低氧-复氧胁迫对鲢抗氧化酶活性及Cu/Zn-SOD和Mn-SOD基因表达的影响

为探究低氧-复氧胁迫对鲢(Hypophthalmichthys molitrix)抗氧化酶活性及Cu/Zn-SOD和Mn-SOD基因表达的影响, 对鲢进行急性低氧、持续低氧及复氧实验, 进而分析血清、心脏和肝脏中不同抗氧化酶和SODs基因表达的变化特征。结果表明: 在急性低氧胁迫后, 血清中总抗氧化能力(T-AOC)、过氧化氢酶(CAT)和谷胱甘肽过氧化物酶(GSH-PX)活性随着氧浓度的降低均呈上升趋势, 但超氧化物歧化酶(SOD)活性呈先升后降的趋势。在持续低氧胁迫后, 血清中T-AOC和GSH-PX活性随着低氧胁迫时间的增加显著升高(P<0.05); 心脏中SOD活性显著高于常氧水平(P<0.05), 但Cu/Zn-SOD和Mn-SOD基因表达在低氧胁迫24h时显著低于常氧水平(P<0.05); 肝脏中SOD活性在低氧胁迫24h时显著高于常氧水平(P<0.05), 且Cu/Zn-SOD和Mn-SOD基因表达在低氧胁迫24h时也显著高于常氧水平(P<0.05)。复氧后, 血清、心脏和肝脏中T-AOC、SOD、CAT和GSH-PX活性均能恢复至常氧水平, 且心脏和肝脏中Cu/Zn-SOD和Mn-SOD基因表达的也能恢复至常氧水平, 但肝脏中Mn-SOD基因表达恢复至常氧水平较在心脏中所需时间更少。因而, 鲢可以通过调节抗氧化酶的活性来保护自身免受氧化应激造成的损伤。研究为解析低氧胁迫下鲢抗氧化应激机制提供了基础。     

In vitro synthesis of superoxide dismutases of rat liver

The syntheses of copper, zinc-superoxide dismutase (Cu,Zn-SOD) and manganese-superoxide dismutase (Mn-SOD) in vitro were studied. Both Cu,Zn-SOD and Mn-SOD were preferentially synthesized by free polysomes. Mn-SOD was synthesized as a large precursor (26,000 daltons), which was processed to the mature size (22,500 daltons) by in vitro incubation with a rat liver mitochondrial fraction. On the other hand, Cu,Zn-SOD was synthesized as the mature size product. It was shown that Cu,Zn-SOD and Mn-SOD synthesized in vitro represented 0.018% and 0.016% of the total translation products of free polysomes, respectively.     

Superoxide dismutase of plant cell vacuoles

Metal-dependent superoxide dismutases (SOD; EC 1.15.1.1) are present in many cell compartments (mitochondria, plastids, nuclei, peroxisomes, endoplasmic reticulum, cell wall and cytosol). We have established that SOD is also localized in the central vacuole. Cyanide-sensitive Cu, Zn-SOD was found in the fraction of isolated vacuoles of red beet roots (Beta vulgaris L.). The enzyme was represented by three isoforms. Comparison of isoenzyme composition and the level of SOD activity in vacuoles, nuclei, plastids and mitochondria isolated from root cells has shown that Cu, Zn-SOD is present in vacuoles and nuclei, two SOD forms (Cu, Zn- and Fe-SOD) are present in plastids, and two SOD forms (Cu, Zn- and Mn-SOD) are present in mitochondria. Cu, Zn-SOD of organelles, unlike vacuolar Cu, Zn-SOD, had only one isoform. The level of enzyme activity from the vacuolar fraction was twice higher than the level of SOD activity from the fractions of isolated organelles. Previously it has been suggested that Cu, Zn-SOD may be localized on the vacuolar membrane or in the near-membrane space from the side of cytoplasm. Our tests have revealed the Cu, Zn-SOD activity in water-soluble extracts of isolated vacuole fractions in the absence of detergent, which may confirm localization of the enzyme inside the organelles.     

Occurrence of Cu,Zn-Superoxide Dismutase in the Intrathylakoid Space of Spinach Chloroplasts

Thylakoids obtained from intact spinach chloroplasts showedno superoxide dismutase (SOD) activity, but Cu,Zn- and Mn-SODactivities were detected in the presence of Triton X-100. Thylakoidmembranes and the lumen fraction were separated by centrifugationafter treatment of the thylakoids with a Yeda pressure cell.Cu,Zn-SOD was found in the lumen fraction. Mn-SOD was detectedin the thylakoid fraction only after addition of 1% Triton X-100.Antibody against spinach Cu,Zn-SOD did not interact with thelatent Cu,Zn-SOD in the thylakoids unless Triton was added.These results indicate that Cu,Zn-SOD occurs in the lumen inaddition to the stroma of spinach chloroplasts, and Mn-SOD bindsto the thylakoid membranes. (Received February 29, 1984; Accepted May 28, 1984)     

Rescue of the corpus luteum and an increase in luteal superoxide dismutase expression induced by placental luteotropins in the rat: action of testosterone without conversion to estrogen

The superoxide radical and its scavenger, superoxide dismutase (SOD), play important roles in the regulation of corpus luteum function. The present study was undertaken to investigate whether SOD is related to pregnancy-induced maintenance of corpus luteum function. Placentae obtained from rats on Day 12 of pregnancy were incubated for 24 h, and the supernatant was used as placental luteotropins. Pseudopregnant rats were given the placental incubation medium from Day 9 to Day 12 of pseudopregnancy. The treatment significantly increased serum progesterone concentrations on Day 12 of pseudopregnancy. Both activities and mRNA levels of copper-zinc SOD (Cu,Zn-SOD) and manganese SOD (Mn-SOD) in the corpus luteum were also increased on Day 12 of pseudopregnancy. Treating the placental incubation medium with charcoal significantly eliminated the stimulatory effects of placental incubation medium on serum progesterone concentrations and luteal Mn-SOD expression, but not on Cu,Zn-SOD expression. The inhibitory effect of the charcoal treatment on luteal Mn-SOD expression was reversed by supplementation with testosterone or dihydrotestosterone (DHT), but serum progesterone concentrations were recovered only by DHT. Testosterone or DHT alone had no effect on serum progesterone concentrations and luteal SOD expression. In conclusion, placental luteotropins increased SOD expression in the corpus luteum and stimulated progesterone production, suggesting that SOD is involved in the maintenance of the corpus luteum function by placental luteotropins. In addition, androgen, with other placental luteotropins, acted to stimulate progesterone production and Mn-SOD expression in pseudopregnant rats.     

Purification, molecular cloning, and some properties of a manganese-containing superoxide dismutase from Japanese flounder (Paralichthys olivaceus)

Manganese-superoxide dismutase (Mn-SOD) from Japanese flounder (Paralichthys olivaceus) hepatopancreas has been purified with high purification (781-fold) and recovery (10.8%). The molecular mass of the purified enzyme was estimated to be 26kDa by SDS-PAGE under reducing conditions. In activity staining by native-PAGE, the Japanese flounder Mn-SOD gave three active bands and exhibited KCN-insensitive activity. In addition, the electrophoretic mobility of this enzyme was observed to be faster than that of Japanese flounder Cu,Zn-SOD. On the other hand, the N-terminal amino acid sequence of this Mn-SOD was determined to be 16 amino acid residues, and the sequence showed high homology to other Mn-SODs but not Japanese flounder Cu,Zn-SOD. Analysis of nucleotide and deduced amino acid sequences revealed that the Mn-SOD cDNA consisted of a 64bp 5'-non-coding region, a 675bp open reading frame encoding 225 amino acids, and a 465bp 3'-non-coding region. The first 27 amino acids containing a mitochondria-targeting signal were highly conserved among other Mn-SODs.     

Garlic ameliorates gentamicin nephrotoxicity: relation to antioxidant enzymes

Reactive oxygen species are involved in gentamicin (GM) nephrotoxicity, and garlic is effective in preventing or ameliorating oxidative stress. Therefore, the effect of garlic on GM nephrotoxicity was investigated in this work. Four groups of rats were studied: (i) fed normal diet (CT), (ii) treated with GM (GM), (iii) fed 2% garlic diet (GA), and (iv) treated with GM and 2% garlic diet (GM + GA). Rats were placed in metabolic cages and GM nephrotoxicity was induced by injections of GM (75 mg/kg every 12 h) for 6 d. Lipoperoxidation and enzyme determinations were made in renal cortex on day 7. GM nephrotoxicity was made evident on day 7 by (i) tubular histological damage, (ii) enhanced BUN and urinary excretion of N-acetyl-beta-D-glucosaminidase, and (iii) decreased creatinine clearance. These alterations were prevented or ameliorated in GM + GA group. The rise in lipoperoxidation and the decrease in Mn-SOD and glutathione peroxidase (GPx) activities observed in the GM group, were prevented in the GM + GA group. Cu, Zn-SOD activity and Mn-SOD and Cu,Zn-SOD content did not change. CAT activity and content decreased in the GM, GA, and GM + GA groups. CAT mRNA levels decreased in the GM group. The protective effect of garlic is associated with the prevention of the decrease of Mn-SOD and GPx activities and with the rise of lipoperoxidation in renal cortex.     

Detection of manganese superoxide dismutase mRNA in the theca interna cells of rat ovary during the ovulatory process by in situ hybridization

To determine the possible involvement of reactive oxygen species in ovulation, dynamic aspects of superoxide dismutase (SOD) isozyme were studied in the ovaries of rats by in situ hybridization histochemistry. Previously, mRNA levels of ovarian manganese superoxide dismutase (Mn-SOD) were reported markedly to increase whilst enzymic activity of Mn-SOD decreased during the ovulatory process after treating immature rats with 10 and 5 Units, respectively, of pregnant mare serum gonadotrophin (PMSG) and human chorionic gonadotrophin (HCG). Levels of Cu/Zn-SOD activity and Cu/Zn-SOD mRNA were reported to remain unchanged throughout ovulation. This increase in the Mn-SOD mRNA level was shown in the present study by in situ hybridization to be localized to the theca interna cells throughout the PMSG/HCG-induced ovulatory process. The observations suggest that the turnover rate of Mn-SOD but not Cu/Zn-SOD increases specifically in the mitochondria of these cells. SOD has been postulated to play important roles in steroidogenesis. The relationship is discussed between mitochondrial functions in steroid-secreting cells and superoxide radicals and related metabolite(s).     

Changes in Superoxide Dismutase Activity in Liver and Lung of Old Rats

Superoxide dismutase activity was measured in liver and lung from 3 and 24 month-old rats. Both total SOD and Mn-SOD activity decreased significantly in the liver of old rats. Recent results from our laboratory have indicated that during aging, the activity of Cu/Zn-SOD decreases in rat liver and that there is an accumulation of altered protein. It was also shown that the old Cu/Zn-SOD had one histidine fewer than the young one. In the present study, the immunoprecipitation experiments showed that the amount of immunoprecipitable Mn-SOD from liver of old rats was greater than from young ones, but when amino acid residues were measured in purified young and old Mn-SOD from liver, no change was observed. In lung, no significant age-related differences in total SOD, Cu/Zn-SOD and Mn-SOD activity were found, nor was there accumulation of altered protein during aging.     

Changes in Superoxide Dismutase Activity in Liver and Lung of Old Rats

Superoxide dismutase activity was measured in liver and lung from 3 and 24 month-old rats. Both total SOD and Mn-SOD activity decreased significantly in the liver of old rats. Recent results from our laboratory have indicated that during aging, the activity of Cu/Zn-SOD decreases in rat liver and that there is an accumulation of altered protein. It was also shown that the old Cu/Zn-SOD had one histidine fewer than the young one. In the present study, the immunoprecipitation experiments showed that the amount of immunoprecipitable Mn-SOD from liver of old rats was greater than from young ones, but when amino acid residues were measured in purified young and old Mn-SOD from liver, no change was observed. In lung, no significant age-related differences in total SOD, Cu/Zn-SOD and Mn-SOD activity were found, nor was there accumulation of altered protein during aging.     

Increased levels of peroxisomal active oxygen-related enzymes in copper-tolerant pea plants

The effect in vivo of high nutrient levels of copper (240 micromolar) on the activity of different metalloenzymes containing Cu, Mn, Fe, and Zn, distributed in chloroplasts, peroxisomes, and mitochondria, was studied in leaves of two varieties of Pisum sativum L. plants with different sensitivity to copper. The metalloenzymes studied were: cytochrome c oxidase, Mn-superoxide dismutase (Mn-SOD) and Cu,Zn-superoxide dismutase I (Cu,Zn-SOD I), for mitochondria; catalase and Mn-SOD, for peroxisomes; and isozyme Cu,Zn-SOD II for chloroplasts. The activity of mitochondrial SOD isozymes (Mn-SOD and Cu,Zn-SOD I) was very similar in Cu-tolerant and Cu-sensitive plants, whereas cytochrome c oxidase was lower in Cu-sensitive plants. Chloroplastid Cu,Zn-SOD activity was the same in the two plant varieties. In contrast, the peroxisomal Mn-SOD activity was considerably higher in Cu-tolerant than in Cu-sensitive plants, and the activity of catalase was also increased in peroxisomes of Cu-tolerant plants. The higher activities of these peroxisomal active oxygen-related enzymes in Cu-tolerant plants suggest the involvement of reactive oxygen intermediates (O₂⁻, OH) in the mechanism of Cu lethality, and also imply a function for peroxisomal Mn-SOD in the molecular mechanisms of plant tolerance to Cu in Pisum sativum L.     

Attenuated mild colonic inflammation and improved survival from severe DSS-colitis of transgenic Cu/Zn-SOD mice

Mucosal tissue damage in chronic inflammatory bowel disease (IBD) is partly caused by an enduring exposure to excessive amounts of reactive oxygen metabolites (ROM). To protect themselves from the toxic effects of ROM, most intestinal cell types constitutively express the highly specific, key ROM-neutralizing cytosolic enzyme Cu/Zn-superoxide dismutase (SOD). Under inflammatory conditions, however, its protein and activity levels have consistently been reported as being decreased. To elucidate a direct functional relationship between intracellular Cu/Zn-SOD expression and intestinal inflammation, we investigated the effects of transgenic human Cu/Zn-SOD overexpression in acute and chronic murine dextran sodium sulfate (DSS)-induced colitis. When subjected to a mild form of acute colitis, the Cu/Zn-SOD overexpressing mice showed a significantly lower colonic activity of neutrophilic myeloperoxidase (MPO) than their nontransgenic littermates. This difference was particularly evident in the male animals. In contrast, a severe acute colitis did not lead to any differences in MPO activity between both groups. Yet, when the animals were subsequently allowed to recover, MPO levels were again significantly lower in the transgenes, suggesting an involvement of Cu/Zn-SOD in, particularly, the clearance of neutrophils. Specific, immunohistochemical identification of neutrophils confirmed the validity of the MPO activity measurements. In addition, transgenic animals showed a remarkable survival benefit from severe DSS colitis over their nontransgenic littermates, particularly during or shortly after the acute inflammatory phase. During the chronic inflammatory phase, which was not characterized by massive neutrophil infiltration, no effects of Cu/Zn-SOD overexpression were noted. Paradoxically, overexpression of Cu/Zn-SOD did not obviously improve the colitis-related (oxidative) injury or symptoms at any stage of the experiment. Surprisingly, however, we did observe a pronounced male gender preference for DSS susceptibility that was reflected by increased male colitis mortality. Our findings provide direct in vivo evidence for a protective, neutrophil-related role for Cu/Zn-SOD in intestinal inflammation. As such, they support the concept of SOD-based (adjunct) antioxidant treatment strategies for inflammatory bowel disease.     

低温胁迫下嫁接对黄瓜叶片SOD和CAT基因表达与活性变化的影响

研究了低温胁迫下嫁接和自根黄瓜叶片Mn-SOD、Cu/Zn-SOD和CAT mRNA基因表达和酶活性变化及其与抗冷性的关系.结果表明:低温胁迫下,嫁接与自根黄瓜叶片Cu/Zn-SOD、Mn-SOD mRNA基因相对表达量变化分别与其Cu/Zn-SOD、Mn-SOD活性变化相吻合,而CATmRNA相对表达量变化与其CAT活性变化并不一致;嫁接黄瓜叶片Cu/Zn-SOD和Mn-SOD mRNA相对表达量及SOD、Cu/Zn-SOD和Mn-SOD活性均高于自根黄瓜,MDA含量和电解质渗漏率均低于自根黄瓜,嫁接黄瓜较高的SOD基因表达量调控的较高SOD活性是其抗冷性强于自根黄瓜的主要因素;嫁接黄瓜的功能叶CAT mRNA相对表达量略高于自根黄瓜,而幼叶CAT mRNA相对表达量低于后者,但两者CAT活性差异不大,说明低温胁迫对嫁接黄瓜叶片CAT mRNA相对表达量及CAT活性的影响不大.     

Exposure to anoxia of the clam, Chamelea gallina: II: Modulation of superoxide dismutase activity and expression in haemocytes

In order to investigate the influence of anoxic stress on haemocyte immune response, specimens of Chamelea gallina were exposed to 24 and 48 h anoxia. To evaluate recovery capacity, clams were maintained, at the end of the anoxic phase, for 24 h in reoxygenated seawater. In this paper, activity and expression of the antioxidant enzyme superoxide dismutase (SOD) were studied on haemocyte lysate and haemolymph. Reported results have shown that the anoxic stress changed strongly the response of C. gallina blood cells. Indeed, at the end of the anoxic phase in both experiments (24 and 48 h of anoxia exposure), SOD activity in haemocyte lysate decreased significantly with respect to the control, likely because of a decreasing superoxide anion generation in anoxia. Expression analyses were coherent with activity values.In the first experiment (24 h anoxia), reoxygenation determined an increase in activity of both Cu/Zn-SOD and Mn-SOD, but with values that remained significantly lower than those of the controls. It seems that after the applied anoxic stress, 24 h of recovery is not sufficient to restore pre-anoxic conditions. In the second experiment (48 h anoxia), SOD isoforms showed a different response during the recovery of animals. Cu/Zn-SOD activity dropped below the values showed by haemocytes of anoxic bivalves, while Mn-SOD activity values exceeded significantly those of controls. The different haemocyte response could be probably due to a further stress suffered by the clams because of a massive spawning during the reoxygenation phase. Therefore, the high values of activity shown by Mn-SOD during the recovery are likely to be due to the high inducibility of this isoform.In Cu/Zn-SOD expression analyses, two immunoreactive bands were highlighted in both experiments. The former (apparent molecular weight of 16 kDa) corresponds to the expression of SOD1 and the latter (apparent molecular weight of 28-30 kDa) could be attributed to EC-SOD (SOD3), a Cu/Zn-SOD isoform located in extracellular ambient and identified both in vertebrates and invertebrates. The strong SOD3 expression during anoxia exposure and the further spawning stress (second experiment) testified its inducibility in C. gallina haemocytes and haemolymph in response to stressful conditions.     

Oxidative stress induced by intermittent exposure at a simulated altitude of 4000 m decreases mitochondrial superoxide dismutase content in soleus muscle of rats

The effects were examined of 6-month intermittent hypobaric (4000 m) exposure on the antioxidant enzyme systems in soleus and tibialis muscles of rats. At the end of the 6-month experimental exposure, the six rats in both the exposed group and the control group were sacrificed. Immunoreactive mitochondrial superoxide dismutase (Mn-SOD) contents were measured as well as the activities of antioxidant enzymes [Mn-SOD, cytosolic SOD (Cu,Zn-SOD), catalase (CAT), and glutathione peroxidase (GPX)]. Thiobarbituric acid-reactive substances (TBARS) were also determined as an indicator of lipid peroxidation. The high altitude exposure resulted in a marked increase in TBARS content in soleus muscle, suggesting increased levels of oxygen free radicals. Conversely, significant decreases in both Mn-SOD content and activity in solens muscle were oted affer exposure. Such trends were not noticed in tibialis muscle. On the other hand, no significant changes in Cu,Zn-SOD, CAT, or GPX were observed in either muscle. These results suggested that the increases in lipid peroxidation were most probably a result of decreased Mn-SOD function which was more depressed in oxidative than in glycolytic muscle.     

Plasma Superoxide Dismutase Measurement in Children with Viral Hepatitis

Seventy-seven blood samples from normal controls aged 0–8 years and 93 blood samples from children of similar ages with various viral hepatitis were investigated by measuring plasma superoxide dismutase (EC 1.15.1.1) using chemiluminescence immunoassay (CLIA). Total and Cu,Zn-SOD activities of normal controls of group 2(1–8 years old) were significantly higher than that of normal controls of group 1 (0–1 year old) (P < 0.01. P < 0.01), while there were no differences of Mn-SOD activities between the two groups. Total. Cu,Zn-and Mn-SOD activities significantly increased in the acute phase (0–4 weeks after onset) and dropped to the normal levels in the restoration phase (4th week later) for 29 children with cytomegalovirus hepatitis (CMVH), in comparison with group 1. Only Mn-SOD activities were significantly increased in the acute phase (with increased ALT levels) and restoration phase (with normal ALT levels) for 18 children with hepatitis A (HA). Total and Cu,Zn-SOD activities significantly decreased and Mn-SOD activities significantly increased in both the active (with increased ALT levels) and the inactive phases (with normal ALT levels) for 36 children with chronic persistent hepatitis (CPH). Only Cu,Zn-SOD activities fell significantly in both active and inactive phases for 10 children with chronic active hepatitis (CAH).     

Pretreatment with interferon-γ protects microglia from oxidative stress via up-regulation of Mn-SOD

Microglial cells, resident macrophage-like immune cells in the brain, are exposed to intense oxidative stress under various pathophysiological conditions. For self-defense against oxidative injuries, microglial cells must be equipped with antioxidative mechanisms. In this study, we investigated the regulation of antioxidant enzyme systems in microglial cells by interferon-γ (IFN-γ) and found that pretreatment with IFN-γ for 20 h protected microglial cells from the toxicity of various reactive species such as hydrogen peroxide (H₂O₂), superoxide anion, 4-hydroxy-2(E)-nonenal, and peroxynitrite. The cytoprotective effect of IFN-γ pretreatment was abolished by the protein synthesis inhibitor cycloheximide. In addition, treatment of microglial cells with both IFN-γ and H₂O₂ together did not protect them from the H₂O₂-evoked toxicity. These results imply that protein synthesis is required for the protection by IFN-γ. Among various antioxidant enzymes such as manganese or copper/zinc superoxide dismutase (Mn-SOD or Cu/Zn-SOD), catalase, and glutathione peroxidase (GPx), only Mn-SOD was up-regulated in IFN-γ-pretreated microglial cells. Transfection with siRNA of Mn-SOD abolished both up-regulation of Mn-SOD expression and protection from H₂O₂ toxicity by IFN-γ pretreatment. Furthermore, whereas the activities of Mn-SOD and catalase were up-regulated by IFN-γ pretreatment, those of Cu/Zn-SOD and GPx were not. These results indicate that IFN-γ pretreatment protects microglial cells from oxidative stress via selective up-regulation of the level of Mn-SOD and activity of Mn-SOD and catalase.     

氯化钠胁迫下嫁接黄瓜叶片SOD和CAT mRNA基因表达及其活性

研究了NaCl胁迫下嫁接和自根黄瓜叶片Cu/Zn-SOD、Mn-SOD和CAT mRNA的表达与其酶活性变化及其MDA含量和电解质渗漏率变化.结果表明：在NaCl胁迫条件下,嫁接黄瓜叶片Cu/Zn-SOD mRNA、Mn-SOD mRNA和CAT mRNA的相对表达量均高于自根黄瓜,SOD、Cu/Zn-SOD、Mn-SOD和CAT活性也均高于自根黄瓜,说明与自根黄瓜相比,嫁接黄瓜叶片较高的Cu/Zn-SOD mRNA、Mn-SOD mRNA和CAT mRNA相对表达量是其维持较高Cu/Zn-SOD、Mn-SOD和CAT活性的重要原因;随着NaCl胁迫时间的延长,嫁接和自根黄瓜叶片Cu/Zn-SOD- mRNA、Mn-SOD mRNA和CAT mRNA的相对表达量均呈上升趋势,但其酶活性变化并不完全一致,说明还有其他因素参与相关酶活性的调控;嫁接黄瓜叶片MDA含量和电解质渗漏率均低于自根黄瓜,说明嫁接黄瓜具有较高的活性氧清除系统,可以减少活性氧物质的危害,提高其耐盐性.