植物细胞中蓝光诱导ROS生成的识别和亚细胞定位检测

以2’,7’-二氯二氢荧光素二乙酯(dichlorofluorescein diacetate,H2DCF-DA)为荧光探针孵育拟南芥叶表皮条,利用荧光光谱和激光共聚焦扫描显微技术,对高辐照蓝光诱导下叶肉细胞活性氧(reactive oxygen spe-cies,ROS)的生成,进行了分子识别和亚细胞定位检测。结果表明:植物细胞在蓝光诱导下,可以产生大量的ROS。过氧化氢酶清除实验表明:高辐照蓝光诱导产生的ROS,主要成分是H2O2,并且主要定位在叶绿体和细胞膜上。     

Activation of guinea pig polymorphonuclear leukocytes with soluble stimulators leads to nonrandom distribution of NADPH oxidase in the plasma membrane

Guinea pig polymorphonuclear leukocytes (PMN) were briefly activated with soluble stimulators such as sodium myristate (SM) or phorbol myristate acetate (PMA) and then disrupted by the nitrogen cavitation method to study the subcellular distribution of NADPH oxidase, which is responsible for O2 - generation. Fc-receptor and 5'-nucleotidase activities were measured as plasma membrane markers. 1) The homogenate was first fractionated by differential centrifugation. The O2- -generating activity of PMN activated either by SM or PMA was recovered in a 2 X 10(4) g pellet which contained a large amount of granules and about 50% of the plasma membrane markers, but not in a 1 X 10(5) g pellet which consisted of plasma membranes and few granules. 2) Further separation of the 2 X 10(4) g pellet from PMA-activated PMN was attempted by an iso-osmotic Percoll density gradient centrifugation. The O2- -generating activity was recovered in light fractions in which plasma membrane markers were found, but neither in specific nor in azurophil granules. The 1 X 10(5) g pellet showed a similar distribution of the plasma membrane markers to that of the 2 X 10(4) g pellet, except that the peak of the O2- -generating activity was much smaller on an identical density gradient. The results showed that NADPH oxidase is located in the plasma membranes precipitated by centrifugation at 2 X 10(4) X g but not in the ones precipitated at 1 X 10(5) X g. The results suggest that the plasma membrane of activated PMN has a mosaic distribution of NADPH oxidase.     

Effect of ionizing radiation on O2 generation by cytochrome P-450

A study was made of generation of superoxide anion-radical (O2-) by cytochrome P-450 in a microsomal membrane of rat liver. Using spectrophotometry (by oxidation of adrenaline to adrenochrome) and ESR (with a spin-trap, tiron) the authors showed the ability of O2- generation by P-450 through decomposition of organic peroxides. During the first 24 h following irradiation of rats with doses of 7 and 10 Gy, the generation of O2- by cytochrome P-450 of rat liver microsomes was increased. Mechanisms of the postirradiation modification of O2- generation rate are discussed.     

Arachidonic acid acts as an intracellular activator of NADPH-oxidase in Fc gamma receptor-mediated superoxide generation in macrophages

A protein kinase C inhibitor, 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7), inhibited phorbol ester (12-o-tetradecanoylphorbol 13-acetate)-induced and Fc gamma receptor-mediated superoxide anion (O2-) generations in guinea pig macrophages, but the inhibitory effect on Fc gamma receptor-mediated O2- generation was only partial. Both O2- generations were inhibited extensively by a phospholipase A2 inhibitor, 4-p-bromophenacyl bromide (4-pBPB). It was confirmed in control experiments that H-7 and 4-pBPB had no direct inhibitory effect on NADPH-oxidase activity. Dose-dependent stimulation of O2- generation was induced by arachidonate in macrophages, and the arachidonate-induced O2- generation was not inhibited by H-7. Arachidonate could also induce NADPH-oxidase activation in a post-nuclear fraction obtained from unstimulated macrophages and this activation was not inhibited by H-7, indicating that protein kinase C activation was not involved in this cellfree system. These results support the hypothesis that the O2- generation induced by Fc gamma receptor stimulation is mainly mediated by arachidonic acid which is released by the action of phospholipase A2 activated by receptor stimulation. Arachidonic acid seems to be acting rather directly in activating the NADPH-oxidase system of macrophage membrane. Protein kinase C may have a significant role in Fc gamma receptor-mediated O2- generation but it is not obligatory, and protein kinase C seems to activate NADPH-oxidase rather indirectly, probably by inducing the arachidonic acid release.     

Effect of tumor necrosis factor-alpha on the stimulus-coupled responses of neutrophils and their modulation by various inhibitors.

Preincubation of human peripheral blood polymorphonuclear leukocytes (HPPMN) with recombinant human tumor necrosis factor-alpha (rHuTNF-alpha) enhanced the formylmethionyl-leucylphenylalanine (FMLP)-induced superoxide (O2-.) generation in a concentration- and preincubation time-dependent manner. The enhancement was very high for the FMLP- or opsonized zymosan (OZ)-induced O2-. generation, but was low for arachidonic acid (AA)- and phorbol myristate acetate (PMA)-induced O.2- generation. The rHuTNF-alpha has no effect on the steady state of intracellular calcium ion concentration ([Ca2+]i) nor on the membrane potential of neutrophils. The rHuTNF-alpha-primed FMLP-induced O2-. generation was inhibited by nicotineamide (NA), pertussis toxin (PT), and by the tyrosine kinase (TK) inhibitor, genistein, but was enhanced by the protein kinase C (PKC) inhibitor, H-7 (1-(5-isoquinolinesulfonyl)-3-methyl-piperazine). The inhibitory actions of NA and PT were also observed in in vivo primed guinea pig peritoneal neutrophils (GPtPMN). However, FMLP-induced O2-. generation of GPtPMN was enhanced by genistein, but was inhibited by H-7. These data indicate that TNF-alpha does not induce changes in [Ca2+]i nor in membrane potential of HPPMN, and that TNF-alpha-primed FMLP-induced O.2- generation of HPPMN is coupled with ADP-ribosylation and activation of G-proteins, and that protein kinases, especially TK, seem to exert an important role in the priming action of TNF.     

ML-7 inhibits exocytosis of superoxide-producing intracellular compartments in human neutrophils stimulated with phorbol myristate acetate in a myosin light chain kinase-independent manner

ML-7, (5-iodonaphthalene-1-sulfonyl) homopiperazine, is commonly employed as a myosin light chain kinase (MLCK) inhibitor. In the present study, we demonstrated that ML-7 affects the superoxide (O(2)(-))-producing system of human neutrophils in an MLCK-independent manner. Human neutrophils were stimulated with phorbol myristate acetate (PMA), which does not activate MLCK. ML-7 inhibited extracellular release, but not intracellular production of O(2)(-) in the stimulated cells. Fluorescence microscopy revealed the generation of O(2)(-) at intracellular compartments in the stimulated cells exposed to ML-7. At the electron microscopic level, the reaction product of NADPH oxidase activity was found in intracellular compartments. ML-7 strongly inhibited the association of the oxidant-producing intracellular compartments with the plasma membrane. Furthermore, the upregulation of alkaline phosphatase activity, a marker enzyme of the oxidant-producing intracellular compartments, was also inhibited by ML-7. These findings indicate that ML-7 inhibits the fusion of the oxidant-producing intracellular compartments to the plasma membrane resulting in the inhibition of the extracellular release of O(2)(-) in PMA-stimulated human neutrophils in an MLCK-independent manner.     

NADPH oxidase of human neutrophils. Subcellular localization and characterization of an arachidonate-activatable superoxide-generating system

The superoxide-forming NADPH oxidase of human neutrophils was studied in subcellular fractions of unstimulated cells. Purified neutrophils were disrupted by nitrogen cavitation and separated on Percoll density gradients into four fractions: alpha, azurophil granules; beta, mostly specific granules; gamma, plasma membrane, and cytosol. NADPH-dependent O2-. formation by these fractions was quantitated as the rate of superoxide dismutase-inhibitable reduction of ferricytochrome c. In the presence of cytosol, NADPH, and either arachidonic acid (optimum 90 microM) or sodium dodecyl sulfate (optimum 160 microM), 70-75% of the oxidase was in the beta fraction and about 25% was in the gamma fraction. A similar distribution was found for cytochrome b559 and FAD, two putative components of the oxidase. The reaction rates observed with arachidonic acid activation were sufficient to account for 25-75% of the O2-. generated by intact neutrophils. The properties of the beta and gamma enzymes were similar and closely resembled those of the oxidase in intact neutrophils or disrupted prestimulated cells. These included resistance to azide and cyanide, a pH optimum of 7.4, and a preference for NADPH (Km approximately 40-45 microM) rather than NADH (Km approximately 2.5 mM) as the electron donor. The combination of beta and gamma fractions displayed additive activity. The activatable oxidase required Mg2+ but not Ca2+. ATP was required for maximum reaction rates. When beta and gamma membranes were preincubated with cytosol and arachidonic acid in the presence of millimolar Mg2+ and then ultracentrifuged membrane-bound O2-. -forming activity was recovered in the pellet and the enzyme required only NADPH (i.e. no cytosol, arachidonic acid, or Mg2+) for expression of activity. These data suggest that cytosol contains a Mg2+-dependent oxidase-activating factor. Molecular sieve chromatography of cytosol indicated a single peak of activity (i.e. ability to activate O2-. generation by beta and/or gamma fraction) eluting with molecules of about 10,000 daltons.     

B2-1, a Sec7- and pleckstrin homology domain-containing protein, localizes to the Golgi complex

B2-1 is a human protein that contains both a Sec7 and a pleckstrin homology domain. The yeast Sec7 protein was previously shown to be involved in vesicle formation in the Golgi and endoplasmic reticulum. Recently, several groups have shown that B2-1 and highly similar proteins (e.g., ARNO, ARNO3) have varied cellular functions and subcellular locations. One of these is an association of the B2-1 Sec7 domain with the plasma membrane, binding to the cytoplasmic portion of the integrin beta2 chain (CD18) and is postulated to be involved in inside-out signaling. Other groups have shown that B2-1 and these related proteins are guanine nucleotide-exchange factors that act upon ADP ribosylation factors (ARFs) and are localized to the Golgi or plasma membrane. Here we report the subcellular localization of B2-1 protein. Interestingly, B2-1 does not localize to the plasma membrane but rather associates with a distinct Golgi complex compartment. B2-1's distribution can be disrupted by brefeldin A, a drug that rapidly disrupts the Golgi apparatus by inhibiting ARF activity. Furthermore, transient transfection of GFP-tagged B2-1 shows Golgi complex targeting. Excessive overexpression of transfected B2-1 causes partial Golgi dispersion.     

Early steps in the oxidative burst induced by cadmium in cultured tobacco cells (BY-2 line)

The rapid generation of H(2)O(2) by Cd(2+)-treated plant cells was investigated in cultured tobacco (Nicotiana tabacum L.) BY-2 cells. The starting point for the generation of H(2)O(2) has been located at the cell plasma membrane using cytochemical methods. Treatment of the cells with diphenyleneiodonium (DPI) and imidazol, both inhibitors of the neutrophil NADPH oxidase, prevented the generation of H(2)O(2) induced by Cd(2+). These data suggest the involvement of an NADPH oxidase-like enzyme leading to H(2)O(2) production through O(2)(*-) dismutation by superoxide dismutase enzymes. To investigate the implication of Ca(2+) channels in a Cd(2+)-induced oxidative burst, different inhibitors of Ca(2+) channels were used. Only La(3+) totally inhibited the generation of H(2)O(2) induced by Cd(2+). However, verapamil and nifedipine, inhibitors of Ca(2+) channels, were not effective. Calmodulin or a Ca(2+)-dependent protein kinase is also implicated in the signal transduction sequence, based on the results obtained with two types of calmodulin antagonists, fluphenazine and N-(-6-amino-hexyl)-5-chloro-1-naphthalenesulphonamide (W-7) and staurosporine, an inhibitor of protein kinases. However, neomycin, an inhibitor of the phosphoinositide cycle, did not inhibit the generation of H(2)O(2) induced by Cd(2+), suggesting mainly an induction of the oxidative burst mediated by calmodulin and/or calmodulin-dependent proteins.     

Thyroid hormone regulation of cell migration and oxidative metabolism in polymorphonuclear leukocytes: clinical evidence in thyroidectomized subjects on thyroxine replacement therapy

Migration and superoxide anion (O2-) generation were studied in polymorphonuclear leukocytes (PMNs) from 14 athyreotic patients, previously treated by total thyroidectomy and radioiodine therapy for differentiated thyroid carcinoma, and from age- and sex-matched euthyroid healthy controls. Patients were studied twice: in hypothyroidism (visit 1) and after TSH-suppressive L-T4 replacement therapy (visit 2). Random migration and N-formyl-Met-Leu-Phe (fMLP) 0.1-microM induced chemotaxis were similar in cells from patients at both visit 1 and visit 2 and from healthy controls. On the contrary, resting O2- generation in cells from patients was significantly lower than control values, both at visit 1 and 2. At visit 1, fMLP 0.1 muM-induced O2- generation was significantly lower than control values, while phorbol-myristate acetate (PMA) 100-ng/ml induced O2- generation was similar in cells from patients and from controls. At visit 2 both responses increased, resulting in fMLP-induced O2- generation superimposable to control values and PMA-induced O2- generation significantly higher with respect to both visit 1 and cells from controls. In vitro exposure of PMNs from healthy subjects to L-T4 did not affect O2- generation in resting cells, and significantly increased that induced by fMLP or PMA only at high, supra-physiological concentrations. Neither TSH nor T3 had significant effects at any of the concentrations tested. The present results document the existence of a correlation between thyroid status and oxidative metabolism of human PMNs, which is however unlikely to depend upon a direct action of thyroid hormones on these cells.     

Reactive oxygen species in programmed death of pea guard cells

Hydrogen peroxide potentiates CN(-)-induced apoptosis of guard cells recorded as destruction of cell nuclei in the epidermis from pea leaves. A still stronger effect was exerted by the addition of H2O2 and NADH, which are the substrates of the plant cell wall peroxidase producing O2*- coupled to the oxidation of NADH. The CN(-)-or (CN(-) + H2O2)-induced destruction of guard cell nuclei was completely removed by nitroblue tetrazolium (NBT) oxidizing O2*- and preventing there-by the subsequent generation of H2O2. The reduced NBT was deposited in the cells as formazan crystals. Cyanide-induced apoptosis was diminished by mannitol and ethanol, which are OH* traps. The dyes Rose Bengal (RB) and tetramethylrhodamine ethyl ester (TMRE) photosensitizing singlet oxygen production suppressed the CN(-)-induced destruction of the cell nuclei in the light. This suppression was removed by exogenous NADH, which reacts with 1O2 yielding O2*-. Incubation of leaf slices with RB in the light lowered the photosynthetic O2 evolution rate and induced the permeability of guard cells for propidium iodide, which cannot pass across intact membranes. Inhibition of photosynthetic O2 evolution by 3-(3',4'-dichlorophenyl)-1,1-dimethylurea or bromoxynil prevented CN(-)-induced apoptosis of guard cells in the light but not in the dark. RB in combination with exogenous NADH caused H2O2 production that was sensitive to NBT and estimated from dichlorofluorescein (DCF) fluorescence. Data on NBT reduction and DCF and TMRE fluorescence obtained using a confocal microscope and data on the NADH-dependent H2O2 production are indicative of generation of reactive oxygen species in the chloroplasts, mitochondria, and nuclear region of guard cells as well as with participation of apoplastic peroxidase. Cyanide inhibited generation of reactive oxygen species in mitochondria and induced their generation in chloroplasts. The results show that H2O2, OH*, and O2*- resources utilized for H2O2 production are involved in apoptosis of guard cells. It is likely that singlet oxygen generated by RB in the light, judging from the permeability of the plasmatic membrane for propidium iodide, makes Photosystem II of chloroplasts inoperative and induces necrosis of the guard cells.     

Activation of the human neutrophil by calcium-mobilizing ligands. II. Correlation of calcium, diacyl glycerol, and phosphatidic acid generation with superoxide anion generation

Calcium and protein kinase C (Ca2+/phospholipid-dependent enzyme) have been proposed to act as signals in triggering superoxide anion (O2-) generation by neutrophils. We have probed the adequacy and necessity of calcium and diacylglycerol (DG), activators of protein kinase C, in eliciting O2- generation and degranulation. Activation of neutrophils by the ligand 10(-7) M fMet-Leu-Phe triggered elevation of cytosolic calcium (fura-2) and a rapid, biphasic increase in labeled DG in [14C]glycerol and [3H]arachidonate prelabeled cells. Buffering of the fMet-Leu-Phe-induced elevation of cytosolic calcium with MAPTAM (a cell permeant EGTA analogue) inhibited O2- generation by 90% and degranulation by 50%, concordant with a role of calcium in signaling. However, buffering the increase in calcium also decreased DG. Since phosphatidylinositol 4,5-bisphosphate breakdown in response to fMet-Leu-Phe was not inhibited and phosphatidic acid levels were enhanced in MAPTAM pretreated cells, the removal of calcium may enhance further DG metabolism. Thus, a requirement for calcium could not be differentiated from a requirement for DG, and the profound inhibition of O2- generation in the presence of MAPTAM may reflect removal of DG. Four stimuli, fMet-Leu-Phe, 10(-7) M leukotriene B4, 100 micrograms/ml concanavalin A, and 200 nM ionomycin elevated cytosolic calcium and triggered release of specific granules, but only fMet-Leu-Phe and concanavalin A triggered substantial O2- generation. Nevertheless, all four stimuli significantly increased labeled DG. Therefore, elevated DG and elevated calcium may be necessary but do not appear adequate to elicit O2- generation. Only fMet-Leu-Phe and concanavalin A triggered generation of phosphatidic acid (PA) together with DG. Correlation of O2- generation with PA may reflect a requirement for PA per se or for a specific pool of DG that can be further metabolized to PA.     

Superoxide flux in endothelial cells via the chloride channel-3 mediates intracellular signaling

Reactive oxygen species (ROS) have been implicated in both cell signaling and pathology. A major source of ROS in endothelial cells is NADPH oxidase, which generates superoxide (O(2)(.-)) on the extracellular side of the plasma membrane but can result in intracellular signaling. To study possible transmembrane flux of O(2)(.-), pulmonary microvascular endothelial cells were preloaded with the O(2)(.-)-sensitive fluorophore hydroethidine (HE). Application of an extracellular bolus of O(2)(.-) resulted in rapid and concentration-dependent transient HE oxidation that was followed by a progressive and nonreversible increase in nuclear HE fluorescence. These fluorescence changes were inhibited by superoxide dismutase (SOD), the anion channel blocker DIDS, and selective silencing of the chloride channel-3 (ClC-3) by treatment with siRNA. Extracellular O(2)(.-) triggered Ca(2+) release in turn triggered mitochondrial membrane potential alterations that were followed by mitochondrial O(2)(.-) production and cellular apoptosis. These "signaling" effects of O(2)(.-) were prevented by DIDS treatment, by depletion of intracellular Ca(2+) stores with thapsigargin and by chelation of intracellular Ca(2+). This study demonstrates that O(2)(.-) flux across the endothelial cell plasma membrane occurs through ClC-3 channels and induces intracellular Ca(2+) release, which activates mitochondrial O(2)(.-) generation.     

Hydrogen peroxide is involved in high blue light-induced chloroplast avoidance movements in Arabidopsis

One of the most important functions of blue light (BL) is to induce chloroplast movements in order to reduce the damage to the photosynthetic machinery under excess light. Hydrogen peroxide (H(2)O(2)), which is commonly generated under various environmental stimuli, can act as a signalling molecule that regulates a number of developmental processes and stress responses. To investigate whether H(2)O(2) is involved in high-fluence BL-induced chloroplast avoidance movements, a laser scanning confocal microscope and a luminescence spectrometer were used to observe H(2)O(2) generation in situ with the assistance of the fluorescence probe dichlorofluorescein diacetate (H(2)DCF-DA). After treatment with high-fluence BL, an enhanced accumulation of H(2)O(2), indicated by the fluorescence intensity of DCF, can be observed in leaf cells of Arabidopsis thaliana. Exogenously applied H(2)O(2) promotes the high-fluence BL-induced chloroplast movements in a concentration-dependent manner within the range of 0-10(-4) M, not only increasing the degree of movements but also accelerating the start of migrations. Moreover, the high-fluence BL-induced H(2)O(2) generation and the subsequent chloroplast movements can be largely abolished by the administration of the H(2)O(2)-specific scavenger catalase and other antioxidants. In addition, in-depth subcellular experiments indicated that high-fluence BL-induced H(2)O(2) generation can be partly abolished by the addition of diphenyleneiodonium (DPI), which is an NADPH oxidase inhibitor, and the blocker of electron transport chain dichlorophenyl dimethylurea (DCMU), respectively. The results presented here suggest that high-fluence BL can induce H(2)O(2) generation at both the plasma membrane and the chloroplast, and that the production of H(2)O(2) is involved in high-fluence BL-induced chloroplast avoidance movements.     

Vitamin D sensitizes breast cancer cells to the action of H2O2: mitochondria as a convergence point in the death pathway

Calcitriol, the hormonal form of vitamin D3, sensitizes breast cancer cells to reactive oxygen species (ROS)-dependent cytotoxicity induced by various anticancer modalities. This effect could be due to increased generation of ROS and/ or to increased sensitivity of the target cells to ROS. This work examined the effect of calcitriol on the damage inflicted on breast cancer cells by the direct action of ROS represented by H2O2. Treatment of MCF-7 cells with H2O2 resulted in activation of caspase 7 as well as induction of caspase-independent cell death. Both were enhanced by 48-72 h of pretreatment with calcitriol. This effect was not due to modulation of H2O2 degradation or to a specific effect on *OH-mediated cytotoxicity. The H2O2-induced drop in mitochondrial membrane potential and release of cytochrome c were enhanced by calcitriol. These findings indicate that calcitriol sensitizes breast cancer cells to ROS-induced death by affecting event(s) common to both caspase-dependent and -independent modes of cell death upstream to mitochondrial damage.     

Selective roles for alpha-PKC in positive signaling for O-(2) generation and calcium mobilization but not elastase release in differentiated HL60 cells

Protein kinase C (PKC) isotypes and Ca2+ mobilization have been implicated in phagocytic cell functions such as O(-)(2) generation. Ca/DG-dependent alpha-PKC and beta-PKC have similar substrate specificities and cofactor requirements in vitro. However it is not known if these isotypes play redundant or unique roles in the intact cell. In the present study, a role for alpha-PKC in positive signaling for fMet-Leu-Phe- and PMA-activated O(-)(2) generation was probed using an siRNA strategy in HL60 cells differentiated to a neutrophilic phenotype (dHL60 cells). A selective decrease in alpha-PKC in dHL60 cells attenuated O(-)(2) generation but not degranulation, and reduced ligand-induced phosphorylation of p47phox as previously shown for beta-PKC. However alpha-PKC, unlike beta-PKC, was a positive regulator of fMet-Leu-Phe-triggered Ca2+ uptake via SOCC (Store Operated Calcium Channels). The ability of a selective SOCC inhibitor, MRS1845, to decrease fMet-Leu-Phe induced Ca2+ uptake and O(-)(2) generation confirmed that Ca2+ uptake via SOCC was required for O(-)(2) generation. These results indicate that alpha-PKC and beta-PKC are required for optimal O(-)(2) generation, but play different roles in Ca2+ signaling for phagocytic responses such as O(-)(2) generation.     

Generation of reactive oxygen species undergoing redox cycle of nostocine A: a cytotoxic violet pigment produced by freshwater cyanobacterium Nostoc spongiaeforme

Nostocine A (1) is an extracellular cytotoxic violet pigment produced by the freshwater cyanobacterium, Nostoc spongiaeforme TISTR 8169. Treatment with 1 was found to accelerate the generation of reactive oxygen species (ROS) in the green alga, Chlamydomonas reinhardtii, in the light. In vitro analysis revealed that 1 specifically eliminated superoxide radical anion (O(2)(-)) among several ROS tested. During the course of the reaction, oxygen (O(2)) was simultaneously synthesized and the O(2) synthesizing rate increased with the amount of 1 added. In contrast, O(2)(-) generation occurred when NADPH or NADH was added to a solution of 1 under aerobic condition. The reduction potential of 1 is very similar to that of O(2) indicating that 1 and O(2) can easily exchange electrons depending on the mass balance between their oxidized and reduced forms. Based on these results, the following hypothesis is formulated for the mechanism of intracellular ROS generation by treatment with 1: 1 taken into the target cells is reduced specifically by intracellular reductants such as NAD(P)H. When the O(2) level is sufficiently higher than that of 1, the reduced product of 1 is immediately oxidized by O(2). This is accompanied by the synthesis of O(2)(-) from O(2). The generation of O(2)(-) successively occurs, undergoing repeated redox cycles of 1, when the levels of the reductant and O(2) are still dominant to promote these reactions. This similar intracellular ROS generation mechanism to that of paraquat may cause the cytotoxicity.     

Comparison of 1-oleoyl-2-acetyl-glycerol and phorbol myristate acetate as secretagogues for human neutrophils

Cellular responses induced in human neutrophils by the synthetic diacylglycerol, 1-oleoyl-2-acetyl-glycerol (OAG), paralleled those induced by phorbol myristate acetate (PMA). Like PMA, OAG caused the preferential release of enzymes from specific granules and promoted superoxide (O2-) generation. The efficacy of OAG was similar to that for PMA, but its potency was lower by four orders of magnitude. First derivative kinetic analysis showed that rates of O2- generation elicited by PMA decayed exponentially in a first order manner; the half life was found to be 21 +/- 6 min. Results obtained in studies carried out with high OAG concentrations were similar except that after 40 min, the rate of decay increased and became complex order. This difference was attributed to the greater susceptibility of OAG to metabolic alteration, and was reflected in the NADPH oxidase activity of granule rich membrane fractions (GRF) of cells stimulated for 90 min with PMA or OAG. It was found that the O2- generating activity of the PMA treated GRF was significantly greater than that for the OAG treated fraction. Current evidence indicates that cellular responses arise from direct activation of protein kinase C by PMA-OAG. The stability of this complex and the bypassing of normal regulatory constraints may account for the relative longevity of the PMA-OAG O2- respiratory burst.     

Extracellular pH affects inflammatory cell production of superoxide and nitric oxide

Previous research has described how high cellular metabolism creates an acidic environment in inflammatory cells during respiratory burst. The aim of our work was to describe the acid-base dependence of exudate in superoxide (O2.-) and nitric oxide (NO.) generation by inflammatory cells from a carrageenan-granuloma. Although the carrageenan solution was alkaline (pH 7.74 when equilibrated with air) the exudate showed an acidification that stabilised at around 7 units of pH. A notable hypercapnia, but not hypoxia, was found in the exudate at up to 24 h. The effect of extracellular acidosis on O2.- and NO. production by inflammatory cells was also studied. The maximum O2.- production and the lowest levels of NO. were found at pH 7, which was closer to the pH of the granuloma-pouch. These results suggest that experiments with inflammatory cells ex vivo should be carried out at an identical pH to that found in vivo in order to reproduce the physiological mechanisms of free radical generation during inflammatory processes.     

Isolation and characterization of plasma membranes from Friend erythroleukaemic cells. A study with sphingomyelinase C

Plasma membranes have been prepared from Friend erythroleukaemic cells using a Dounce homogenization technique followed by differential and sucrose gradient centrifugations. (I) A plasma membrane fraction was obtained which showed a 20- to 30-fold enrichment in 5'-nucleotidase, alkaline phosphodiesterase I, alkaline phosphatase and in 32P-labeled (poly)phosphoinositides. About 1% of the total protein, 6-7% of phospholipid, 8-9% of cholesterol and 12-15% of each of the above markers were recovered in the plasma membrane fraction with an average yield of 15-20%. The plasma membrane was characterized by a high cholesterol to phospholipid molar ratio (0.626), a 2-fold enrichment in sphingomyelin and in phosphatidylserine as compared to the whole cell and by the complete absence of diphosphatidylglycerol. (2) When compared to the phospholipid composition of the mature mouse erythrocyte membrane, the plasma membrane of the Friend cell only differs by a higher phosphatidylcholine and a lower phosphatidylethanolamine content, whereas the levels of sphingomyelin and phosphatidylinositol plus phosphatidylserine are similar. (3) Friend cells were treated with sphingomyelinase C (S. aureus) under non-lytic conditions and subsequently submitted to subcellular fractionation. The results showed that the plasma membrane accounted for 38.5% of the total phospholipid, 64.1% of the total cholesterol and about 4.4% of the total protein content of Friend cells. (4) Sphingomyelin appeared to be asymmetrically distributed in the plasma membrane of Friend cells, with about 85% of this phospholipid being present in the outer monolayer.