Increased nitroblue tetrazolium dye reduction by human neutrophils stimulated by interferon in vitro

Human leukocyte interferon enhanced nitroblue tetrazolium dye (NBT) reduction by human neutrophils (PMNs). Increase in NBT reduction paralleled increase in interferon dose. When human leukocyte interferon was heated to 60 C or 80 C for 30 min, both the antiviral activity and the effect on NBT reduction decreased. Human leukocyte interferon neutralized with anti-human leukocyte interferon serum showed no effect on NBT reduction. A human fibroblast interferon preparation also enhanced NBT reduction. The species dependency of interferon was shown in NBT reduction as well as in antiviral activity.     

Cyanide-resistant reduction of nitroblue tetrazolium and hydrogen peroxide production by the rabbit blastocyst.

The ability of the rabbit blastocyst to reduce nitroblue tetrazolium (NBT) to formazan in the presence of cyanide was assayed as an indicator of extramitochondrial oxidase activity capable of generating the superoxide radical. A cytochemical method initially developed for the detection and localization of hydrogen peroxide production at the ultrastructural level in phagocytosing leukocytes (Briggs et al.: J Cell Biol 67:566, 1975) was also applied to the blastocyst. The results demonstrate that the rabbit blastocyst acquires the ability to reduce NBT by a cyanide-insensitive process and to generate hydrogen peroxide between the fourth and fifth days postcoitum. The enzymatic activity responsible is apparently an NAD(P)H-dependent oxidase in the outer, microvillous plasma membrane of the trophoblast.     

Kinetics of the reaction of nitroblue tetrazolium reduction by human blood neutrophils

Kinetics of Nitro blue tetrazolium (NBT) reduction to diformasan by neutrophils was investigated using 27 samples of human blood. Analysis of alteration in the share of activated neutrophils (ANP) and activated neutrophil index (ANI) was done in relation to the reaction time. The former reaction is an irreversible reaction of zero (pseudozero) order, while the latter is an irreversible reaction of the first (pseudofirst) order. It has been found out that an induced NBT reduction occurs in parallel with a spontaneous reaction, and that neutrophils have essentially different oxidizing power. The kinetic approach enabled us to discover some indices (NBT quantity involved in the reaction, and reaction speed constant of the first order) which in different samples varied within broader limits than ANP or ANI (within the limits of an order), i.e. provided a possibility to make a more delicate analysis of processes in neutrophils.     

Quantitative characteristics of nitroblue tetrazolium reduction by the neutrophils in experimental systemic candidiasis

The quantitative study of the reduction capacity of neutrophils with respect to nitro blue tetrazolium in experimental systemic candidiasis has revealed an increase in this capacity within 20 days of the infection. The reduction capacity has been found to depend not only on the degree of the contamination of the body with Candida cells, but also on the stage of the inflammatory process.     

Superoxide-dependent nitroblue tetrazolium reduction and expression of cytochrome b-245 components by human tonsillar B lymphocytes and B cell lines

EBV-transformed B lymphocyte cell lines can generate superoxide, using an electron transport chain homologous, or even identical, to phagocytic NADPH-oxidase. We searched for normal, not virally transformed, B lymphocytes with analogous properties, using tonsils as the source of B cells. Unseparated tonsillar leukocytes contained cells capable of PMA-triggered superoxide dismutase-inhibitable reduction of nitroblue tetrazolium (NBT+ cells) well in excess of phagocytes (18.9 +/- 6.4% NBT+ cells with 1.3 +/- 0.9% granulocytes and 1.9 +/- 2.3% monocytes/macrophages, n = 8). NBT reduction was also inhibited by diphenylene iodonium, a selective inhibitor of phagocytic NADPH-oxidase. Cross-linking of surface Ig was equally effective as PMA in inducing NBT reduction among tonsillar leukocytes. NBT+ cells co-distributed with B cells on Percoll density gradients and were enriched among purified B cells obtained by SRBC rosetting twice and Sephadex G10 adherence (47.8 +/- 15.2% NBT+ cells among 90.5 +/- 5.5% B cells, 4.8 +/- 5.1% T cells, 1.2 +/- 0.77% monocytes/macrophages, and 0.73 +/- 0.6% granulocytes, n = 10). Further, mAb 7D5, directed against an extracellularly located epitope of the small subunit of cytochrome b-245 of phagocytes, stained the majority of tonsillar B cells (85 +/- 9.2% 7D5+ cells and 91.6 +/- 4.04% B cells, n = 3). Superoxide production, staining with 7D5 antibody, and expression of mRNA for the beta chain of cytochrome b-245 were further analyzed in cell lines. The EBV-BLCL F1 and the Burkitt lymphoma P3HR-1 both carried 7D5-detectable cytochrome b-245 Ag and expressed mRNA for the beta chain of the cytochrome b, both in similar amounts. However, only F1, not P3HR-1, was capable of PMA-triggered superoxide production. These data indicate that also normal nontransformed B lymphocytes possess the capacity to generate superoxide by a system apparently similar to phagocytic NADPH-oxidase, provisionally termed "B cell oxidase." Discrepancies observed in certain B cells and lines between expression of cytochrome b components and stimulus-induced superoxide production may be related to an absence or low level of other oxidase components or of the signal transduction mechanism. Conceivably, production of superoxide and derived reactive oxygen species by B cells may have cytotoxic, immunomodulatory, or mutagenic effects on the B cells themselves or on cells in their immediate vicinity.     

Superoxide-dependent and superoxide-independent pathways for reduction of nitroblue tetrazolium in isolated rat cardiac myocytes.

Spectroscopic studies indicated that nitroblue tetrazolium (NBT) could be reduced to blue formazan by several distinct reactions in suspensions of isolated rat cardiac myocytes. Both NADPH- and NADH-linked pathways for reduction of NBT were observed. NADPH-linked NBT reduction showed little activity in the absence of digitonin, but could be stimulated an average of 9.5-fold by digitonin permeabilization of the plasma membrane. NADH-linked NBT reduction occurred in the absence of digitonin, and could be increased an average of 3.5-fold by digitonin treatment. Analysis of the effects of cell viability on the extent of digitonin stimulation with these substrates suggested that the NADPH-linked reaction involved a cytosolic component, while the NADH-linked reaction involved an intracellular membrane enzyme system. With either NADPH or NADH, NBT reduction was completely inhibited by dicoumarol (100 microM). Dicoumarol-insensitive NBT reduction could subsequently be observed following the addition of 2 mM cyanide, a level of cyanide known to inhibit cytosolic superoxide dismutase. Cyanide-stimulated, dicoumarol-insensitive NBT reduction was augmented by the presence of either antimycin or doxorubicin, two agents which enhance superoxide formation by different mechanisms. The results indicate the existence of multiple pathways for both superoxide-independent and superoxide-dependent reduction of NBT. Dicoumarol-insensitive, cyanide-stimulated NBT reduction may be useful as a spectroscopic probe for intracellular superoxide formation.     

The interaction of aminogroups with pyrroloquinoline quinone as detected by the reduction of nitroblue tetrazolium

The interaction of pyrroloquinoline quinone (PQQ) with amino groups was followed by measuring the capacity of adducts to reduce nitroblue tetrazolium (NBT). Of the natural amino acids only glycine, ornithine, and lysine interacted strongly with PQQ. The reducing activity of other less reactive amino acids, but not of lysine, was increased by ammonia, primary or secondary amines. Divalent cations, in contrast inhibited development of NBT-reducing activity. PQQ also developed NBT-reactivity in the presence of serotonin and albumin. A reaction scheme is proposed which explains these findings. It is suggested that the NBT-reducing activity of plasma which is not caused by glycation of plasma proteins, arises from PQQ adducts inherent to plasma. This NBT-reducing activity corresponds to approximately 10 micrograms PQQ/ml plasma.     

Characterization of a human mitogenic factor (MF) released by phytohemagglutinin-activated lymphocytes.

Phytohemagglutinin (PHA)-stimulated human lymphocytes release soluble products upon subsequent incubation in fresh medium, which are strongly mitogenic for other lymphocytes. In the present investigation, some of the biochemical properties of such a factor (MF) were investigated. It was found that serum is not required in the production of MF. The mitogenic factor was stable at 56 °C for 30 min and at 80 °C for 10 min but was destroyed by treatment at 100 °C for 1 min. By gel chromatography on Sephadex the mitogenic activity was found in fractions corresponding to a molecular weight of 40,000–55,000. Moreover, isoelectric focusing indicated an isoelectric point at pH 8.0–8.5. By subjecting MF to CM-32 cellulose ion-exchange chromatography, all activity was detected in the adsorbed fractions. PHA was studied in parallel in some of the experiments. The results clearly showed that MF is distinct from PHA which induces the release of MF. MF was not adsorbed to concanavalin A-Sepharose.     

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.     

The reduction of nitroblue tetrazolium by red blood cells: a measure of red cell membrane antioxidant capacity and hemoglobin-membrane binding sites

The reduction of nitroblue tetrazolium (NBT) with intact Red Blood Cells (RBCs) is biphasic with an initial rapid reduction followed by a slower second phase. This biphasic kinetics has been explained with the initial rapid phase attributed to antioxidants in the red cell which reduce membrane bound NBT and the slower phase associated with the reaction of NBT with membrane bound hemoglobin. This model has been confirmed by a utilization of a number of red cell modifications which either increase the red cell antioxidants (vitamin C and vitamin E) or damage the red cell membrane (cumene hydroperoxide and N-ethylmaleimide). The utilization of this assay for human blood samples was investigated by studying a series of 20 human subjects ranging between 34 and 87 years of age. It was possible to fit all of these samples with two adjustable parameters which reflect the red cell membrane antioxidant capacity (x) and the hemoglobin membrane interactions (m). The antioxidant capacity shows a significant (p < 002; R = -.67) decrease with age. This finding is consistent with a decrease in the level of antioxidants in aged subjects. In addition, the number of hemoglobin membrane sites are negatively correlated with the antioxidant capacity (p < .02; R = -.52) suggesting that the oxidative stress associated with reduced antioxidants results in increased hemoglobin-membrane interactions.     

Detection of elevated RBE in human lymphocytes exposed to secondary electrons released from X-irradiated metal surfaces

Regulla, D., Panzer, W., Schmid, E., Stephan, G. and Harder, D. Detection of Elevated RBE in Human Lymphocytes Exposed to Secondary Electrons Released from X-Irradiated Metal Surfaces. Radiat. Res. 155, 744-747 (2001). Monolayers of human lymphocytes, attached to a 2-microm Mylar film, were irradiated with 60 kV X rays in the presence and absence of a 150-microm gold film backing the Mylar film. With the gold film present, the absorbed dose imparted to the cells was increased by a factor of 45.4 due to the release of photoelectrons from the gold film. The frequencies of dicentric chromosomes and centric rings as well as of excess acentric fragments were increased in agreement with this dose enhancement, and in addition an RBE of about 1.7 compared to the frequencies observed in the absence of the gold film was found. These radiation effects, which contribute to risk considerations in radiology, are interpreted in terms of the increased dose-mean restricted LET of the photoelectrons backscattered from the metal and slowed down in the Mylar film before they enter the cell layer.     

Substrate-dependence of reduction of MTT: a tetrazolium dye differs in cultured astroglia and neurons

3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction is widely used to evaluate cell proliferation and viability. MTT reduction is interpreted to be indicative of cellular metabolic activity, and the site of reduction includes both mitochondrial and cytosolic redox reactions. Astrocytes are believed to rely mainly on glycolysis for ATP generation, whereas neurons are considered to depend more on oxidative metabolism. The present study, therefore, tested the substrate-preference of glucose and its metabolites for MTT reduction in cultures of rat type 1 astroglia and neurons.MTT specific activity of astroglia was much higher than that of neurons. Astroglial MTT reducing activity in glucose-free medium or 2mM glucose with iodoacetate (5mM) was completely blocked. In glucose-depleted medium, 2mM lactate, pyruvate, malate, or acetate elicited minimal increases in MTT reduction by astroglia. In contrast, MTT reducing activity in neurons was enhanced two-fold by pyruvate and the reducing activity of lactate was equivalent to that of glucose, while malate had a small and acetate had no effect on MTT reduction. These results indicate that these two cell types differ markedly in their substrate-preferences for MTT reduction. In astroglia, MTT reduction reflects mainly cytosolic redox activity and is dependent on glyceraldehyde-3-phosphate dehydrogenase. In neurons, pyruvate dehydrogenase supports MTT reduction more effectively than glucose or lactate, even though both of these substrates can produce NADH and pyruvate.     

Biochemical characterization of a factor released by macrophages.

Peritoneal macrophages from the mouse are able to release a factor, which inhibits the incorporation of [³H]thymidine into the DNA of lymphocytes. The biochemical characterization of this factor reveals that this factor is thymidine, a degradation product of cells dying in culture.     

Novel leukocyte agonists are released by endothelial cells exposed to peroxide.

Reactive oxygen species do not activate isolated neutrophils, yet in vivo, such oxidants promote their adhesion to, and subsequent migration through, the vascular wall. We show human endothelial cells exposed to t-butylhydroperoxide shed large, sealed membrane vesicles that contained potent neutrophil agonists. This activity migrated on TLC like platelet-activating factor (PAF). Since neutrophils have a receptor for this phospholipid, which recognizes its unique characteristics including the short sn-2 acetyl residue, we examined the effect of PAF receptor antagonists and PAF acetylhydrolase on this activity. Structurally unrelated PAF receptor antagonists blocked neutrophil stimulation by vesicular phospholipids, and digestion with PAF acetylhydrolase, which is specific for short sn-2 residues, destroyed this activity. However, metabolic labeling, inhibition of synthesis, phospholipase A1 digestion, and high performance liquid chromatographic studies demonstrated that the vesicles did not contain PAF. Instead, the bioactivity migrated on high performance liquid chromatography like the phospholipids generated by oxidative fragmentation of synthetic arachidonoyl phosphatidylcholine that we have shown previously (Smiley, P. L., Stremler, K. E., Prescott, S. M., Zimmerman, G. A., and McIntyre, T. M. (1991) J. Biol. Chem. 266, 11104-11110) to stimulate neutrophils through their receptor for PAF. Thus, peroxide treatment of endothelial cells fragments cellular phosphatidylcholines, forming novel PAF-like phospholipids, and induces the shedding of membrane vesicles that contain these bioactive phospholipids.     

Suppressor cell induction factor: a new mediator released by stimulated human lymphocytes and distinct from previously described lymphokines

Suppressor cell induction factor (SIF) was produced by alloantigen-stimulated human peripheral blood lymphocytes, and it activated human T cells to become effective suppressors of the mixed lymphocyte reaction (MLR). The activity of SIF was resistant to 56 degrees C and to pH 2, and was precipitated by 50 to 80% saturated ammonium sulfate. SIF had a m.w. range, as determined by gel filtration, of 18,000 to 29,000; it did not bind to DEAE cellulose columns; and it was recovered in the pH range from 6.9 to 7.3 on isoelectric focusing. SIF was biochemically separable from IL 2, BF, IFN-gamma, and CSF. Furthermore, IL 2 activity was completely removed by absorption of MLC supernatants by murine cytotoxic T lymphocyte line (CTLL) cells, whereas SIF activity was unabsorbable, thus distinguishing SIF from IL 2. In addition, antiviral activity of MLC supernatants was completely abolished by anti-human IFN-gamma serum, whereas SIF activity was unaffected by this antiserum, thus distinguishing SIF from IFN-gamma. Since treatment of these supernatants with antiserum against human lymphoblastoid cell IFN(alpha/beta) had no effect on either antiviral or SIF activities in these supernatants, SIF was also distinguishable from IFN alpha/beta. These results indicate that SIF is a distinct new lymphokine with the ability to induce suppressor function in human T cells.