Molecular biology of plasma membrane redox enzymes: A survey of current knowledge

Summary Despite a large body of evidence for enzymatic activities and physiological functions of plasma membrane redox function, few of these enzymes have been characterized in terms of molecular biology. Examples for these with at least some molecular data up to complete sequences, membrane topology and binding sites for substrates and coenzymes or prosthetic groups are NADH-ferricyanide reductase of Ehrlich ascites membranes, NADH-coenzyme Q reductase of liver, NADH oxidase ectoenzyme of liver and HeLa (and possibly other) cells, protein disulfide isomerase which is widespread, and relatives thereof, as well as cytochromes P-450 andb ₅₅₈, NADPH oxidase of fat and thyroid cells and fat cell amine oxidase. Ferricyanide reductase and coenzyme O reductase may be identical, but NADH oxidase ectoenzyme is distinct and possibly functions also as a disulfide and a copper reductase. On the other hand, the plasma-membrane-located protein disulfide isomerase (PDI), despite its similar enzymatic activity, is completely different from the ectooxidase. The latter is shed from the membrane into the surrounding medium by proteolysis, whereas PDI is not an integral membrane protein and is secreted intact. Another disulfide reductase has been demonstrated in THP-1 cells, which again is totally different from the former two. It turns out that enzymatic activities are insufficient to describe redox enzymes. Special forms of cytochrome P-450 can be induced to expression at the cell membrane of liver, where they are transported by the cytoskeleton-associated secretory pathway. Why some isoforms are expressed at the surface and some are not is not yet clear. Cytochromeb ₅₅₈, the flavocytochrome of neutrophils, is described in other cells too, but there are different isoforms, which are genetically distinct. A relative has also been identified in duodenal cells, where it functions as a ferric reductase involved in iron absorption. NADPH oxidase of fat cells has very similar properties, but the identity is unproved, whereas thyroid oxidase is a non-heme protein which is calcium-sensitive and does not need assembly of subunits for activation. Finally, fat cell membranes also possess a quinone-containing amine-oxidase which may be involved in signaling of glucose-transport regulation, as it is also found in GLUT4-containing vesicles. However, the physiological connection has yet to be demonstrated.     

Temperature profile of oxygen activation and defense against oxygen toxicity in a psychrophilic member of the Bacteroidaceae

Abstract The temperature profiles have been determined for O₂ reduction by activating substrates for whole cells and cell extracts of the psychrophilic, obligately anaerobic bacterium, strain B6, belonging to the Bacteroidaceae. The profiles were similar whether the cells were grown at 15 or 1°C, and also for cells harvested in the exponential or stationary phase. The H₂O producing pyruvate oxidase displayed in cell-free extracts a considerably higher activity than the H₂O₂ producing NADH and NADPH oxidases at all temperatures in the range 30–1°C, and characteristically makes up a larger proportion of the total O₂ reduction capacity the lower the temperature. It thus seems that the O₂ scavenging property of the pyruvate oxidase, postulated to be utilized in a defense mechanism against the detrimental effects of the H₂O₂ producing pyridine nucleotide oxidases, is particularly well adapted to function at the low temperatures of the Barents Sea, from which this obligately anaerobic organism originates.     

Regulated redox processes at the plasmalemma of plant root cells and their function in iron uptake

Plants take up iron as ferric chelates or, after reduction, as ferrous ions. Ferric reduction takes place at the plasma membrane of the root epidermis cells by a transmembrane redox system, which can be activated when iron is getting short. It is proposed that this inducible system, with NADPH as electron donor, is separate from a system, presumably present in all plant cells, which transports electrons from NADH or NADPH to ferricyanide, or,in vivo, oygen.     

Molecular properties,functions, and potential applications of NAD kinases

NAD kinase catalyzes the phosphorylation of NAD（H） to form NADP（H）, using ATP as phosphoryl donor. It is the only key enzyme leading to the de novo NADP＋/ NADPH biosynthesis. Coenzymes such as NAD（H） and NADP（H） are known for their important functions. Recent studies have partially demonstrated that NAD kinase plays a crucial role in the regulation of NAD（H）/ NADP（H） conversion. Here, the molecular properties, physiologic functions, and potential applications of NAD kinase are discussed.     

Chemiluminescent assay of various enzyme activites and its application to enzyme immunoassays

A highly sensitive chemiluminescent assay for NAD(P)H have been developed. The principle of the method is as follows; NAD(P)H reduces molecular oxygen to superoxide anion (O) and hydrogen peroxide (H₂O₂) in the presence of 1-methoxy-5-methylphenazinium methyl sulphate (1-MPMS) as electron mediator. The produced O and H₂O₂ can be measured by chemiluminescent reaction using isoluminol (IL) and microperoxidase (m-POD). A linear relationship between chemiluminescence intensity and NAD(P)H concentration (log/log) was obtained ranged from 10^?9 mol/I to 10^?5 mol/I. This chemiluminescent reaction has been coupled to the assay of glucose-6-phosphate dehydrogenase (G6PDH), β-D -galactosidase (β-Gal) and alkaline phosphatase (ALP). The detection limits of G6PDH, β-Gal and ALP were 10^?18 mol, 10^?20 mol and 10^?18 mol per assay, respectively. The chemiluminescent assay of these enzymes applied to chemiluminescent enzyme immunoassay for 17α-hydroxy-progesterone and DNA hybridization assay using these enzymes as label.     

Inhibition of NADH/NADPH oxidase affects signal transduction by growth factor receptors in normal fibroblasts.

Reactive oxygen species have been implicated as possible second messengers in mitogenic signal transduction. We demonstrate that in normal fibroblasts the treatment with the two inhibitors of phagocytic NADH/NADPH oxidase prevents tyrosine phosphorylation of platelet-derived growth factor receptor upon the exposure of serum-deprived cells to growth factors. Furthermore, the inhibition of NADH/NADPH oxidase abolishes ERKs activation and p21(waf1) accumulation that occurs when cells are exposed to growth factors. Finally, NADH/NADPH inhibitors prevent the p66(Shc) Ser-phosphorylation induced by serum and by phorbol 12-myristate-13-acetate, which suggests that the direct target(s) of reactive oxygen species is(are) located upstream from the machinery connecting growth factor receptors to Ras.     

余甘子活性成分含量与抗氧化性研究

研究了不同产地余甘子的总多酚、黄酮和多糖含量,同时测定了各产地余甘子提取物的抗氧化活性。结果表明,广东野生品种鲜果的总多酚含量、总黄酮含量和水溶性多糖含量最高,它们在每克干果中的含量分别为(204.15±6.85)mg没食子酸当量、(81.11±8.67)mg芦丁当量和(19.78±1.22)mg葡萄糖当量。广东野生品种提取物的抗氧化活性较高,其还原力为1.344±0.14,羟基自由基和超氧阴离子自由基的清除力分别为91.50%±3.53%,92.31%±1.30%。广东栽培种提取物的DPPH自由基清除力最高,达到92.09%±1.52%。     

Antioxidant and Amine Oxidase Inhibitory Activities of Hydroxyurea

Hydroxyurea (HU, NH₂CONHOH), or hydroxycarbamide, is a hydroxamic acid derivative used as a drug for anti-neoplasm and sickle-cell disease. In this study, HU was found to have antioxidant activities against 2,2-diphenyl-1-picrylhydrazyl (DPPH) and hydroxyl radicals and dose-dependent inhibitory activities against monoamine oxidase (MAO)-A, MAO-B, and semicarbazide-sensitive amine oxidase (SSAO) as compared to controls of clorgyline, deprenyl, and semicarbazide respectively. HU showed mixed-type, competitive-type, and competitive-type inhibition, respectively, with respect to substrates of MAO-A, MAO-B, and SSAO with apparent inhibition constants (Ki) of 19.46, 5.38, and 1.84 μM.     

槲皮素体外抗氧化及对小鼠血脂代谢作用的研究

本研究旨在探讨槲皮素体外抗氧化能力以及对高脂日粮小鼠血脂代谢的影响.体外分别测定了槲皮素对DPPH·,·OH和ABTS+·自由基的清除作用.动物实验:将昆明种雄性小鼠32只,随机分为4组,分别饲喂正常、高脂、高脂+0.05g/kg槲皮素、高脂+0.1g/kg槲皮素日粮.9周后测定小鼠肝脏活性氧(Reactive oxygen species,ROS)水平、丙二醛(Malondialdehyde,MDA)含量、抗氧化酶活力及血脂水平.结果表明:槲皮素对DPPH·,·OH和ABTS+·具有较强的清除作用,在一定范围内呈现出明显的剂量增加-效应增强的关系.0.05g/kg槲皮素能显著降低肝脏自由基水平及MDA含量(P＜0.05),增强抗氧化能力(P＜0.05),改善血脂水平(P＜0.05),而0.1g/kg槲皮素效果不显著.结论:0.05g/kg槲皮素可有效提高机体抗氧化能力,缓解高脂膳食造成的氧化应激,改善血脂代谢.     

川芎多糖的提取、纯化及抗氧化活性的研究

首次从川芎水提物中分离、纯化得到川芎总多糖LCP,经DEAE-纤维素柱色谱分级得到4个均一多糖组分LCP-1,LCP-2,LCP-3和LCP-4。它们均有.OH和O2-.的抑制生成活性,且LCP-2在低浓度对O2-.具有强的清除作用,而在高浓度时对.OH具有强的清除作用。     

Pigment-Epithelium Derived Factor (PEDF) and the human ovary: A role in the generation of ROS in granulosa cells

Aims

Pigment Epithelium Derived Factor (PEDF) is a multifunctional factor, which was found in mouse ovary and in human ovarian follicular fluid (FF). Its ovarian functions include anti-angiogenic actions. This study aimed to explore other PEDF-actions and the sites of PEDF expression in the human ovary.

Materials and methods

We used paraffin-embedded human ovarian sections for PEDF-immunohistochemistry and IVF-derived human granulosa cells (GCs) for RT-PCR, Western blotting and functional studies, including measurement of cell viability (ATP-assay), apoptosis (caspase-assay) and reactive oxygen species (ROS).

Key findings

Immunohistochemistry revealed PEDF in the cytoplasm of GCs of avascular follicles from the preantral to the antral stage and in FF. PEDF was also found in luteinized GCs of the highly vascularized corpus luteum, a result not in line with a sole anti-angiogenic action. Like GCs in vivo, cultured human luteinizing GCs express PEDF. They also responded to exogenous recombinant PEDF. In low concentrations PEDF did not affect cell viability but caused generation ROS. ROS-induction by PEDF was a concentration-dependent process and may be due to the activity of NADPH oxidase (NOX) type 4 and/or 5, which as we found are expressed by GCs. An antioxidant and apocynin, which inhibits NOX, blocked ROS generation. High levels of exogenous recombinant PEDF induced apoptosis of GCs, which was prevented by antioxidants, implying involvement of ROS.

Significance

PEDF is emerging as an ovarian factor, which has unexpected ROS-augmenting activities in the human ovary. It may be involved in ovarian ROS homeostasis and may contribute to oxidative stress.     

茶叶多糖的糖醛酸含量测定及抗氧化活性研究

采用高效液相色谱法对三个产地茶叶多糖的糖醛酸含量进行了测定,该方法具有操作简便、样品无需预处理等特点,稳定性、重现性较好,回收率高,适合于茶叶多糖糖醛酸含量的测定。结果表明不同产地茶叶多糖的糖醛酸含量有明显差异。本文同时研究了不同产地茶叶多糖对超氧自由基和DPPH自由基的清除作用,以评价其抗氧化活性。结果发现不同产地茶叶多糖的抗氧化活性与其糖醛酸含量呈正相关,糖醛酸含量越高,其抗氧化能力越强。     

Isolation of a Novel Carotenoid,OH-chlorobactene Glucoside Hexadecanoate,and Related Rare Carotenoids from Rhodococcus sp. CIP and Their Antioxidative Activities

In the course of screening for antioxidative carotenoids from bacteria, we isolated and identified a novel carotenoid, OH-chlorobactene glucoside hexadecanoate (4), and rare carotenoids, OH-chlorobactene glucoside (1), OH-γ-carotene glucoside (2) and OH-4-keto-γ-carotene glucoside hexadecanoate (3) from Rhodococcus sp. CIP. The singlet oxygen (¹O₂) quenching model of these carotenoids showed potent antioxidative activities IC₅₀ 14.6 μM for OH-chlorobactene glucoside hexadecanoate (4), 6.5 μM for OH-chlorobactene glucoside (1), 9.9 μM for OH-γ-carotene glucoside (2) and 7.3 μM for OH-4-keto-γ-carotene glucoside hexadecanoate (3).     

Dopamine Promotes the Survival of Embryonic Striatal Cells: Involvement of Superoxide and Endogenous NADPH Oxidase

The dopaminergic system appears early in mammalian brain development, and a neurodevelopmental role for dopamine (DA) has been suggested. In the present study, we found that DA markedly promoted the survival of embryonic striatal cells in cultures. The failure of DA receptor antagonists to block this survival-promoting effect and the capability of S-apomorphine, which is devoid of DA receptor agonist activity but possesses antioxidative activity as R-apomorphine and DA, to completely mimic this effect suggested that DA receptor activation was not required in the survival-promoting effect elicited by DA, and its antioxidative activity might be involved. Moreover, it was found that mRNA of NADPH oxidase was expressed in the embryonic striatum. Furthermore, DPI or apocynin, NADPH oxidase inhibitors, promoted the survival of embryonic striatal cells. Addition of either DA or DPI into striatal cell cultures decreased the superoxide level. These results indicate that the mechanisms underlying the neuroprotective effects of DA were likely associated with its antioxidative activity. NADPH oxidase might contribute, at least in part, to ROS generation.     

A Reappraisal of Xanthine Dehydrogenase and Oxidase in Hypoxic Reperfusion Injury: the Role of NADH as an Electron Donor

Xanthine oxidase (XO) is conventionally known as a generator of reactive oxygen species (ROS) which contribute to hypoxic-reperfusion injury in tissues. However, this role for human XO is disputed due to its distinctive lack of activity towards xanthine, and the failure of allopurinol to suppress reperfusion injury. In this paper, we have employed native gel electrophore-sis together with activity staining to investigate the role human xanthine dehydrogenase (XD) and XO in hypoxic reperfusion injury. This approach has provided information which cannot be obtained by conventional spectrophotometric assays. We found that both XD and XO of human umbilical vein endothelial cells (HUVECs) and lymphoblastic leukaemic cells (CEMs) catalysed ROS generation by oxidising NADH, but not hypoxanthine. The conversion of XD to XO was observed in both HUVECs and CEMs in response to hypoxia, although the level of conversion varied. Purified human milk XD generated ROS more efficiently in the presence of NADH than in the presence of hypoxanthine. This NADH oxidising activity was blocked by the FAD site inhibitor, diphenyleneiodo-nium (DPI), but was not suppressible by the molybdenum site inhibitor, allopurinol. However, in the presence of both DPI and allopwinol the activities of XD/XO were completely blocked with either NADH or hypoxanthine as substrates. We conclude that both human XD and XO can oxidise NADH to generate ROS. Therefore, the conversion of XD to XO is not necessary for post-ischaemic ROS generation. The hypoxic-reperfusion injury hypothesis should be reappraised to take into account the important role played by XD and XO in oxidising NADH to yield ROS.     

A molecular basis for retinol stimulation of vesicle budding in vivo and in vitro

Retinol stimulates the formation of transition vesicles in situ and in all free systems based on rat liver. The stimulation is on vesicle formation from transitional endoplasmic reticulum and not on vesicle fusion with donor membranes. Vesicle budding in the cell free system requires a nucleoside triphosphate and is sensitive to inhibition by thiol reagents. In this report we develop and test a model whereby a retinol-modulated NADH:protein disulfide reductase (NADH oxidase) with protein disulfide-thiol interchange activity is implicated in the vesicle budding mechanism. The protein has the ability to restore activity to scrambled, inactive RNase A and is stimulated or inhibited by retinol depending on the redox environment. Under reducing conditions and in the presence of a chemical reductant such as GSH, the partial reaction stimulated by retinol appears to be the oxidation of membrane disulfides. This is the first report of an enzymatic mechanism to explain specific retinol effects both in vivo and in vitro on membrane trafficking not given by retinoic acid.     

Activation of human neutrophil NADPH oxidase and lateral mobility of membrane proteins: A study with crosslinkers

Fluorescence photobleaching recovery was employed to investigate the relationship between the activation of neutrophil NADPH oxidase and lateral mobility of membrane proteins. Treatment of neutrophils with the crosslinking reagent disuccinimidyl suberate (DSS) blocked activation of the respiratory burst without affecting the lateral motion of concanavalin A receptors. Neutrophils treated with DSS after prestimulation with concanavalin A generated superoxide in response to another stimulator, phorbol myristate acetate, in spite of the lateral immobilization of concanavalin A receptors. The apparent lack of correlation between the activation of NADPH oxidase and the lateral motion of membrane proteins is discussed.     

Production of Hydroxlated Flavonoids with Cytochrome P450 BM3 Variant F87V and Their Antioxidative Activities

A variant of P450 BM3 with an F87V substitution [P450 BM3 (F87V)] is a substrate-promiscuous cytochrome P450 monooxygenase. We investigated the bioconversion of various flavonoids (favanones, chalcone, and isoflavone) by using recombinant Escherichia coli cells, which expressed the gene coding for P450 BM3 (F87V), to give their corresponding hydroxylated products. Potent antioxidative activities were observed in some of the products.     

Influence of salts and pH on the growth as well as NADH oxidase of the halotolerant bacterium A505

Growth yield of the halotolerant bacterium A505 was increased by the supplement of Na⁺, K⁺, or Rb⁺ into the culture media with pH 7.5, and inhibited by Li⁺ or Cs⁺. In the presence of less than 0.1 M NaCl or KCl alkaline growth media, pH 9.2 to 9.7, afforded optimal growth of this strain. Intracellular ion content of this microbe changed reflecting on the Na⁺ or K⁺ concentration in the media, although it tended to accumulate K⁺ and extrude Na⁺ in the media without NaCl supplemented. A 1.2 to 1.4-fold stimulation of in vitro NADH oxidase activity was obtained by supplement of salts, except for LiCl. The rate of NADH oxidation in the absence of salts correlated with the pH and showed clear maxima at pH about 8, irrespective of growth conditions. In the presence of 0.5 M NaCl or KCl, on the other hand, pH dependence was less significant and showed only a flat maximum at pH around 7. Effects of anions on NADH oxidase were realized following the lyotropic series: SO ₄ ^2- >F^->CH₃COO^->Cl^->I^->SCN^-, aside from NO ₃ ^- , which exhibited the largest stimulation on enzyme activity in all the anions examined.Abbreviations HEPES 4-(2-hydroxyethyl)-1-piperazine-ethanesulfonic acid - HQNO 2-heptyl-4-hydroxyquinoline-N-oxide - MES 4-morpholineethanesulfonic acid - Tris tris(hydroxy-methyl)methylamine