黄皮种子脱水敏感性与脂质过氧化作用

黄皮种子自然脱水时,种子的发芽率和发芽指数迅速下降;种子浸泡液的电导率和可溶性物质的量大大增加;线粒体膜和质膜ＡＴＰａｓｅ的活性下降,种子中ＳＯＤ活性先上升,然后下降;脂质过氧化产物ＭＤＡ和脂质氢过氧化物的量大大增加。     

NaCl胁迫对螺旋藻生长及抗氧化酶活性的影响

在０１％～５．０％ＮａＣｌ浓度范围的培养基中培养极大螺旋藻（Ｓｐｉｒｕｌｉｎａｍａｘｉｍａ）,发现ＮａＣｌ浓度高于２．０％时螺旋藻生长受到明显抑制。培养７天后测定超氧化物歧化酶（ＳＯＤ）、抗坏血酸过氧化物酶（ＡＳＡＰＯＤ）、过氧化氢酶（ＣＡＴ）活性和丙二醛（ＭＤＡ）含量。结果表明：在盐胁迫下,ＳＯＤ酶活性升高;抗坏血酸过氧化物酶和过氧化氢酶活性在低盐胁迫下活性升高,高盐胁迫下抗坏血酸过氧化物酶活性迅速降低,过氧化物酶则完全失活;ＭＤＡ含量先随盐胁迫程度增加而降低,后随盐胁迫的进一步增强恢复至对照水平。     

酸枣仁总皂甙对缺氧—再给氧心肌细胞的保护作用

按Ｌａａｒｓｅ’ｓ方法建立培养心肌细胞缺氧－再给氧（Ａ－Ｒ）模型,缺糖缺氧６０ｍｉｎ,再给氧３０ｍｉｎ。结果发现,缺氧组心肌细胞ＭＤＡ含量增加,ＳＯＤ活性降低,细胞膜脂质流动性下降,再给氧组上述改变加剧。酸枣仁总皂甙（ＺＳ）能剂量依赖性地显著降低心肌细胞ＭＤＡ含量,提高ＳＯＤ活性,增加细胞膜脂质流动性。证明ＺＳ有明显抗心肌细胞缺氧－再给氧损伤作用。     

云南高原水稻幼苗的抗冷性与其活性氧清除系统的关系

经低温（２℃或５℃）暗处理（１－５ｄ）的耐寒性不同的云南高原水稻幼苗，超氧物歧化酶（ＳＯＤ），过氧化物酶（ＰＯＸ）的活性均有不同程度的下降。胁迫后光下（２８℃，２５００ｌｘ）恢复，耐寒性较强的品种ＳＯＤ，ＰＯＸ活性均比对照值明显提高，耐寒性弱的品种仍低于对照值。随着低温时间的延长，低温胁迫程度的加深和光下恢复，抗坏血酸（ＡＳＡ）和谷胱甘肽（ＧＳＨ）含量逐渐减少，丙二醛（ＭＤＡ）含量则逐渐增加。耐寒性强的品种ＡＳＡ和ＧＳＨ含量减少较小，ＭＤＡ含量增加也较小。     

三唑酮对黄瓜子叶抗氧化酶活力的影响

黄瓜子叶衰老过程中超氧物歧化酶（ＳＯＤ）、过氧化氢酶（ＣＡＴ）和抗坏血酸－过氧化物酶（ＡＳＡ－ＰＯＤ）活性降低,而过氧化物酶（ＰＯＤ）活性升高。２０ｍｇ／Ｌ三唑酮右明显提高ＳＯＤ,ＡＳＡ－ＰＯＤ,ＣＡＴ活性,抑制ＰＯＤ活性升高。膜脂过氧化产物丙二醛（ＭＤＡ）含量在叶片衰老过程中提高,三唑酮可降低ＭＤＡ含量。表明三唑酮减轻脂氧化程度,延缓了叶片的衰老。     

低强度激光血管照射治疗脑损伤的实验研究

本实验采用ＳＤ大鼠脑损伤模型,设对照组和照射组,采用低能量半导体激光器对大鼠股静脉进行血管外照射,水迷宫试验测定大鼠记忆功能,并测定脑组织和血ＳＯＤ、ＭＤＡ含量。结果发现低强度激光血管照射能促进照射组记忆功能的恢复,使ＳＯＤ活性提高,ＭＤＡ含量降低。这提示低强度激光照射改善了脑损伤后脑组织的缺血缺氧状态,从而减轻了氧自由基反应造成的继发性脑损害     

高强光下SO^2—3和F^—对盐藻叶绿素荧光特性的影响

高强光下，盐藻以５０ｍｏｌ．Ｌ＾－１和ＳＯ６２－３和Ｆ＾－处理１ｈ后，其体内ＭＤＡ含量上升，ＳＯＤ活性，Ｆｖ／Ｆｍ，Ｆｖ／Ｆｏ，ＰＳⅡ电子传递活性和游离－ＳＨ含量均下降；２．以ＳＯ＾２－３处理后转置于低强江下３ｈ，ＤＮＡ含量下降，Ｆｖ／Ｆｍ，Ｆｖ／Ｆｏ，ΦＰＳⅡ和ＳＯＤ活性回升，游离－ＳＨ含量增加，暗下不能恢复；９３０以Ｆ＾－处理后无论在低强江或暗下上述指标都不能恢复，甚至继续发展。     

水杨酸对黄瓜叶片抗氧化剂酶系的调节作用

分析了水杨酸（ＳＡ）对黄瓜（ＣｕｃｕｍｉｓｓａｔｉｖｕｓＬ．）叶片抗氧化剂酶系活性及活性氧水平的调节作用。不同浓度的ＳＡ（０．５ｍｍｏｌ／Ｌ、１ｍｍｏｌ／Ｌ、２．５ｍｍｏｌ／Ｌ、５ｍｍｏｌ／Ｌ）均能显著地提高被处理叶片超氧化物歧化酶（ＳＯＤ）和过氧化物酶（ＰＯＤ）活性,而且还能诱导同株的非处理叶片中ＳＯＤ和ＰＯＤ活性增加。用１ｍｍｏｌ／ＬＳＡ处理第一片真叶,在处理后６～７２ｈ,ＰＯＤ活性增加了２２％～６７％,同株非处理的第二片真叶ＰＯＤ活性增加了１４％～８６％,但是,在ＳＡ处理后３ｈ之前以及处理９６ｈ之后,ＰＯＤ活性没有变化。ＳＡ能够显著降低超氧物阴离子含量和提高过氧化氢水平,但它对过氧化氢酶（ＣＡＴ）活性的抑制作用很弱,表明ＳＡ提高体内过氧化氢含量的原因主要是通过提高ＳＯＤ活性而不是抑制ＣＡＴ活性。同工酶分析表明,ＳＡ不能诱导新的ＳＯＤ同工酶,但可以诱导新的ＰＯＤ同工酶。     

紫胡提取物防醉作用的研究

本文研究柴胡（Ｒａｄｉｘ Ｂｕｐｌｅｒｉ）有效成分的提取及其防醉作用的机理。实验结果表明：胡提取物具有提高中枢神经兴奋性,可以诱导肝药酶活性,提高肝匀浆超氧化物歧化酶（ＳＯＤ）活性,降低脂质过氧化物（ＬＰＯ）含量等效果,因而具有防醉和保护肝脏的作用。     

三唑酮对绿豆幼苗叶片衰老的延缓作用

三唑酮处理可提高离体绿豆（ＰｈａｓｅｏｌｕｓｒａｄｉａｔｕｓＬ．）幼苗叶片叶绿素和蛋白质含量。叶片衰老过程中超氧物歧化酶（ＳＯＤ）、过氧化物酶（ＰＯＤ）、过氧化氢酶（ＣＡＴ）和抗坏血酸过氧化物酶（ＡｓＡＰＯＤ）活性及抗坏血酸（ＡｓＡ）和还原型谷胱甘肽（ＧＳＨ）含量降低。２０ｍｇ／Ｌ三唑酮可提高ＰＯＤ、ＡｓＡＰＯＤ活性和ＡｓＡ、ＧＳＨ含量,对ＳＯＤ、ＣＡＴ活性无影响。丙二醛（ＭＤＡ）含量在叶片衰老过程中提高,并与ＰＯＤ、ＡｓＡＰＯＤ活性和ＡｓＡ、ＧＳＨ含量呈显著负相关,三唑酮可降低ＭＤＡ含量。表明三唑酮有提高植物对膜脂过氧化作用的保护能力,延缓叶片的衰老作用。     

The antiradiation properties of the ecdysteroid-containing compounds

The antiradiation properties of the ecdysteroid-containing preparations ("serpisten" and inokosterone) are studied under their application before or after the 22.6 cGy chronic low intensity gamma-irradiation of mice. It is shown that the antiradiation of these compounds depend on the dose of preparations and time of the application before or after irradiation of mice. "Serpisten" prevented the decrease of the growth of the body mass of irradiated mice. The normalization of the phospholipid composition of the mice liver and blood erythrocytes for the most investigated parameters revealed under the application of this compound at the dose of 50 mg/kg after the irradiation of animals. The capacity of "serpisten" to decompose of peroxides is shown in vitro. Inokosterone had the certain anabolic properties, caused the normalization of the total peroxidase activity of blood and intensity of the lipid peroxidation (LPO) in brain and in liver, and also the repair of the interrelation between the LPO intensity and catalase activity in the irradiated mice liver. The obtained results allow to conclude that the antiradiation properties of the ecdysteroid-containing preparations under the chronic low intensity irradiation of animals at the low dose due to their capacity to depend on the LPO regulatory system parameters.     

Dramatic Increase in Oxidative Stress in Carbon-Irradiated Normal Human Skin Fibroblasts

Skin complications were recently reported after carbon-ion (C-ion) radiation therapy. Oxidative stress is considered an important pathway in the appearance of late skin reactions. We evaluated oxidative stress in normal human skin fibroblasts after carbon-ion vs. X-ray irradiation. Survival curves and radiobiological parameters were calculated. DNA damage was quantified, as were lipid peroxidation (LPO), protein carbonylation and antioxidant enzyme activities. Reduced and oxidized glutathione ratios (GSH/GSSG) were determined. Proinflammatory cytokine secretion in culture supernatants was evaluated. The relative biological effectiveness (RBE) of C-ions vs. X-rays was 4.8 at D₀ (irradiation dose corresponding to a surviving fraction of 37%). Surviving fraction at 2 Gy (SF2) was 71.8% and 7.6% for X-rays and C-ions, respectively. Compared with X-rays, immediate DNA damage was increased less after C-ions, but a late increase was observed at D_10% (irradiation dose corresponding to a surviving fraction of 10%). LPO products and protein carbonyls were only increased 24 hours after C-ions. After X-rays, superoxide dismutase (SOD) activity was strongly increased immediately and on day 14 at D_0% (irradiation dose corresponding to a surviving fraction of around 0%), catalase activity was unchanged and glutathione peroxidase (GPx) activity was increased only on day 14. These activities were decreased after C-ions compared with X-rays. GSH/GSSG was unchanged after X-rays but was decreased immediately after C-ion irradiation before an increase from day 7. Secretion of IL-6 was increased at late times after X-ray irradiation. After C-ion irradiation, IL-6 concentration was increased on day 7 but was lower compared with X-rays at later times. C-ion effects on normal human skin fibroblasts seemed to be harmful in comparison with X-rays as they produce late DNA damage, LPO products and protein carbonyls, and as they decrease antioxidant defences. Mechanisms leading to this discrepancy between the two types of radiation should be investigated.     

Modifying properties of 2,5-diphenyloxazole during low-dose X-ray exposure of mice

The ability of 2,5-diphenyloxazole (DPO) to modify biological consequences of the X-rays irradiation of mice was studied with a dose of 16 cGy at the administration of the agent in a wide range of concentrations before or after irradiation was studied. It was shown that the administration of the agent in doses 9.9 x 10(-3)-9.8 mg/kg 35-60 min before irradiation causes a reliable decrease in the spleen mass within 1 month after the action; for the dose 1 mg/kg, it causes the tendency to decrease of the content of lipid peroxidation (LPO) products; the dose 9.8 mg/kg causes a decrease in the cell-free DNA amount in blood plasma of mice. The administration of DPO before irradiation causes changes in the scale and direction of the correlation between the DNA and LPO products contents in blood plasma of irradiated mice compared with the control. The administration of DPO 15-60 min after irradiation do not cause any reliable changes in the investigated parameters. The aviability of the study of the radioprotective properties of the DPO derivatives as agents with a nontraditional character of action is supposed.     

Oxidative stress and adult neurogenesis-Effects of radiation and superoxide dismutase deficiency

Hippocampus plays an important role in learning and memory and in spatial navigation. Production of new neurons that are functionally integrated into the hippocampal neuronal network is important for the maintenance of functional plasticity. In adults, production of new neurons in the hippocampus takes place in the subgranular zone (SGZ) of dentate gyrus. Neural progenitor/stem cells go through processes of proliferation, differentiation, migration, and maturation. This process is exquisitely sensitive to oxidative stress, and perturbation in the redox balance in the neurogenic microenvironment can lead to reduced neurogenesis. Cranial irradiation is an effective treatment for primary and secondary brain tumors. However, even low doses of irradiation can lead to persistent elevation of oxidative stress and sustained suppression of hippocampal neurogenesis. Superoxide dismutases (SODs) are major antioxidant enzymes for the removal of superoxide radicals in different subcellular compartments. To identify the subcellular location where reactive oxygen species (ROS) are continuously generated after cranial irradiation, different SOD deficient mice have been used to determine the effects of irradiation on hippocampal neurogenesis. The study results suggest that, regardless of the subcellular location, SOD deficiency leads to a significant reduction in the production of new neurons in the SGZ of hippocampal dentate gyrus. In exchange, the generation of new glial cells was significantly increased. The SOD deficient condition, however, altered the tissue response to irradiation, and SOD deficient mice were able to maintain a similar level of neurogenesis after irradiation while wild type mice showed a significant reduction in the production of new neurons.     

小鼠低剂量辐射损伤模型的初步研究

目的:对小鼠低剂量辐射损伤模型进行初步研究并筛选敏感检测指标.方法:实验分7组,1组为正常组,其余6组用XHA600直线加速器射线照射,每组取一部分小鼠于照射后2、4、8、16h测定红细胞(RBC)、白细胞(WBC)、血小板(PLT)和血红蛋白(HGB)含量;测定小鼠肝脏和脾脏重量及其组织中的超氧化合物歧化酶(SOD)和丙二醛(MDA)含量;剩余小鼠于4周后观察骨髓切片中血细胞变化.结果:照射后4h测定血常规,发现累积辐射0.4Gy组小鼠RBC有降低趋势,WBC、HGB显著降低,PLT显著升高;肝脏、脾脏的湿质量显著降低;小鼠肝脏组织中MDA的含量显著升高、SOD的活力显著降低;4周后小鼠骨髓细胞的病理改变与单次照射剂量相关,单次较大剂量(如0.6Gy)照射对骨髓细胞影响较大,在4周观察期不能自身恢复,而多次累积照射对骨髓细胞病理改变较小.结论:小鼠低剂量辐射损伤模型的最佳造模剂量为累积照射0.4Gy即每次照射100mGy,间隔一天,连续照射4次.     

Oxidative stress in zinc-induced dopaminergic neurodegeneration: implications of superoxide dismutase and heme oxygenase-1

The study was undertaken to investigate the effect of zinc (Zn) on glutathione S-transferase (GST) and superoxide dismutases (SOD) activities and on the expressions of cytosolic Cu, Zn-SOD (SOD1), mitochondrial Mn-SOD (SOD2), γ-glutamyl cysteine synthetase (γ-GCS) and heme oxygenase-1 (HO-1) in the nigrostriatal tissue of rats. Additionally, Zn-induced alterations in the neurobehavioral parameters, lipid peroxidation (LPO), striatal dopamine and its metabolites and tyrosine hydroxylase (TH) protein expression were measured to assess their correlations with the oxidative stress. Zn exposure reduced the locomotor activity, rotarod performance, striatal dopamine and its metabolites and TH protein expression. LPO, total SOD, SOD1 and SOD2 activities were increased while GST and catalase were reduced in a dose and time dependent manner. Expressions of SOD1 and HO-1 were increased while no change was observed in SOD2 and γ-GCS expressions. The results obtained suggest that Zn-induced augmentation of total SOD, SOD1, SOD2 and HO-1 was associated with increased oxidative stress and neurodegenerative indexes indicating the involvement of both cytosolic and mitochondrial machinery in Zn-induced oxidative stress leading to dopaminergic neurodegeneration.     

微波辐射对肾小管上皮细胞的影响以及金雀异黄素对其保护作用

目的：观察微波辐照对人近端肾小管上皮细胞（HKC）的影响及金雀异黄素对其的保护作用。方法：HKC分为对照组、微波辐照组、金雀异黄素组（n=6）。金雀异黄素组在辐照前2 h用含30μmol/L金雀异黄素的DMEM培养基进行预培养。辐照后24 h留取上清进行乳酸脱氢酶（LDH）、β-N-乙酰氨基葡萄糖苷酶（NAG）活性及丙二醛（MDA）、超氧化物歧化酶（SOD）活性检测。Hoechst 33258染色观察细胞凋亡情况。结果：与对照组比较,微波辐照组上清NAG、LDH活性明显增加（P < 0.01）,金雀异黄素预处理组则较微波辐照组明显下降（P < 0.01）;微波辐照组上清活性也较对照组明显增加（P < 0.01）。Hoechst 33258染色显示,微波辐照可导致较多量的细胞凋亡,而应用金雀异黄素预处理后细胞凋亡的比例均大大减少。微波辐照可大大提高HKC细胞中的MDA含量,SOD活性降低（P< 0.01）,应用金雀异黄素预处理后MDA的含量无明显降低,SOD的活性明显增大（P < 0.01）。结论：微波辐照可导致人近端肾小管上皮细胞出现功能损伤,金雀异黄素对其具有一定的保护作用,可能与其减轻氧化应激损伤、减少细胞凋亡有关。     

Effect of vitamin E on monosodium glutamate induced hepatotoxicity and oxidative stress in rats

Monosodium glutamate (MSG), administered to rats (by gavage) at a dose of 0.6 mg/g body weight for 10 days, significantly (P<0.05) induced lipid peroxidation (LPO), decreased reduced glutathione (GSH) level and increased the activities of glutathione-s-transferase (GST), catalase and superoxide dismutase (SOD) in the liver of the animals; these were observed 24 hr after 10 days of administration. The activities of alanine aminotransferase (ALT), aspartate aminotransferase (AST) and gamma glutamyl transferase (GGT) were also significantly increased in the serum, on MSG administration. Vitamin E (0.2 mg/g body wt) co-administered with MSG, significantly reduced the LPO, increased the GSH level and decreased the hepatic activities of GST, catalase and SOD. The activities of ALT, AST and GGT in the serum were also significantly reduced. The results showed that MSG at a dose of 0.6 mg/g body wt induced the oxidative stress and hepatotoxicity in rats and vitamin E ameliorated MSG-induced oxidative stress and hepatotoxicity.     

Oxidative stress in zinc-induced dopaminergic neurodegeneration: Implications of superoxide dismutase and heme oxygenase-1

Abstract

The study was undertaken to investigate the effect of zinc (Zn) on glutathione S-transferase (GST) and superoxide dismutases (SOD) activities and on the expressions of cytosolic Cu, Zn-SOD (SOD1), mitochondrial Mn-SOD (SOD2), γ-glutamyl cysteine synthetase (γ-GCS) and heme oxygenase-1 (HO-1) in the nigrostriatal tissue of rats. Additionally, Zn-induced alterations in the neurobehavioral parameters, lipid peroxidation (LPO), striatal dopamine and its metabolites and tyrosine hydroxylase (TH) protein expression were measured to assess their correlations with the oxidative stress. Zn exposure reduced the locomotor activity, rotarod performance, striatal dopamine and its metabolites and TH protein expression. LPO, total SOD, SOD1 and SOD2 activities were increased while GST and catalase were reduced in a dose and time dependent manner. Expressions of SOD1 and HO-1 were increased while no change was observed in SOD2 and γ-GCS expressions. The results obtained suggest that Zn-induced augmentation of total SOD, SOD1, SOD2 and HO-1 was associated with increased oxidative stress and neurodegenerative indexes indicating the involvement of both cytosolic and mitochondrial machinery in Zn-induced oxidative stress leading to dopaminergic neurodegeneration.     

Radiation-induced reductions in neurogenesis are ameliorated in mice deficient in CuZnSOD or MnSOD

Ionizing irradiation significantly affects hippocampal neurogenesis and is associated with cognitive impairments; these effects may be influenced by an altered microenvironment. Oxidative stress is a factor that has been shown to affect neurogenesis, and one of the protective pathways that deal with such stress involves the antioxidant enzyme superoxide dismutase (SOD). This study addressed what impact a deficiency in cytoplasmic (SOD1) or mitochondrial (SOD2) SOD has on radiation effects on hippocampal neurogenesis. Wild-type (WT) and SOD1 and SOD2 knockout (KO) mice received a single X-ray dose of 5 Gy, and quantification of the survival and phenotypic fate of newly generated cells in the dentate subgranular zone was performed 2 months later. Radiation exposure reduced neurogenesis in WT mice but had no apparent effect in KO mice, although baseline levels of neurogenesis were reduced in both SOD KO strains before irradiation. Additionally, there were marked and significant differences between WT and both KO strains in how irradiation affected newly generated astrocytes and activated microglia. The mechanism(s) responsible for these effects is not yet known, but a pilot in vitro study suggests a “protective” effect of elevated levels of superoxide. Overall, these data suggest that under conditions of SOD deficiency, there is a common pathway dictating how neurogenesis is affected by ionizing irradiation.