三角酵母整细胞酶促转化头孢菌素C为戊二酰—7—氨基头孢烷酸

研究了利用含D－氨基酸氧化酶(D-amino acid oxidase,DAO EC1.4.3.3）的透性化三角酶母多倍体FA10（Trigonopsis variabilis FA10）细胞酶促转化头孢菌素C（cephalosporin C,CPC）为戊二酰－7－氨基头孢烷酸（Glutaryl-7-ACA,GL-7ACA）的反应过程和细胞中同时存在的过氧化氢酶（Catalase,CAT）通过水解H2O2而对转化反应产生的干扰作用及其对策。实验证明适量添加外源H2O2（6％）或在反应体系中加入过氧化氢酶抑制剂NaN3(0.13mg/mL )可使GL－7ACA生成率分别为73.0％和70.1％。如果将透性化的FA10细胞在pH10.5-11.0,20℃条件下保温30min,CAT被不可逆性完全钝化,以无过氧化氢酶的FA10细胞进行CPC的酶促转化反应GL－7ACA的生成率可达84％。     

Fabry disease: preclinical studies demonstrate the effectiveness of alpha-galactosidase A replacement in enzyme-deficient mice

Preclinical studies of enzyme-replacement therapy for Fabry disease (deficient alpha-galactosidase A [alpha-Gal A] activity) were performed in alpha-Gal A-deficient mice. The pharmacokinetics and biodistributions were determined for four recombinant human alpha-Gal A glycoforms, which differed in sialic acid and mannose-6-phosphate content. The plasma half-lives of the glycoforms were approximately 2-5 min, with the more sialylated glycoforms circulating longer. After intravenous doses of 1 or 10 mg/kg body weight were administered, each glycoform was primarily recovered in the liver, with detectable activity in other tissues but not in the brain. Normal or greater activity levels were reconstituted in various tissues after repeated doses (10 mg/kg every other day for eight doses) of the highly sialylated AGA-1 glycoform; 4 d later, enzyme activity was retained in the liver and spleen at levels that were, respectively, 30% and 10% of that recovered 1 h postinjection. Importantly, the globotriaosylceramide (GL-3) substrate was depleted in various tissues and plasma in a dose-dependent manner. A single or repeated doses (every 48 h for eight doses) of AGA-1 at 0.3-10.0 mg/kg cleared hepatic GL-3, whereas higher doses were required for depletion of GL-3 in other tissues. After a single dose of 3 mg/kg, hepatic GL-3 was cleared for > or =4 wk, whereas cardiac and splenic GL-3 reaccumulated at 3 wk to approximately 30% and approximately 10% of pretreatment levels, respectively. Ultrastructural studies demonstrated reduced GL-3 storage posttreatment. These preclinical animal studies demonstrate the dose-dependent clearance of tissue and plasma GL-3 by administered alpha-Gal A, thereby providing the in vivo rationale-and the critical pharmacokinetic and pharmacodynamic data-for the design of enzyme-replacement trials in patients with Fabry disease.     

Zinc-induced damage to carp (Cyprinus carpio L.) erythrocytes in vitro

Fish erythrocytes were used to elucidate the effect of zinc ions on the cell antioxidant defence system. It was detected that an increase of the Zn2+ concentration (0.01-1 mM) leads to a marked decrease (p < 0.05) in the catalase and the glutathione peroxidase activities. We observed a loss of 14-39% activity of glutathione peroxidase, and 16-20% diminution for catalase. No significant changes were found in case of the superoxide dismutase. Incubation of red blood cells with zinc brought about a decrease of the erythrocyte thiol group content. Treatment of carp erythrocytes with zinc ions also resulted in enhanced hemolysis and in the induction of significant (p < 0.001) changes in the intracellular glucose level. The increase of glucose concentration in the erythrocytes was correlated with increased concentration of metal in the incubation medium. It was proposed that Zn could affect transport systems across the red blood cells and therefore increased the permeability of the membranes to small molecules (e.g. hexose), and led to hemolysis. Zinc ions could act as a potential cell toxicant, leading to disturbances in functions of the antioxidant defence system and to alterations in the erythrocyte membrane properties.     

Measurement of glucose and 2-deoxy-2-[18F]fluoro-D-glucose transport and phosphorylation rates in myocardium using dual-tracer kinetic experiments

To examine the use of 2-deoxy-2-[18F]fluoro-D-glucose (2-FDG) as a glucose analog for measuring glucose utilization rate in myocardium, dual-tracer kinetic experiments with 2-FDG and 2-[3H]glucose were performed in the perfused, isolated rabbit interventricular septum to measure simultaneously the transport and phosphorylation rates of glucose and 2-FDG. Results of the present study indicated that, in the septum, the transport rate constants of 2-FDG and glucose were similar in magnitude, the phosphorylation rate constant for 2-FDG was about 60% of that of glucose, hypoxia caused an increase in phosphorylation rates of glucose and 2-FDG without affecting transport.     

Naringin Mitigates Erythrocytes Aging Induced by Paclitaxel: An In Vitro Study

In this study, the protective role of naringin (NAR) against paclitaxel (PTX)‐induced erythrocytes aging has been investigated using human erythrocyte as an in vitro model. Erythrocytes were incubated with PTX in the presence and absence of NAR. Incubation of erythrocytes with PTX resulted in increased protein carbonyl content and malondialdehyde and hemolysis percentage compared with control. Furthermore, a significant increase in the ratios of glutathione peroxidase/glutathione reductase, superoxide dismutase/glutathione peroxidase, and superoxide dismutase/catalase in PTX‐treated cells was observed, compared with control cells. In contrast, reduced glutathione/oxidized glutathione ratio and glucose‐6‐phosphate dehydrogenase activity were decreased upon PTX treatment. The simultaneous incubation of erythrocytes with PTX and NAR restored these variables to values similar to those of control erythrocytes. These results suggest that NAR inhibited PTX‐induced aging by lessening the PTX‐induced oxidative stress.     

Production of D-amino acid oxidase (DAO) of Trigonopsis variabilis in Schizosaccharomyces pombe and the characterization of biocatalysts prepared with recombinant cells

The cDNA of D-amino acid oxidase (DAO) gene isolated from Trigonopsis variabilis was expressed in Schizosaccharomyces pombe. A clone, ASP327-10, transformed with plasmid vector, pTL2M5DAO, expressed catalytically active DAO in the presence of G418, and converted Cephalosprin C to alpha-ketoadipyl-7-cephalosporanic acid (KA-7-ACA) and glutaryl-7-aminocephalosporanic acid (GL-7-ACA). Biocatalysts were prepared using ASP327-10 and T. variabilis, and evaluated to demonstrate the feasibility of recombinant S. pombe for industrial application. The cells were immobilized by crosslinking polyethylene imine after glutardialdehyde (GDA) fixation and permeabilization by alkaline treatment. Although the biocatalyst prepared from ASP327-10 exhibited DAO activity, catalase activity still remained fully even after permeabilization, under which condition, the catalase activity of T. variabilis decreased to 20-30%. Heat treatment was required before cell fixation by GDA to inactivate the catalase in S. pombe. This improved the efficiency of bioconversion to GL-7-ACA, but caused poor mechanical strength in the biocatalyst of S. pombe. To overcome this weakness, a catalase-deficient host strain was obtained by ethylmethansulfate mutagenesis. Moreover, taking economics into consideration, the integrative vector, pTL2M5DAO-8XL, with multi-copies of expression cassette was constructed to express DAO in S. pombe even in the absence of G418. The newly established integrant, ASP417-7, did not exhibit any catalase activity so that heat treatment was not required. The obtained integrant and its biocatalyst were significantly improved in GL-7ACA conversion ability and mechanical strength. This study demonstrates that the established integrant is a potential candidate as an alternative source of DAO enzyme.     

Drosophila melanogaster larvae fed by glucose and fructose demonstrate difference in oxidative stress markers and antioxidant enzymes of adult flies

Activities of antioxidant and associated enzymes, and oxidative stress markers were assessed in newly enclosed adult fruit flies Drosophila melanogaster developed on diets with 4 and 10% glucose or fructose. In fly males, 10% fructose promoted higher content of protein carbonyls and catalase activity, but lower superoxide dismutase (SOD) activity than 4%, while in females-lower levels of high molecular mass thiols (H-SH). Females at all diets had virtually the same level of lipid peroxides, low-molecular-mass thiols, catalase, and superoxide dismutase activities. Fed with 4% fructose and glucose males demonstrated 24 and 26% lower H-SH level than females, respectively. On diets with 4% glucose, 10% glucose and fructose females had 32, 26 and 27% lower catalase activity than respective males, and 1.3-1.5-fold lower glucose-6-phosphate dehydrogenase activity on glucose-containing diets. Strong positive correlations between H-SH level and G6PD activity, as well as between catalase and G6PDH activity were found. These results suggest that type and concentration of dietary carbohydrate affect antioxidant defense in fruit flies. It also substantially depends on fly sex, comprising presumably levels of protein carbonyls and lipid peroxides, as well as catalase and SOD activities in males and G6PDH activity in females.     

Role of superoxide dismutase in the oxidation of N-alkanes by yeasts.

Yeast microorganisms from Candida genus are investigated for their superoxide dismutase (SOD) and catalase activity during cultivation on N-alkanes. The later caused a considerable increase of Cu/Zn SOD activity of yeast cells in comparison with glucose. A correlation between SOD and catalase activity existed. It is further observed that cells of Candida lipolytica 68-72 which contain a high level of Cu/Zn SOD were more resistant to lethality of exogenous O2-. An over-production of Cu/Zn SOD during the assimilation of N-alkanes by yeasts is also connected to their considerable resistance to increased concentrations of Cu2+ and Zn2+ ions in the nutrient medium. The results are consistent with the assumption that the enhanced resistance of yeast cells to O2- and high concentrations of Cu2+ and Zn(2+)-ions are due to the increased activity of Cu/Zn SOD and that SOD is involved in the protection of some cellular components. Polyacrylamide gel electrophoresis of Candida lipolytica cell-free extracts revealed the same chromatic bands of SOD activity under growth on glucose and N-alkanes. The type of the carbon source used from yeast cells as a single source of carbon and energy had no influence on the SOD profile of the cell.     

四环素抗性重组鼠李糖乳杆菌的构建

将含有鼠李糖乳杆菌同源序列的自杀质粒pUC-ldhD-Ter转化到鼠李糖乳杆菌JCM 1553中,成功获得2株含四环素抗性的重组鼠李糖乳杆菌GL-1和GL-2。采用PCR技术鉴定重组菌株染色体基因组上含有四环素抗性基因Ter;生长曲线说明四环素抗性基因的插入对鼠李糖乳杆菌的生长没有较大影响。抗性菌株GL-1和GL-2在含10%葡萄糖的摇瓶发酵培养基发酵结果显示:37℃,200 r/min发酵40h,菌体密度OD₆₀₀最大达到25.49和24.66,残糖含量为0.60%和0.63%,L-乳酸最高产量为93.956 g/L、93.693 g/L,葡萄糖转化率达到94.82%、94.56%,与原始菌株没有显著区别。     

Enzymatic activity in crude oil contaminated rats

The activity of enzymes found in the plasma, malate dehydrogenase (MDH) and lactate dehydrogenase (LDH), and enzymes from erythrocytes, glucose-6-phosphate dehydrogenase (G-6-PDH) and catalase, was studied in rats contaminated by crude oil. Crude oil (tube fed) contamination caused a significant increase in MDH and LDH activity 96 hr after contamination while a decrease in activity was noted in 6-6-PDH and catalase. An additional contamination (1 week after the first contamination), measured 96 hr after contamination, caused a relative decrease in MDH and LDH activity while there was a contrasting relative increase in G-6-PDH and catalase activity. After a recovery period of 3 weeks the only significant change was an increase in catalase activity.     

Physical training and fasting erythrocyte activities of free radical scavenging enzyme systems in sedentary men

Effects of 10 weeks of physical training on free radical scavenging enzyme systems in erythrocytes were investigated in 7 sedentary healthy male students. The training consisted of running over 5 km, 6 times/week. Their maximum oxygen uptake and 12 min walk-run performance increased significantly after training. Of the antioxidant enzyme systems examined in the erythrocytes, both catalase activity and concentration and total glutathione reductase (GR) activity also showed significant increases following the training. The erythrocyte GR activity coefficient also increased significantly. These results suggest that chronic aerobic exercise increases riboflavin requirements and has some positive effects on antioxidative processes.     

Role of hexokinase in the regulation of erythrocyte hexose monophosphate pathway under oxidative stress

Human erythrocytes overloaded with homogeneous human hexokinase (up to 15-times the activity of normal RBC) show almost unmodified rates of glucose metabolized in the HMP, however hexokinase-loaded RBC are able to metabolize 1.5 fold more glucose than controls through the HMP when an oxidizing agent like methylene blue (5 to 100 microM) is present. Similarly, RBC loaded with inactivating anti-hexokinase IgG (12 +/- 3% residual hexokinase activity) show HMP rates unchanged under resting conditions, but only 12% of the HMP rate found in normal controls under oxidative stress. These data provide clear evidence that the HMP rate under conditions of oxidative stress is controlled by hexokinase activity and suggest that RBC from patients with hexokinase deficiency are not able to increase the HMP rate under oxidative stress like erythrocytes from individuals with G6PD deficiency.     

The influence of N-stearoylethanolamine on the activity of antioxidant enzymes and on the level of stable NO metabolites in the rat testes and blood plasma at the early stages of streptozotocine-induced diabetes

The influence of N-stearoylethanolamine was investigated on the activity of enzymes of antioxidant protection and content of stable metabolites of nitric oxide (NO) in the testes and plasma of rats at the early stages of development of streptozotocine-induced diabetes mellitus. It was shown that the activity of superoxide dismutase, catalase is reduced in the plasma and testes of animals with streptozotocin-induced (50 mg/kg) diabetes (blood glucose 8-10 mmol/L). A significant increase in the amount of nitrite and nitrate anions was revealed in the plasma of rats, while only the level of nitrite was significantly changed in the testes of animals. The per os administration of the NSE aqueous suspension in a dose of 50 mg/kg during 10 days to the rats with induced diabetes contributed to the normalization of catalase activity in the testis, which correlated with a decrease in the amount of TBA-reacting products and activity of superoxide dismutase and catalase in the blood plasma of animals; the use of NSE also contributed to the reduction of nitrite content in the gonads and to normalization of both nitrite and nitrate in the blood plasma of rats. The NSE administration to intact animals caused an increase in superoxide dismutase activity and significantly reduced the content of stable NO metabolites in the blood plasma of animals.     

Acute hyperhomocysteinemia alters the coagulation system and oxidative status in the blood of rats

In the present study, we investigated the effect of the acute administration of homocysteine (Hcy) on parameters of the coagulation system, as well as fibrinogen and nitrite levels in the blood of rats. In addition, we evaluated the effect of acute hyperhomocysteinemia on thiobarbituric acid-reactive substances in plasma and on antioxidant enzymes activities (superoxide dismutase, catalase, and gluthatione peroxidase) in the erythrocytes of rats. Wistar rats, aged 29 days, received a single subcutaneous dorsal injection of saline (control) or Hcy (0.6 μmol/g body weight). Fifteen minutes, 1 h, 6 h or 12 h after the injection, the rats were euthanized and the blood, plasma, and erythrocytes were collected. Results showed that Hcy significantly increased platelet count in the blood and plasma fibrinogen levels of rats at 15 min and 1 h, but not at 6 h and 12 h, when compared with the control group. Prothrombin time, activated partial thromboplastin time, and nitrite levels significantly decreased in plasma at 15 min and 1 h, but not at 6 h and 12 h after Hcy administration. In addition, hyperhomocysteinemia increased thiobarbituric acid-reactive, an index of lipid peroxidation, in plasma at 15 min and 1 h; decreased the superoxide dismutase and gluthatione peroxidase activity, and increased the catalase activity at 15 min in erythrocytes of rats, suggesting that acute Hcy administration may alter the oxidative status in the blood of rats. Our findings suggest that hypercoagulability and oxidative stress can occur after acute hyperhomocysteinemia, possibly in association, at least in part, with the vascular dysfunction and thromboembolic complications observed in homocystinuric patients.     

The effect of nitroxyl radicals and sodium nitrite on the methemoglobin content of the blood and on the enzymatic activity of erythrocyte antioxidant protection]

Preliminary introduction of nitroxyl radicals to mice decreases methaemoglobin-forming effect of sodium nitrite and diminishes the content of total SH-groups and restored glutathione as well as the activity of glutathione reductase and total activity of dehydrogenases of the pentosophosphate path of erythrocytes. High level of lipids peroxidation in case of sodium nitrite intoxication remains unchanged under preliminary administration of nitroxyl radicals as well. Activity of the key enzymes of antioxidant protection of erythrocytes, superoxide dismutase and catalase, is not recovered with sodium nitrite intoxication in presence of nitroxyl radicals.     

Characteristics of adenosine triphosphatase activity in carp erythrocytes treated with saponin

The activities of Ca-ATPase and Na,K-ATPase in saponin-treated erythrocytes of man, rat and carp were compared. It was shown that at free calcium concentrations lower than 1 microM the activity of Ca-ATPase in carp erythrocytes was by one order of magnitude lower than in rat erythrocytes and 3-4 times lower than in human red blood cells. At [Ca2+] = 0.4 microM the activities of Na,K-ATPase in all species under study were essentially the same. The increase in Ca2+ concentration up to 1 microM resulted in a 2-5-fold activation of Na,K-ATPase in rat and carp erythrocytes, respectively. In all cases studied a further elevation of free calcium concentration was accompanied by a decline of the Na,K-ATPase activity. It was shown that the Pi content in carp erythrocytes is 5-6 times as high as that in mammalian cells. This circumstance is a considerable obstacle to a detailed analysis of mechanisms of ATPase activity regulation in carp erythrocytes by methods used for determination of inorganic phosphate production.     

Increased erythrocyte catalase activity in patients with hyperthyroidism

Levels of human erythrocyte catalase activity were determined in 38 patients with thyroidal dysfunction. In patients with hyperthyroidism, erythrocyte catalase activities were found to be higher than the levels of normal subjects (P less than 0.001). In hypothyroidism, erythrocyte catalase activities were of the same order as those of normal subjects. Significantly high positive correlation was found between erythrocytes catalase activity and the levels of thyroxine (r = 0.5794, n = 36, P less than 0.001), and slight positive correlation was detected between catalase activity and the levels of triiodothyronine (r = 0.3978, n = 33, P less than 0.05). A decreased erythrocyte catalase activity was observed when erythrocytes lysate was incubated with thyroid hormones. It was suggested that erythrocyte catalase activity had close relationship with thyroid state, however, direct effect of thyroid hormones were not observed on erythrocyte catalase assay system in vitro.     

Regulation of Glyoxysomal Enzyme Expression in Maize

The activity levels of three glyoxysomal enzymes (catalase, isocitric lyase, and malate synthase) were measured in the scutellum following germination of the inbred lines W64A, R6-67, and A16. In W64A, as in most maize lines examined, germination was accompanied by a rapid and synchronous increase in the activities of all three enzymes, and reached a peak at about day 4 and declined thereafter. In R6-67, catalase activity continues to increase past day 4 and reaches its highest activity level on later days. In A16, catalase activity is very low due to the lack of expression of the Cat2 gene. Despite these significant differences in catalase expression, the levels of the other two glyoxysomal enzymes did not differ in these inbred lines. Artificial inhibition of catalase in W64A by exogenous application of 10^–4 M aminotriazole did not inhibit germination, nor did it alter the levels of the other two glyoxysomal enzymes. Similarly, application of 10^–4 M itaconate to W64A seeds inhibited the appearance of isocitric lyase, but did not inhibit germination or alter the levels of malate synthase or catalase. Comparative cell fractionation and immunological studies were conducted with W64A and A16 and their microbodies were observed under the electron microscope. Cell fractionation studies were also conducted with W64A seeds germinated in the presence of aminotriazole or itaconate. Thus, our results suggest that the expression of these three glyoxysomal enzymes is not regulated coordinately in the maize scutellum.     

Increase in hepatic catalase and glycerol phosphate dehydrogenase activities on administration of clofibrate and clofenapate to the rat

1. Clofenapate (methyl 2-[4-(p-chlorophenyl)phenoxy]-2-methylpropionate) fed to the rat in the diet increased the content of mitochondrial protein in the liver by 50-60%. In this respect it resembled the related compound clofibrate (ethyl alpha-p-chlorophenoxyisobutyrate), which is widely used as an antihypercholesterolaemic drug. 2. Both compounds when fed to the rat enhanced the activity of alpha-glycerol phosphate dehydrogenase in the liver mitochondria manyfold, but were without effect on the enzyme in the soluble fraction. 3. On the other hand, the catalase activity in the supernatant fraction increased twofold after administration of the drugs. The mitochondrial catalase activity showed a consistent decrease. 4. It was unlikely that under the influence of the drug the increase in catalase activity took place in the mitochondrial particles and was leached into the cytosol during isolation. 5. The increase in catalase activity in the cytosol under the influence of the drug is best explained on the assumption that peroxisomes which contain this enzyme, and which are known to increase on administration of the drug, were broken during the process of cellular fractionation and released the enzyme into the cytosol. 6. All the above effects shown by both drugs were fully reversed when drugs were withdrawn from the diet. 7. Clofenapate was effective in bringing about the above changes when administered to the animal at one-hundredth the concentration of clofibrate.     

Decreased catalase activity is the underlying mechanism of oxidant susceptibility in glucose-6-phosphate dehydrogenase-deficient erythrocytes

Historically, it has been theorized that the oxidant sensitivity of glucose-6-phosphate dehydrogenase (G6PD)-deficient erythrocytes arises as a direct consequence of an inability to maintain cellular gluthione (GSH) levels. This study alternatively hypothesizes that decreased NADPH concentration leads to impaired to catalase activity which, in turn, underlies the observed oxidant susceptibility. To investigate this hypothesis, normal and G6PD-deficient erythrocytes and hemolysates were challenged with a H₂O₂-generating agent. The results of this study demonstrated that catalase activity was severely impaired upon H₂O₂ challenge in the G6PD-deficient cell whiel only decrease was observed in normal cells. Supplmentation of either normal or G6PD-deficient hemolysates with purified NADPH was found to significantly (P < 0.001) inhibit catalase inactivation upon oxidant challenge while addition of NADP⁺ had no effect. Analysis of these results demonstrated direct correlation between NADPH concentration and catalase activity (r = 0.881) and an inverse correlation between catalase activity and erythrocyte oxidant sensitivity (r = 0.906). In contrast, no correlation was found to exist between glutathione concentration (r = 0.170) and oxidant sensitivity. Analysis of NADPH/NADPt ration in acatalasemic mouse erythrocytes demonstrated that NADPH maintenance alone was not sufficient to explain oxidant resistance, and that catalase activity was required. This study supports the hypothesis that impaired catalase activity underlies the enhanced oxidant sensitivity of G6PD-deficient erythrocytes and elucidates the importance of NADPH in the maintenance of normal catalase activity.