Synthesis of lipids in the thymocytes of irradiated rats

During the first two hours following whole-body gamma-irradiation of rats with a dose of 7.5 Gy, the content of free cholesterol, phosphatidylcholine and phosphatidylethanolamine in the thymus decreases. Incorporation of 2-14C-acetate into cholesterol and fatty acids of thymus phospholipids in vitro is inhibited. At a dose of 4 Gy, incorporation of 2-14C-acetate into cholesterol and total lipids of thymocytes is activated.     

Radiation changes in the lipid levels in liver and thymus chromatin of gamma-irradiated rats

A study was made of the lipid content of liver and thymus chromatin of intact and gamma-irradiated (10 Gy) rats 10 and 40 min after irradiation. The composition of the chromatin-bound phospholipids was shown to differ from that of phospholipids of intact nuclei and a nuclear membrane by a much larger content of cardiolipin and sphingomyelin. A decrease in the lipid phosphorus level, increase in the amount of total cholesterol, and a 1.7-fold increase in the cholesterol/phospholipids ratio were observed after irradiation: 40 min after exposure these indices were normalized. The opposite changes were noted in the lipid content of the thymus chromatin: 10 min after irradiation no changes were detected while after 40 min more than a 1.5-fold increase in the cholesterol amount and the cholesterol/phospholipids ratio was registered. The content of cardiolipin was reliably decreased in the chromatin of both organs throughout the entire period of observation.     

The effect of blood serum on synthesis of lipids in rat thymocytes

The increase in the incorporation of [2-14C]sodium acetate into cholesterol, free fatty acids and rat thymocyte phospholipids during incubation of rat cells in the absence of blood serum was demonstrated. The label incorporation into the thymocytes was found to be activated in an insignificant degree. Rat blood sera obtained 1 hour after gamma-irradiation of animals with doses of 4 and 10 Gr contained the same concentrations of cholesterol and its esters as the intact rat sera. Irradiation of animals did not affect the ability of the sera to inhibit lipid synthesis in thymocytes or the levels of total phospholipids, cholesterol and its esters. Incubation of cells with the blood sera from irradiated rats led to an increase in the cholesterol/cholesterol ester ratio in the incubation mixture.     

不同剂量x射线对大鼠精子CRISP2mRNA表达水平的影响

目的：观察不同剂量x射线对大鼠精子CRISP2mRNA表达水平的影响,探讨其在电离辐射所致大鼠精子功能改变中的作用。方法：用吸收剂量为1、2、4、和6Gy的x射线分别照射活体SD大鼠的外生殖系统1…4812、24h后,用PCR技术检测精子CRISP2基因mRNA表达水平;用光学显微镜观察精予活力。以未照射组为对照。结果：4、6GyX射线照射不同时间（1、4、8、12、24h时）后大鼠精子的CRISP2mRNA相对表达量均较对照组显著下降（P．〈0．05）,其中6Gb,照射24小时后相对表达量最低（P〈0．01）,而4Gy照射组与6Gy照射组相比较差异无统计学意义（P〉0．05）;2Gyx射线照射8h后CRISP2mRNA相对表达量下降有统计学意义（P〈0．05）;2GyX射线照射1、4h后及1GyX射线照射不同时间（1、4、8、12、24la）后大鼠精子的CRISP2mRNA相对表达量较对照组下降,但差异无统计学意义（P〉O．05）。1、2GyX射线照射不同时间（1、4、8、12、24小时）及4GyX射线照射（1、4、8h）后,精子活力与正常对照组相比无明显改变（P〉0．05）;4GyX射线照射12、24h后大鼠精子活力显著低于正常对照;6GyX射线照射不同时间（1、4、8、12、24h）后,精子活力明显低于对照组（P〈0．05）。结论：不同剂量X射线照射不同时间可导致SD大鼠精子活力下降,这可能与其下调CRISP2基因的mRNA表达水平有关。     

Quantitative regularities and peculiarities of the development of the cerebral form of radiation sickness at fractionated irradiation

Several peculiarities in manifestations of cerebral form of radiation sickness have been revealed at a fractionated double irradiation with equal and unequal doses per fraction and different intervals between the fractions. A reliable increase in average lifespan of rats irradiated with (100 + 100 Gy) equal doses at 10 and 60 min intervals between two fractions compared to the single radiation exposure to 200 Gy has been obtained. Lifespan of rats irradiated with a total dose greater than 200 Gy in most cases of double exposures with 10 min interval was reliably less than that for animals after a single exposure. The influence of the first dose on the reduction of animal average lifespan increased with fraction dose increasing from 150 to 300 Gy and was most pronounced at the total exposure dose of 400 Gy. Reaction of rats on the repeated irradiation was significantly weakened in comparison with the reaction on the first exposure. At a study of capacitation the interval of 30 min appeared to be more favorable compared to 10 min interval. Importance of a dose value in the first fraction has been demonstrated: the higher this value the worse the capacity of the rats 3 hours after the repeated exposure.     

The effect of X-rays and artificial hypotermia on lipids in rat neocortex

Lipid content of tissue and of fraction of microsomes in neocortex of Wistar rats was studies under artificial hypothermia, after X-ray irradiation in dose 8 Gy under conditions of normothermia and artificial hypothermia in 48 h. The condition of artificial hypothermia get by cooling of rats to 15-18 degrees C. It was shown, that in fraction of microsomes of hypothermia rats the content of phosphatidylinositol was decreased, and in 48 h after cooling of rats the amount of protein, total and individual phospholipids was increased. The lipid content in tissue and in fraction of microsomes of rats, which were irradiated in normotermia, had no changes after 48 h. In fraction of microsomes of rats, which were irradiated after hypothermia, the amount of protein, total phospholipids, sphingomyelin, phosphatidylcholine and phosphatidylserine is increased trustworthy. Thus, we think, that radioprotective effect of hypotermia may be connected with the accumulation of proteins and of phospholipids in the endoplasmic reticulum membranes of neocortex.     

The radioprotective effect of hypothermia on the immune and hematopoietic systems in mammals

The functional activity of the synthetic apparatus (parameter alpha) in blood lymphocytes, bone marrow hemopoietic cells, and thymus cells, as well as the total number of blood and bone marrow cells in rats after y-irradiation at a dose of 8 Gy in the conditions of normothermia and hypothermia (16-18 degrees C) with hypoxia-hypercapnia were investigated after 2 h and on days 1 and 4. The recovery processes in blood in both groups of rats after acute X-irradiation at a dose of 7 Gy for 36 days were analyzed too. Under hypothermia, on days 1-4 after acute gamma-irradiation, a decrease in the synthetic activity in remaining cells and devastation in the hemopoietic system were pronounced to a lesser degree. After X-irradiation, the restoration of synthetic activity in blood lymphocytes was shown to begin earlier and to finish faster in "hypothermic" rats as compared with the animals irradiated in the state of normothermia. The survival of "hypothermic" rats was 100% as compared with 30% in "normothermic" animals. Thus, the data show that hypothermia exerts a radioprotective effect on the cells of the immune and hemopoietic systems, thus enhancing the resistance of the organism to radiation.     

Comparative action of X-rays and fast neutrons on thymus endocrine function

Whole-body exposure of rats to X-rays (4, 6 and 8 Gy) and neutron radiation (1, 1.5 and 2 Gy) causes a dose-dependent inhibition of endocrine function of thymus and death of its lymphoid cells. Shielding of thymus somewhat reduces the degree and duration of inhibition of thymus hormone secretion.     

The effect of gamma irradiation at sub- and supralethal doses on the lipid composition of the mucosa and of the brush border membrane of the small intestine in rats]

A study was made of the amount of cholesterol and its ethers (phosphatidyl choline, phosphatidyl ethanolamine, sphingomyelin, phosphatidyl serine, and phosphatidyl inositol) in mucosa and membrane of the small intestine brush border 24 h after 4 Gy and 2 h after 20 Gy irradiation. No changes in the lipid content of mucosa and membrane of the brush border were noted after 4 Gy irradiation. Exposure to 20 Gy radiation doubled the number of cholesterol ethers and made the number of individual phospholipids and cholesterol increase by nearly 1.5 times. The amount of phosphatidyl serine in the brush border membrane increased by almost 3 times; the concentration of other lipids increased by nearly 1.5 times; cholesterol/phospholipid ratio was unchangeable.     

Dose-rate effects of mammary tumor development in female Sprague-Dawley rats exposed to X and gamma radiation

Mammary tumour development was followed in two experiments involving a total of 2229 female Sprague-Dawley rats exposed to various doses of X or gamma rays at different dose rates. The data for another 462 rats exposed to tritiated water in one of these experiments were also analyzed. The incidence of adenocarcinomas and fibroadenomas at a given time after exposure increased linearly in proportion to total radiation dose for most groups. However, no significant increase in adenocarcinomas was observed with chronic gamma exposures up to 1.1 Gy, and the increase in fibroadenomas observed with chronic gamma exposures at a dose rate of 0.0076 Gy h-1 up to an accumulated dose of 3.3 Gy was small compared to that observed after acute exposures. The incidence of all mammary tumors increased almost linearly with the log of dose rate in the range 0.0076 to 26.3 Gy h-1 for 3 Gy total dose of gamma rays. The effects of X rays appeared to be less influenced by dose rate than were the effects of gamma rays.     

谷氨酰胺对低剂量电离辐射损害的保护作用

观察小剂量电离辐射条件下大鼠补充谷氨酰胺(Gln)对体内谷胱甘肽(GSH)代谢的影响。SD雄性大鼠受照射后经饲料补充2%Gln。照射源为60Co;剂量率6×10-2Gy/h,1h/d,5d/周,累积剂量1.5Gy。与对照组相比,受照射大鼠睾丸重量降低,精子畸变率增高,肝脏GSH含量降低,外周血白细胞计数降低,血清Gln及Glu+Gln含量降低,差异具有显著性,补充Gln则与对照组无明显差异。表明小剂量电离辐射导致大鼠出现可逆性损害,机体的Gln需求有所增加,补充Gln对大鼠的GSH代谢有一定益处。     

Differential expression of oxidative stress and extracellular matrix remodeling genes in low- or high-dose-rate photon-irradiated skin

Changes in the expression of genes implicated in oxidative stress and in extracellular matrix (ECM) remodeling and selected protein expression profiles in mouse skin were examined after exposure to low-dose-rate or high-dose-rate photon irradiation. ICR mice received whole-body γ rays to total doses of 0, 0.25, 0.5 and 1 Gy at dose rates of 50 cGy/h or 50 cGy/min. Skin tissues were harvested for characterization at 4 h after irradiation. For oxidative stress after low-dose-rate exposure, 0.25, 0.5 and 1 Gy significantly altered 27, 23 and 25 genes, respectively, among 84 genes assessed (P < 0.05). At doses as low as 0.25 Gy, many genes responsible for regulating the production of reactive oxygen species (ROS) were significantly altered, with changes >2-fold compared to 0 Gy. For an ECM profile, 18-20 out of 84 genes were significantly up- or downregulated after low-dose-rate exposure. After high-dose-rate irradiation, of 84 genes associated with oxidative stress, 16, 22 and 22 genes were significantly affected after 0.25, 0.5 and 1 Gy, respectively. Compared to low-dose-rate radiation, high-dose-rate exposure resulted in different ECM gene expression profiles. The most striking changes after low-dose-rate or high-dose-rate exposure on ECM profiles were on genes encoding matrix metalloproteinases (MMPs), e.g., Mmp2 and Mmp15 for low dose rate and Mmp9 and Mmp11 for high dose rate. Immunostaining for MMP-2 and MMP-9 proteins showed radiation dose rate-dependent differences. These data revealed that exposure to low total doses with low-dose-rate or high-dose-rate photon radiation induced oxidative stress and ECM-associated alterations in gene expression profiles. The expression of many genes was differentially regulated by different total dose and/or dose-rate regimens.     

Total-body irradiation with high-LET particles: acute and chronic effects on the immune system

Although the immune system is highly susceptible to radiation-induced damage, consequences of high linear energy transfer (LET) radiation remain unclear. This study evaluated the effects of 0.1 gray (Gy), 0.5 Gy, and 2.0 Gy iron ion (56Fe(26)) radiation on lymphoid cells and organs of C57BL/6 mice on days 4 and 113 after whole body exposure; a group irradiated with 2.0 Gy silicon ions (28Si) was euthanized on day 113. On day 4 after 56Fe irradiation, dose-dependent decreases were noted in spleen and thymus masses and all major leukocyte populations in blood and spleen. The CD19(+) B lymphocytes were most radiosensitive and NK1.1(+) natural killer (NK) cells were most resistant. CD3(+) T cells were moderately radiosensitive and a greater loss of CD3(+)/CD8(+) T(C) cells than CD3(+)/CD4(+) T(H) cells was noted. Basal DNA synthesis was elevated on day 4, but response to mitogens and secretion of interleukin-2 and tumor necrosis factor-alpha were unaffected. Signs of anemia were noted. By day 113, high B cell numbers and low T(C) cell and monocyte percents were found in the 2.0 Gy 56Fe group; the 2.0 Gy 2)Si mice had low NK cells, decreased basal DNA synthesis, and a somewhat increased response to two mitogens. Collectively, the data show that lymphoid cells and tissues are markedly affected by high linear energy transfer (LET) radiation at relatively low doses, that some aberrations persist long after exposure, and that different consequences may be induced by various densely ionizing particles. Thus simultaneous exposure to multiple radiation sources could lead to a broader spectrum of immune dysfunction than currently anticipated.     

Phospholipid metabolism in the organs of gamma-irradiated rats

The phospholipid content and incorporation of L-3H-serine and 2-14C-glycerol into phospholipids of the liver, intestine and spleen were studied 48 hr after irradiation of rats with a dose of 8 Gy. The changes in the phospholipid content of the irradiated rat organs were induced by those in the individual phospholipids in the exposed body tissues. This is assumed to be a result of the adaptive reactions of the organism to the damaging effect of ionizing radiation.     

Blueberry extract attenuates γ-radiation-induced hepatocyte damage by modulating oxidative stress and suppressing NF-κB in male rats

Radiation exposure is known to produce many harmful effects in biological systems, and these effects are often mediated by oxygen free radicals. Because blueberries are rich in antioxidant compounds such as anthocyanins and phenolic acids, we divided forty adult rats into four treatment groups of 10 (G1–4) as follows: G1 rats were used as a control, G2 rats were irradiated with 8?Gy at 2?Gy/week at a dose rate of 0.5?Gy/min, G3 rats were administered blueberry extract (200?mg/kg) and G4 rats were administered blueberry extract during the same irradiation period. In subsequent determinations, γ-irradiated rats had increased levels of cholesterol, triglyceride, high density lipoprotein (HDL) and low density lipoprotein (LDL), and significantly elevated liver enzyme activities, including alanine aminotransferase (ALT), aspartate aminotransferase (AST) and alkaline phosphatase (ALP), and total bilirubin. In contrast, significant reductions in albumin, total protein and globulin were observed, whereas gamma irradiation decreased activities of the antioxidant enzymes glutathione (GSH), catalase (CAT), xanthine dehydrogenase (XDH) and superoxide dismutase (SOD). We also observed incremental increases in DNA fragmentation percentages and histopathological changes in liver tissues. Serum pro-inflammatory cytokine levels (IL-6, IL-10 and TNF-α) were significantly elevated and hepatic NF-кB was upregulated. In G4 rats, treatments with blueberry extract restored liver pro-oxidant status, reduced cytokine levels, ameliorated histopathological parameters and reduced DNA damage. In conclusion, γ-radiation exerts toxic effects in the rat livers, and blueberry extract is protective against these.     

The influence of chronic and of acute irradiation on the polymorphism of RAPD-markers in offspring for irradiated mice

On mice lines BALB/c and CBA/lac was performed the study of molecular-genetics effects in mice progeny after the chronic (dose rate -0.0017 Gy/day, total dose -0.36 Gy) and acute (dose range 1-3 Gy) exposure of y-radiation on the parents. For variability analysis was used technique of amplification DNA with series of random primers (RAPD-assay). Random primers were used as single primer and in mixture of ones. In this work were held the comparative analysis of the genetic radiosensitivity for stem spermatogonia and spermatides. After the acute exposure the dose dependence for levels of polymorphism of RAPD-markers were obtained. After the chronic irradiation, significant differences from control group were obtained only by use primers mixture M1. Comparative analysis of the genetic radiosensitivity of different stages of mice spermatogenesis are display is similar sensitivity of stem spermatogonia and spermatides after doses of irradiation 1 Gy and 3 Gy. Indicated that after irradiation by dose 2 Gy, spermatogonia are more sensitivity than spermatides.     

Thymus lipids in continuously irradiated rats.

Male Wistar rats were irradiated continuously with a daily dose of 0.19 Gy (120 days), 0.57 Gy (90 days) and 0.96 Gy (35 days) of gamma rays. An other group of rats was irradiated continuously with graded doses of gamma rays, up to total exposures ranging from 3.83-19.15 Gy. Depending on both the daily dose and total exposure, there was a decrease in phospholipid content in the thymus which correlated well with thymus weight changes. The decrease in triacylglycerol content was a less reliable sign of radiation damage. The phospholipid content reflecting the patterns of organ cellularity is a valuable indicator of the extent as well as recovery from radiation-induced injury to the thymus.     

Effect of ionizing radiation on the lipid fatty acid composition of the plasma membranes of liver cells

Changes in the fatty acid composition of total lipids and individual phospholipids of liver cell plasma membranes of intact and exposed (7.65 Gy) rats have been studied. The authors discuss the relationship between the degree of lipid oxidation and other lipid characteristics of the studied membrane after exposure to ionizing radiation.     

Spleen lipids: effect of whole body gamma irradiation and radioprotective chemicals

Effect of whole body gamma irradiation (1200 r) on spleen lipid metabolism of male and female rats 24 hrs and 48 hrs after irradiation and the effect of radioprotective chemicals vis. AET, serotonin, their mixture and cystamine on radiation induced changes in spleen lipid metabolism has been studied. In male rats both 24 and 48 hrs after irradiation a significant increase in spleen total lipids, cholesterol, phospholipids, phosphatidylethanolamine and phosphatidylcholine was observed. Administration of AET before irradiation prevented the changes in spleen total lipids and cholesterol but not in phospholipids, which was prevented by prior administration of both serotonin and the mixture of serotonin and AET. In female rats 24 hrs after irradiation only spleen total lipids showed an increase which was prevented by prior administration of cystamine. In male rats, 24 hrs after irradiation the incorporation of NaH2 32PO4 (counts/min/ug PLP and counts/min/g spleen) into spleen total phospholipids, phosphatidylcholine and phosphatidylethanolamine was reduced and this was corrected by prior administration of AET. Serotonin and the mixture of serotonin + AET did not protect the specific activity of phosphatidy choline. In female rats irradiation increased the incorporation of NaH2 32PO4 into phosphatidylcholine, which was not prevented by prior administration of cystamine. The fatty acid composition of spleen lipid of female rats was profoundly altered 24 hrs after irradiation. Palmitic acid and oleic acid showed an increase whereas arachidonic and fatty acid above arachidonic acid showed an decrease, which were corrected by administration of cystamine before irradiation.     

Free thymidine in the blood serum of irradiated rats with different levels of cellular depletion of the thymus and spleen

The levels of the postirradiation thymidinemia, with an equal degree of the proceeding cell depletion of lymphoid organ tissues caused by the administration of dexamethasone and exposure of rats to 3 Gy radiation, markedly varied. Three days after the injection of the hormone, the organism responded to irradiation by an increase in the concentration of thymidine in blood serum in the same manner as intact animals did. The preirradiation with a dose of 3 Gy reduced sharply the ability of the organism to respond the repeated irradiation (after 3 days) by thymidinemia. There was a lesser increase in the thymidine concentration in the blood after the injection of dexamethasone than after irradiation inducing the same cell depletion of the thymus and spleen.