰ型胶原出现一个明显的ESR信号(g=2.006),而由矽肺大鼠提取的酸溶性Ⅰ型胶原较少或缺乏该ESR信号,该信号不是顺磁过渡元素产生,而是稳定自由基的反映.肺胶原可能存在两种稳定的自由基,一种易受紫外线辐照的激发并且在电场极化下自旋耦合而减弱,另一种自由基则相对稳定,对紫外线辐照和电场极化不敏感.矽肺胶原缺乏活泼性较高的稳定自由基.     

胶原蛋白的电子活性与矽肺纤维化Ⅱ正常大鼠与实验性矽肺大鼠肺Ⅰ型胶原稳定自由基的研究

由正常大鼠肺撮取的酸溶性Ⅰ型胶原出现一个明显的ESR信号(g=2.006),而由矽肺大鼠提取的酸溶性Ⅰ型胶原较少或缺乏该ESR信号,该信号不是顺磁过渡元素产生,而是稳定自由基的反映.肺胶原可能存在两种稳定的自由基,一种易受紫外线辐照的激发并且在电场极化下自旋耦合而减弱,另一种自由基则相对稳定,对紫外线辐照和电场极化不敏感.矽肺胶原缺乏活泼性较高的稳定自由基.     

Curcumin treatment enhances the repair and regeneration of wounds in mice exposed to hemibody gamma-irradiation

Hemibody irradiation in multiple fractionated doses is frequently used for the treatment of various neoplastic disorders. It produces both acute and late effects on the skin and subcutaneous tissues that have profound implications in the healing of surgical wounds. Because of the crucial practical importance of hemibody radiation exposure associated with skin wounds, it is imperative to investigate the efficacy of cost-effective herbal products in the reconstruction of irradiated wounds. Therefore, the effect of pretreatment of curcumin was studied on the healing of excision wound in mice exposed to 2, 4, 6, or 8 Gy of hemibody gamma-radiation. A full-thickness skin wound was created by removing the skin flap of the dorsum of 8- to 10-week-old Swiss albino mice partially (lower half, below the rib cage) exposed to 2, 4, 6, or 8 Gy of gamma-radiation. The progression of wound contraction was monitored periodically by capturing video images of the wound, where the first image of each wound from different groups was obtained 1 day after wounding and that day was considered as day 0. Eight animals were used in each group at each exposure dose for wound contraction studies. Furthermore, the effect of curcumin on mean healing time after exposure of mice to 2, 4, 6, or 8Gy of hemibody gamma-radiation was also evaluated, where eight animals were used in each group at each exposure dose. Collagen, hexosamine, DNA, nitric oxide, and histologic profiles were also evaluated during the course of healing of excision wounds at days 4, 8, and 12 after irradiation treated or not with curcumin before exposure to 0 or 6 Gy of gamma-radiation. Six animals were used in each group at each interval for each biochemical parameter studied, except for histologic evaluations, where four animals were used in each group at each interval. Exposure of mice to different doses of gamma-radiation resulted in a dose-dependent delay in contraction and wound-healing time of excision wound, whereas curcumin pretreatment caused a significant elevation in the rate of wound contraction and a decrease in the mean wound-healing time. Treatment with curcumin before irradiation enhanced the synthesis of collagen, hexosamine, DNA, nitrite, and nitrate, and histologic assessment of wound biopsy specimens revealed improved collagen deposition and an increase in fibroblast and vascular densities. The authors' study demonstrates that curcumin pretreatment has a conducive effect on the irradiated wound and could be a substantial therapeutic strategy for ameliorating radiation-induced delay in wound repair in cases of radiation-induced skin injuries.     

Biosynthesis of nuclear sap proteins in the thymocytes of irradiated rats

A study was made of biosynthesis of nuclear sap proteins in rat thymus cells exposed to 8 Gy gamma-radiation. Four hours following irradiation, changes were observed in the nuclear sap protein spectrum which were not associated with proteolysis.     

Lycopene as a natural protector against gamma-radiation induced DNA damage, lipid peroxidation and antioxidant status in primary culture of isolated rat hepatocytes in vitro

The present study was designed to evaluate the radioprotective effect of lycopene, a naturally occurring dietary carotenoid, on gamma-radiation induced toxicity in cultured rat hepatocytes. The cellular changes were estimated using lipid peroxidative indices like thiobarbituric acid reactive substances (TBARS), superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), reduced glutathione (GSH), ceruloplasmin, vitamins A, E, C and uric acid. The DNA damage was analysed by single cell gel electrophoresis (comet assay). The increase in the severity of DNA damage was observed with the increase in gamma-radiation dose (1, 2 and 4 Gy) in cultured rat hepatocytes. TBARS were increased significantly whereas the levels of GSH, vitamins C, E and A, ceruloplasmin, uric acid and antioxidant enzymes were significantly decreased in gamma-irradiated groups. The maximum damage to hepatocytes was observed at 4 Gy irradiation. Pretreatment with lycopene (1.86, 9.31 and 18.62 microM) showed a significant decrease in the levels of TBARS and DNA damage. The antioxidant enzymes increased significantly along with the levels of GSH, vitamins A, E, C, uric acid and ceruloplasmin. The maximum protection of hepatocytes was observed at 9.31 muM of lycopene pretreatment. Thus, our results show that pretreatment with lycopene offers protection against gamma-radiation induced cellular damage and can be developed as an effective radioprotector during radiotherapy.     

The triboluminescent spectra of the blood of gamma-irradiated rats

Triboluminescence (TL) of rat blood 3 h after whole-body single exposure to gamma-radiation (0.25, 1, 3, and 5 Gy) exhibited positive coefficient of correlation r = 0.99 (at a wave length of 412 nm) with radiation dose. The effect of ionizing radiation on the animal body caused changes in blood TL within the fixed areas of the spectral range, whose fluctuation parameters were conditioned by specifically significant radiobiological changes and nonspecific adaptive reactions.     

Radiation-induced and embryotoxic effects in experimental hyperthyroidism

The purpose of this article was investigation the development of the posterity rat (line Wistar) in the postnatal ontogenesis after combined and separate action of gamma-radiation (1.25 Gy at 20 days) and hyperthyroidism, provoked by toxic thyroid doses of 100 mg thyroidin per rat. It was shown that hyperthyroidism did not affect physical development of the irradiated posterity, but in a long-time period (7 month) it was revealed a decrease in ability to the training of posterity rats after the combined action of the factors.     

Mechanism of the antimutagenic action of interferon: the capacity to protect the human cellular repair system

It has been shown that premutagenic treatment with leukocytic interferon (10, 100 IU/ml) of human peripheral blood lymphocytes cultivated in vitro at the G1-stage of the mitotic cycle results in different cell response to gamma-radiation in doses of 0.5, 1, 2, 4 Gy according to chromosome aberration. The antimutagenic effect failed to be attained with the doses 0.5 and 1 Gy, being maximal at the dose 2 Gy. According to sister chromatid exchanges (SCE) cell pretreatment with interferon leads to a reduction in the effect of gamma-radiation at the dose 2 Gy to the level obtained in the cells after exposure to interferon. In experiments with 4-nitroquinoline-I-oxide, there was a significant decrease in the number of SCE in interferon-treated cells.     

Relationship between serum reactive oxidative metabolite level and skin reaction in an irradiated rat model

Abstract

Purpose. Ionizing radiation generates free radicals and reactive oxygen species that induce DNA damage in vivo. This study aimed to determine the relationship between serum reactive oxygen metabolite (ROM) levels and skin reaction after irradiation in a rat model. Methods and materials. I. Female Wistar rats were classified into 0 Gy (control), 2 Gy, and 30 Gy groups; serum ROM levels were measured in the very acute phase. II. Other female Wistar rats were classified into 0 Gy (control), 30 Gy, 50 Gy, and 70 Gy groups; serum ROM levels were measured before and 3, 7, 16, 24, 31, and 38 days after irradiation. Skin reaction was evaluated according to the SRS (0–5) twice every week. Results. Serum ROM levels in the subacute phase were significantly higher in the 50 and 70 Gy groups than in the 0 and 30 Gy groups [p = 0.029, repeated-measure analysis of variance (ANOVA)]. As expected, SRSs increased in the order of the 0 Gy, 30 Gy, 50 Gy, and 70 Gy groups and differed significantly among these groups (p < 0.001, repeated-measure ANOVA). Peak serum ROM levels were observed 16 days after irradiation in all irradiated groups and corresponded with the appearance of visible skin reaction after irradiation. Conclusions. Serum ROM levels may be useful for evaluating radiation damage in mammals. Further investigations are required to investigate changes in intracellular metabolism after irradiation at gene and protein levels.     

Mitochondrial DNA point mutations and a novel deletion induced by direct low-LET radiation and by medium from irradiated cells

Radiation damage incurred by nuclear DNA is well documented and interest is increasing in the properties of 'bystander' factor(s) and their ability to induce radiation-like damage in cells never exposed to radiation. 'Bystander' and direct low-LET radiation effects on the mitochondria, and more particularly the mitochondrial genome are less well understood. In this study HPV-G cells (a human keratinocyte cell line derived from human neonatal foreskin transfected with the HPV-16 virus) were exposed to either gamma-radiation doses as low as 5 mGy and up to 5 Gy from a 60Co teletherapy unit, or to growth medium taken from similarly irradiated cells, i.e. irradiated cell conditioned medium (ICCM). Mutation and deletion analysis was performed on mitochondrial DNA (mtDNA) 4-96 h after exposure. Primers flanking the so-called mitochondrial 'common deletion' were employed to assess its possible induction. Single-strand conformation polymorphism (SSCP) analysis was conducted to identify induced point mutations. The relative mitochondrial number per cell was analysed by semi-quantitative PCR (sqPCR). Results indicate the induction of a relatively novel deletion in the mitochondrial genome as early as 12 h after direct exposure to doses as low as 0.5 Gy and 24 h after exposure to 0.5-Gy ICCM. SSCP analysis identified the induction of point mutations, in a non-consistent manner, in only the D-loop region of the mitochondrial genome and only in cells exposed to 5 Gy, and neither in cells exposed to lower doses of direct radiation nor in those exposed to ICCM. SqPCR also identified an increase in the number of mitochondria per cell after both exposure to low level gamma-radiation and ICCM, indicative of a possible mechanism to respond to mitochondrial stress by increasing the number of mitochondria per cell.     

Influence of gamma irradiation on the chemiluminescence of alveolar macrophages in guinea pigs at rest or activated

The capacity of Guinea Pig alveolar macrophages to produce oxygenated free radicals after in vitro gamma irradiation was studied. We observed an increase of resting cell chemiluminescence with 3 Gy, then an important decrease from 3 Gy to 30 Gy. Chemiluminescence of zymosan activated macrophages was reduced at 10 Gy and 30 Gy, while activation by IgG anti-MHC antigens was not affected by the same radiation doses. These results could be of great interest for the study pulmonary defense mechanisms after irradiation.     

Study of formation and elimination of 8-oxoguanine in DNA of the liver and brain of mice after gamma-irradiation

8-oxoguanine (8-OG) is a biological marker of oxidative damage to DNA by reactive oxygen species. With the help of monoclonal antibodies to 8-OG, by the method of chemiluminescence enzyme immunoassay essential distinctions were found in formation and elimination of this damage to DNA in a liver and brain of mice exposed to 20 Gy of gamma-radiation. A spontaneous level of 8-OG in DNA of brain is much higher than in DNA of liver. Registered immediately after the exposure, the induction of 8-OG in DNA was approximately 3 times greater in brain than in liver. Elimination of 8-OG from DNA of both tissues proceeds more actively only during 30 min after the exposure, and the significant percentage (26-30%) of these damage is kept in DNA of the tissues for 3 hours after the exposure. The levels of lipidsoluble antioxidants, determined by the reaction with a stable free radical, in tissues of mice do not correlate with a quantity of 8-OG, arising in DNA spontaneously and under irradiation.     

Long-term pathomorphologic changes in the neurons of the rat brain following irradiation with carbon ions and gamma rays

Quantitative and qualitative morphological changes in neurons and glia of rat brain were studied one month after exposure to accelerated carbon ions 4 GeV/nucleon (LET-76 MeV cm2.r-1) and gamma-radiation (137Cs, 0.25 to 4.0 Gy). There were certain peculiarities in the structural changes induced by the effect of carbon ions that possessed a higher relative biological effectiveness.     

Treatment of Irradiated Mice with High-Dose Ascorbic Acid Reduced Lethality

Ascorbic acid is an effective antioxidant and free radical scavenger. Therefore, it is expected that ascorbic acid should act as a radioprotectant. We investigated the effects of post-radiation treatment with ascorbic acid on mouse survival. Mice received whole body irradiation (WBI) followed by intraperitoneal administration of ascorbic acid. Administration of 3 g/kg of ascorbic acid immediately after exposure significantly increased mouse survival after WBI at 7 to 8 Gy. However, administration of less than 3 g/kg of ascorbic acid was ineffective, and 4 or more g/kg was harmful to the mice. Post-exposure treatment with 3 g/kg of ascorbic acid reduced radiation-induced apoptosis in bone marrow cells and restored hematopoietic function. Treatment with ascorbic acid (3 g/kg) up to 24 h (1, 6, 12, or 24 h) after WBI at 7.5 Gy effectively improved mouse survival; however, treatments beyond 36 h were ineffective. Two treatments with ascorbic acid (1.5 g/kg × 2, immediately and 24 h after radiation, 3 g/kg in total) also improved mouse survival after WBI at 7.5 Gy, accompanied with suppression of radiation-induced free radical metabolites. In conclusion, administration of high-dose ascorbic acid might reduce radiation lethality in mice even after exposure.     

Real-time continuous-flow spin trapping of hydroxyl free radical in the ischemic and post-ischemic myocardium

Real-time monitoring of spin-trapped oxygen-derived free radicals released by the isolated ischemic and reperfused rat heart has been achieved by ESR analysis of the coronary effluents using continuous flow detection and high-speed acquisition techniques. Two nitrone spin traps 5,5-dimethyl pyrroline 1-oxide (Me2PnO) and 3,3,5,5-tetramethyl pyrroline 1-oxide (MePnO) have been separately perfused at a concentration of 40 mM during a sequence of 50 min of low-flow ischemia (1 ml/min) followed by 30 min of global ischemia and subsequent reperfusion at the control flow rate (14 ml/min). ESR spectra were sequentially obtained in 5-min or 30-s blocks during low-flow ischemia and reperfusion, respectively. 1. The results show the formation of OH. free radicals in the ischemic and reperfused heart, as demonstrated by the observation of Me2PnO-OH (aN = aH = 14.9 G; g = 2.0053) and Me4PnO-OH (aN = 15.2 G, aH = 16.8 G; g = 2.0055) spin adducts. There is no evidence of significant biological carbon-centered or peroxyl free radicals spin-adduct formation in the coronary effluents or in lipid extracts analyzed after reflow. 2. The OH. generation began 15-20 min after the onset of ischemia and was moderate, peaking at 30-40 min. During reperfusion, an intense formation of OH. spin adducts was observed, with a maximum at 30-60 s and a further gradual decrease over the following 2 min. 3. Cumulative integrated values of the amount of spin adducts released during the ischemic period show a Me2PnO-OH level fourfold greater than that of Me4PnO-OH. It was 2.5 times greater during reflow, reflecting slower kinetics with the more stable Me4PnO. 4. The original ESR detection technique developed in this study allows accurate real-time quantitative monitoring of the oxygen-derived free radicals generated during myocardial injury. It might provide a quick and reliable new means for assessing the efficacy of free-radical inhibitors.