Superoxide anion radical-independent pathway for reduction of tetrazolium salts in aerobic mixtures consisting of NADH and 5-methylphenazinium methyl sulfate in the presence of aqueous micelles of nonionic and cationic detergents

The effect of Triton X-100 and certain other nonionic as well as cationic detergents on 5-methyl-phenazinium methyl sulfate (PMS)-mediated reduction of tetrazolium salts was studied under aerobic conditions using an exogenous source of reducing equivalents, such as NADH or by generating NADPH through an enzymatic reaction. In the absence of detergents, 5,10-dihydro-5-methylphenazine (MPH), formed on reduction of 5-methylphenazinium cation (MP+) of PMS by NAD[P]H, was reoxidized allowing first the univalent reduction of molecular oxygen (O2) to the superoxide anion radical (O2-.) which, in turn, reduced tetrazolium salts. In the presence of detergents, however, a significant fraction of the PMS-mediated reduction of tetrazolium salts appeared to proceed without the intervention of O2-. The reasons for this were examined experimentally and it was suggested that the reduced phenazine (i.e., MPH), which is sparingly soluble in aqueous solutions, migrates into detergent micelles where tetrazolium salts are reduced in preference to O2. By lowering the pH and thereby facilitating the H+-mediated dismutation of O2-., it was possible to obtain the reduction of tetrazolium salts, mediated selectively and directly by MPH in the micellar pseudophase. Employing the technique of saturation analysis, further evidence was obtained that lends support for preferential reduction of tetrazolium salts (e.g., nitroblue tetrazolium chloride) to that of O2 by the micelle-bound MPH.     

Reduction of mercuric ion in vitro by superoxide anion

The reduction rate of mercuric ion to metallic mercury by a superoxide anion produced by a xanthine-xanthine oxidase system increased with an increased concentration of xanthine oxidase in the presence of enough xanthine. The reduction rate of mercuric ion by a superoxide anion in the presence of nitroblue tetrazolium (NBT) was proportional to the concentration of NBT. The result suggests that NBT was reduced to diformazan by a superoxide anion produced by a xanthine-xanthine oxidase system and that mercuric ion will be reduced to metallic mercury by diformazan. The reduction rate of mercuric ion was also indicative that a superoxide anion produced by an NADH-phenazine methosulfate (PMS) system increased with an increased concentration of PMS.     

Studies on the reduction of nitroblue tetrazolium chloride mediated through the action of NADH and phenazine methosulphate.

The general features of the reduction of nitroblue tetrazolium chloride (NBT) by NADH and phenazine methosulphate (PMS) have been studied under aerobic and anaerobic conditions. Under aerobic condition the reduction appears to be mediated through the intermediate formation of the superoxide anion radical O2-.; this reaction is strongly inhibited by superoxide dismutase and by a number of O2-. scavengers such as propyl gallate, (+)-catechin, manganous ions, reduced glutathione and benzoquinone. Cupric ions inhibited the overall reaction by reoxidising reduced PMS. Under anaerobic conditions, superoxide dismutase had only a small inhibitory action and, with the exception of cupric ions, the other substances mentioned above were ineffective as inhibitors. The data presented show that the use of NBT to detect the presence of O2-. is fraught with difficulties due to an equally rapid reduction of NBT by NADH and PMS under anaerobic conditions.     

Different effects of concanavalin A and its succinylated derivative on superoxide release in peritoneal macrophages

The effects of tetravalent concanavalin A and its succinylated derivative on the intracellular production of superoxide anion (O₂^?) and its release into cell exterior of peritoneal macrophages were observed. Both tetravalent concanavalin A and its succinylated derivative induced marked enhancement of intracellular reduction of nitroblue tetrazolium, which could be inhibited by α-methyl-D-glucoside. The extent of activation of nitroblue tetrazolium reduction induced by both types of the lectin paralleled the activation ratio of oxygen consumption.There was littele difference in the extent of intracellular O₂^? production induced by two types of the lectin. Nitroblue tetrazolium reduction was not affected significantly by pretreatment with colchicine, rotenone or malonate, inhibitors of the cytoskeletal system and of the electron transport system. In contrast, tetravalent concanavalin A induced a higher rate of superoxide release than did succinylated divalent concanavalin A, which lacks the cross-linking activity of surface glycoproteins.These results indicate that superoxide production following oxygen consumption and superoxide release into cell exterior are controlled independently by a separate membrane mechanism and that superoxide production system is not essentially dependent on the involvement of the cytoskeletal system.     

The involvement of superoxide anions in the nitro blue tetrazolium chloride reduction mediated by NADH and phenazine methosulfate

Oxygen inhibits competitively the reduction of nitro blue tetrazolium chloride (nitro BT) by NADH and phenazine methosulfate (PMS). The oxygen-dependent inhibition is stronger in the presence of superoxide dismutase, whereas cyanide counteracts the oxygen interference. On the other hand, the oxidation of NADH mediated by PMS and dioxygen is affected only marginally by superoxide dismutase and cyanide. Therefore, it is concluded that the involvement of superoxide anions occurs at the level of nitro BT reduction via a nitro blue tetrazolinyl radical, as has been suggested by Picker and Fridovich [1984) Arch. Biochem. Biophys. 228, 155-158) and not at the level of PMS oxidation. The inhibition of the oxygen interference in the nitro BT reduction by cyanide is dependent on the cyanide concentration, whereas in nitrogen cyanide has no effect on the reduction. It is caused by competition between cyanide and oxygen to reduce or oxidize the nitro BT radical to either formazan with concomitant cyanogen production or nitro BT, respectively. For the histochemical localization and analysis of electropherograms of NAD(P)+-dependent dehydrogenase activities, the interference of oxygen can be avoided by anaerobic incubations or by the use of 5 mM nitro BT when incubating aerobically.     

Different effects of concanavalin A and its succinylated derivative on superoxide release in peritoneal macrophages.

The effects of tetravalent conconavalin A and its succinylated derivative on the intracellular production of superoxide anion (O-2) and its release into cell exterior of peritoneal macrophages were observed. Both tetravalent concanavalin A and its succinylated derivative induced marked enhancement of intracellular reduction of nitroblue tetrazolium, which could be inhibited by alpha-methyl-D-glucoside. The extent of activation of nitroblue tetrazolium reduction induced by both types of the lectin paralleled the activation ratio of oxygen consumption. There was little difference in the extent of intracellular O-2 production induced by two types of the lectin. Nitroblue tetrazolium reduction was not affected significantly by pretreatment with colchicine, rotenone or malonate, inhibitors of the cytoskeletal system and of the electron transport system. In contrast, tetravalent concanavalin A induced a higher rate of superoxide release than did succinylated divalent concanavalin A, which lacks the cross-linking activity of surface glycoproteins. These results indicate that superoxide production following oxygen consumption and superoxide release into cell exterior are controlled independently by a separate membrane mechanism and that superoxide production system is not essentially dependent on the involvement of the cytoskeletal system.     

A model for NADH-tetrazolium reductase

Summary In the presence of light, reduced nicotinamide adenine dinucleotide (NADH) and riboflavin formed a complex which was able to reduce certain tetrazolium salts. Neither NADH (10^–3 M) nor riboflavin (10^–4 M) alone was able to induce tetrazolium reduction in the presence of oxygen, but in a nitrogen atmosphere photoreduction of riboflavin induced reduction of tetrazolium salts. Only electrophilic nitro and thiazolyl substituted tetrazolium salts with more positive redox potentials were reduced by the NADH-riboflavin complex, and only monoformazans were produced from the ditetrazolium salts. The reduction kinetics of these tetrazolium salts are given, and the spectral area capable for induction of electron transfer in the NADH-riboflavin complex is screened. It is concluded that the electron transfer in flavin nucleotide dependent dehydrogenase systems will probably proceed without direct interference with the apoenzyme. This may have practical implications for the histochemistry of tetrazolium reductases especially as regards fixation. The catalytic action of light on tetrazolium reduction should also be taken into consideration when tetrazolium salts are used as electron acceptors in a histochemical reaction.     

Generation of superoxide anions by leukocytes treated with cytochalasin E.

Guinea pig polymorphonuclear leucocytes reduced cytochrome c when treated with cytochalasin E. The reduction was completely inhibited by superoxide dismutase and manganese ions, which indicates that superoxide anions are generated and released into the outside medium by the treatment. The reduction was inhibited by glycolytic inhibitors and cyclic AMP but not by cyclic GMP. The pattern is similar to the cyanide-insensitive respiration of leucocytes during phagocytosis. Nitroblue tetrazolium was also reduced by the leucocytes treated with the cytochalasin, which was inhibited by manganese ions, glycolytic inhibitors and cyclic AMP but was only partially inhibited by superoxide dismutase.     

Superoxide scavenging by polyphenols: effect of conjugation and dimerization

The superoxide anion scavenging capacity of two flavonols (quercetin and kaempferol) and some of their conjugates (quercetin-3-rhamnoglucoside, quercetin-3-sophoroside, quercetin-3-sulphate, quercetin-3-glucuronide, kaempferol-3-sophoroside, kaempferol-3-glucuronide) and of several hydroxycinnamic acids (caffeic acid, ferulic acid, 5-5 diferulic acid, 8-O-4 diferulic acid and 8-8 diferulic acid) were studied. Superoxide anions were generated non-enzymatically in a phenazine methosulphate-NADH system and assayed by reduction of nitro-blue tetrazolium. Among the flavonols examined, the most effective scavengers of superoxide anions were the sophoroside, glucuronide and rhamnoglucoside conjugates. Conversely, quercetin-3-sulphate and the flavonol aglycones, exhibited some pro-oxidant activity at the range of concentrations tested (0.5-10 microM). These results show that conjugation has a marked effect on the scavenging capacity of flavonols and that the type of conjugate at the 3-position determines the final superoxide scavenging capacity. Caffeic acid and ferulic acid showed no effect on the generation of superoxide anions by phenazine methosulphate-NADH. However, dimerization of ferulic acid enhanced the superoxide scavenging capacity of this hydroxycinnamic acid, but this depended on the type of linkage between the monomers. The order, from highest to lowest, of superoxide radical scavenging capacity for the dimers of ferulic acid was: 5-5-diferulic acid > 8-O-4-diferulic acid > 8-8-diferulic acid.     

On the oxygen-sensitivity of various tetrazolium salts

Summary 1. Eight different tetrazolium salts have been chemically reduced with NADPH and PMS¹ under oxygenated and oxygen-free conditions. 2. PMS has been shown to be able to remove all of the hydrogen from NADPH very rapidly, and to transfer all of this hydrogen onto tetrazolium salts, under suitable atmospheric conditions. 3. MTT, INT, TNBT, and NBT¹ produced the same amount of formazan under both conditions; NT BT, TV, TT¹ produced formazan under oxygen-free conditions, but produced no formazan under oxygenated conditions. 4. These results are explained on the basis of competition for the NADP Hhydrogen between oxygen and the four tetrazolium salts NT, BT, TV and TT.I should like to thank The Arthritis and Rheumatism Council for financial support.     

Generation of superoxide radical during autoxidation of hydroxylamine and an assay for superoxide dismutase.

Accompanying the autoxidation of hydroxylamine at pH 10.2, nitroblue tetrazolium was reduced and nitrite was produced in the presence of EDTA. The rate of autoxidation was negligible below pH 8.0, but sharply increased with increasing pH. The reduction of nitroblue tetrazolium was inhibited by superoxide dismutase, indicating the participation of superoxide anion radical in the autoxidation. Hydrogen peroxide stimulated the autoxidation and superoxide dismutase inhibited the hydrogen peroxide-induced oxidation, results which suggest the participation of hydrogen peroxide in autoxidation and in the generation of superoxide radical. An assay for superoxide dismutase using autoxidation of hydroxylamine is described.     

Unique antioxidant effects of herbal leaf tea and stem tea from Moringa oleifera L. especially on superoxide anion radical generation systems

ABSTRACT

This study aimed to investigate the unique antioxidative effects of Japanese moringa products, herbal leaf tea and stem tea, using established free radical assays, focusing on superoxide anion (O₂^?) radical generation systems. Hot-water extracts from moringa teas resulted in different but lower scavenging activities than Trolox in four synthetic free radical models. Interestingly, these extracts further showed higher O₂^? radical scavenging effects than Trolox in the phenazine methosulfate-NADH-nitroblue tetrazolium and xanthine oxidase assay systems. Incubating human neutrophils in the presence of these tea extracts rather than Trolox effectively suppressed cellular O₂^? radical generation. Among the eight known phenolic constituents of moringa leaves, caffeic acid and chlorogenic acid may be responsible for the O₂^–specific radical scavenging capacity stronger than that of Trolox. These results suggest that moringa herbal teas are a good source of natural antioxidants for preventing O₂^? radical-mediated disorders.

Abbreviations: O₂^?: superoxide anion; ROS: reactive oxygen species; H₂O₂: hydrogen peroxide; XOD: xanthine oxidase; DPPH: 1,1-diphenyl-2-picrylhydrazyl; ABTS⁺: 2,2′-azinobis(2-ethylbenzothiazoline-6-sulfonic acid) cation; CPZ⁺: chlorpromazine cation; PMS: phenazine methosulfate; NBT: nitroblue tetrazolium; PMA: phorbol 12-myristate 13-acetate     

The superoxide anion and singlet molecular oxygen: their role in the microbicidal activity of the polymorphonuclear leukocyte

Superoxide dismutase was found to partially inhibit both chemiluminescence and nitroblue tetrazolium (NBT) reduction from intact human polymorphonuclear leukocytes. This capacity to reduce NBT was lost when the polymorphonuclear leukocytes were sonicated, but could be regained if exogenous NADPH (or NADH) was added to the system. Superoxide dismutase was found to inhibit this NADPH- and NADH-dependent NBT reduction. A mechanism is proposed that relates superoxide anion generation to the univalent reduction of O₂ by the activated NADPH (and NADH) oxidase. The relationship of superoxide anion production to NBT reduction, singlet molecular oxygen generation, and chemiluminescence is discussed.     

Cation and anion balance in the xylem exudate of tobacco roots

Summary The sum of Na, K, Ca, Mg in the exudate of tobacco generally exceeded the sum of mineral anions. Insufficient organic acids were present to account for the differences and bicarbonate appeared to be the other anion involved. Amino acids were present in very low concentrations relative to mineral cations. When nitrate salts only were in the external solutions, the anions were mostly, but not entirely, nitrate. When chloride salts only were in the external solutions, the cations far exceeded the level of mineral anions in the exudate. It is postulated that nitrate is actively transported when nitrate salts are in the external solution regardless of the cation, but when anions other than nitrate are in the external solution, the cations are actively transported with the anions passively following. Nitrate transport was via a symplasm, but that of the other anions seemed to be different. When bicarbonate is the only anion in the external solution and when present at relatively high concentrations (5 × 10⁻³ M or higher), the volume of exudate is decreased. It appears that the organic acids which were synthesized as a result of the bicarbonate absorption were not transferred to the xylem vessels.     

Intermediate electron-acceptors in quantitative cytochemistry

Summary The efficacy of Meldola Blue (MB), a new intermediate electronacceptor, has been compared with that of phenazine methosulphate (PMS) in the assay of oxidoreductase activity in cryostat sections; various tetrazolium salts have been used as the final electron-acceptors. Three enzymes: succinate dehydrogenase, glucose 6-phosphate dehydrogenase and lactate dehydrogenase were investigated, the activity in sections being quantitated by scanning and integrating microdensitometry. Phenazine methosulphate was superior to Meldola Blue in transferring reducing equivalents from reduced coenzyme to all the tetrazolium salts examined.     

Study of a time lag in the assay of Escherichia coli membrane-bound dehydrogenases based on tetrazolium salt reduction

The Escherichia coli membrane-bound D-lactate dehydrogenase and succinate dehydrogenase were assayed on the basis of the phenazine methosulfate- (PMS-) mediated reduction of the tetrazolium salt, MTT. An initial slower phase (lag) in the time-course of the reaction was observed and analyzed. The results were as follows. (1) The time lag in the assay of the D-lactate dehydrogenase was eliminated by preincubating the membranes with PMS plus D-lactate, with PMS plus succinate, or with PMS plus NADH (conditions which implicated PMS reduction). (2) When the D-lactate dehydrogenase was assayed by another method based on the measurement of the pyruvate formed, neither was a time lag observed nor was the enzyme activity affected by membrane preincubation with PMS plus D-lactate. (3) Although the superoxide radical was involved in MTT reduction, this radical seemed not to participate in the generation of the time lag. (4) Membranes whose D-lactate dehydrogenase activity had previously been destroyed by heating at 80 degrees C for 1 min, were able to prolong the time lag in MTT reduction when added to the assay medium for the D-lactate dehydrogenase from untreated membranes, whereas membranes previously heated at 100 degrees C instead of 80 degrees C did not have this effect. It was concluded that the E. coli membranes interfered in the dehydrogenase assay based on the PMS-mediated reduction of MTT. The time lag was interpreted as a period during which the interfering substance reacted with reduced PMS inhibiting the reduction of MTT.     

Localized Tetrazolium Reduction in Relation to N2 Fixation, CO2 Fixation, and H2 Uptake in Aquatic Filamentous Cyanobacteria

The aquatic filamentous cyanobacteria Anabaena oscillarioides and Trichodesmium sp. reveal specific cellular regions of tetrazolium salt reduction. The effects of localized reduction of five tetrazolium salts on N₂ fixation (acetylene reduction), ¹⁴CO₂ fixation, and ³H₂ utilization were examined. During short-term (within 30 min) exposures in A. oscillarioides, salt reduction in heterocysts occurred simultaneously with inhibition of acetylene reduction. Conversely, when salts failed to either penetrate or be reduced in heterocysts, no inhibition of acetylene reduction occurred. When salts were rapidly reduced in vegetative cells, ¹⁴CO₂ fixation and ³H₂ utilization rates decreased, whereas salts exclusively reduced in heterocysts were not linked to blockage of these processes. In the nonheterocystous genus Trichodesmium, the deposition of reduced 2,3,5-triphenyl-2-tetrazolium chloride (TTC) in the internal cores of trichomes occurs simultaneously with a lowering of acetylene reduction rates. Since TTC deposition in heterocysts of A. oscillarioides occurs contemporaneously with inhibition of acetylene reduction, we conclude that the cellular reduction of this salt is of use in locating potential N₂-fixing sites in cyanobacteria. The possible applications and problems associated with interpreting localized reduction of tetrazolium salts in cyanobacteria are presented.     

Determination of superoxide dismutase-like activity in some divalent metal saccharinates

The superoxide-dismutase-like activity of a series of divalent metal saccharinates of general stoichiometry [M^II(Sac)₂(H₂O)₄]·2H₂O (with M^II=Mn,Fe,Co,Ni,Cu,Zn) has been investigated using the nitroblue tetrazolium O ₂ ⁻ reduction assay. The results show that all these complexes possess the capability to dismutate the superoxide anion generated in the xanthine/xanthine oxidase system. Interestingly, the greatest activity is shown by the corresponding copper complex. The results are discussed and compared with those obtained for native superoxide dismutase, which was tested under the same experimental conditions. Dedicated to Prof. Pedro J. Aymonino on the occasion of his 65^th birthday.     

In vitro superoxide activity in the haemolymph of the West Indian leaf cockroach,Blaberus discoidalis

The respiratory burst is an NADPH oxidase-driven reduction of molecular oxygen to superoxide, which can occur in phagocytic cells as part of an antimicrobial defence, and is well documented among the vertebrates. This paper describes a process resembling the respiratory burst, which occurs in the haemolymph and haemocytes of the cockroach, Blaberus discoidalis. The in vitro reduction of nitroblue tetrazolium by superoxide to formazan was measured spectrophotometrically in B. discoidalis haemolymph in response to various immune elicitors. Nitroblue tetrazolium reduction was partly impeded in the presence of superoxide dismutase, a specific antioxidant which converts superoxide to hydrogen peroxide, as well as by chemicals known to inhibit the respiratory burst in vertebrates (trifluoperazine, diphenylene iodonium, and N-ethylmaleimide). This suggests the generation of superoxide anions by haemolymph as part of an immune response. Furthermore, formazan staining of elicitor-treated haemocytes was observed microscopically, with less intense staining in the presence of superoxide dismutase. Finally, respiratory burst inhibitors and superoxide dismutase enhanced the growth of E. coli incubated in whole haemolymph, implying a role for haemolymph-derived superoxide in antibacterial defence.     

in Vitro Effect of Lung Surfactant on Alveolar Macrophage Defence Mechanisms Against Cryptococcus Neoformans

The effects of a modified natural porcine surfactant (Curosurf) on phagocytosis and killing of Cryptococcus neoformans by alveolar macrophages and on the production of superoxide anions were investigated in vitro. Attachment and ingestion were evaluated separately by a fluorescent quenching technique. The nitroblue tetrazolium reduction test was used as an indirect measurement of superoxide anion production. Killing was assessed by a colony-forming assay. Surfactant induced increased ingestion of C. neoformans, unopsonized as well as opsonized with fresh serum or anticryptococcal polyclonal IgG. Surfactant had, however, no effect on the attachment or killing of unopsonized or opsonized C. neoformans by the alveolar macrophages. In addition, the enhancement of the oxidative metabolism of the macrophages after stimulation with opsonized yeast was impaired, although the killing was not affected. This study indicates that in vitro Curosurf can influence the alveolar macrophage defence against C. neoformans by enhancing its ingestion and by interacting with the superoxide anions release from alveolar macrophages stimulated with fresh serum or anticryptococcal polyclonal IgG opsonized yeast cells. This revised version was published online in August 2006 with corrections to the Cover Date.