Roles of superoxide and myeloperoxidase in ascorbate oxidation in stimulated neutrophils and H2O2-treated HL60 cells

Ascorbate is present at high concentrations in neutrophils and becomes oxidized when the cells are stimulated. We have investigated the mechanism of oxidation by studying cultured HL60 cells and isolated neutrophils. Addition of H₂O₂ to ascorbate-loaded HL60 cells resulted in substantial oxidation of intracellular ascorbate. Oxidation was myeloperoxidase-dependent, but not attributable to hypochlorous acid, and can be explained by myeloperoxidase (MPO) exhibiting direct ascorbate peroxidase activity. When neutrophils were stimulated with phorbol myristate acetate, about 40% of their intracellular ascorbate was oxidized over 20 min. Ascorbate loss required NADPH oxidase activity but in contrast to the HL60 cells did not involve myeloperoxidase. It did not occur when exogenous H₂O₂ was added, was not inhibited by myeloperoxidase inhibitors, and was the same for normal and myeloperoxidase-deficient cells. Neutrophil ascorbate loss was enhanced when endogenous superoxide dismutase was inhibited by cyanide or diethyldithiocarbamate and appears to be due to oxidation by superoxide. We propose that in HL60 cells, MPO-dependent ascorbate oxidation occurs because cellular ascorbate can access newly synthesized MPO before it becomes packaged in granules: a mechanism not possible in neutrophils. In neutrophils, we estimate that ascorbate is capable of competing with superoxide dismutase for a small fraction of the superoxide they generate and propose that the superoxide responsible is likely to come from previously identified sites of intracellular NADPH oxidase activity. We speculate that ascorbate might protect the neutrophil against intracellular effects of superoxide generated at these sites.     

Collagenase is a component of the specific granules of human neutrophil leucocytes.

Azurophil and specific granules were isolated from human polymorphonuclear neutrophil leucocytes. Collagenase was almost exclusively a component of the specific granules. This finding is in contrast with the distribution of other proteolytic enzymes, which are localized in the azurophil (or lysosomal) granules.     

Evidence for polymorphonuclear-leucocyte-derived proteinases in arthritic cartilage.

1. An enzyme that degrades proteoglycan at neutral pH was extracted with 4 M-guanidine hydrochloride from the articular cartilage of rabbits with antigen-induced arthritis. 2. The enzyme had an apparent molecular weight on Ultrogel AcA 54 of about 8000 and was optimally active at pH 7.5 in Tris/HCl buffer containing 0.2 M-NaCl. The partially purified preparation was totally inhibited by 0.01 mM-N-acetyldialanylprolylvalylchloromethane, severely inhibited by 2 mM-phenylmethanesulphonyl fluoride and soya-bean trypsin inhibitor (200 microgram/ml) and slightly inhibited by 10 mM-EDTA. Marked inhibition was also obtained with a cytosolic fraction prepared from rabbit polymorphonuclear leucocytes. 3. All properties of the enzyme were virtually identical with those of an 'elastase-like' proteinase that was isolated from rabbit polymorphonuclear-leucocyte granules. 4. The results are consistent with the idea that cartilage proteoglycan degradation in acute joint inflammation is due at least partly to the diffusion into the cartilage of proteinases derived from synovial-fluid polymorphonuclear leucocytes.     

Leukotriene production and inactivation by normal, chronic granulomatous disease and myeloperoxidase-deficient neutrophils

Appropriately stimulated neutrophils release peroxidase and undergo a respiratory burst to form hydrogen peroxide (H2O2) and hydroxyl radicals (OH). We report here that both the myeloperoxidase-H2O2-halide system and OH released in this way can degrade the leukotrienes (LT) formed by neutrophils. More LTB4 and LTC4 were recovered from the supernatants of chronic granulomatous disease neutrophils (which are unable to respond to stimulation with a respiratory burst) than from normal or myeloperoxidase-deficient neutrophils when stimulated with the calcium ionophore A23187. When radiolabeled LTC4 was added, 72% of the LTC4 was recovered from the chronic granulomatous disease cells in contrast to 0% from the myeloperoxidase-deficient and normal cells. Inhibitor studies using catalase, superoxide dismutase, azide, mannitol, or ethanol suggested that LTC4 degradation was mediated primarily by the myeloperoxidase system in normal cells and by OH in myeloperoxidase-deficient cells. LTC4 degradation by the cell-free myeloperoxidase-H2O2-halide system and the OH -generating acetaldehyde-xanthine oxidase-Fe2+ system had inhibitor profiles comparable to normal and myeloperoxidase-deficient neutrophils, respectively. LTC4 degradation products formed by the stimulated neutrophils and model systems included the 5-(S), 12-(R)- and 5-(S), 12-(S)-6-trans-isomers of LTB4. Thus phagocytes may modulate LT activity in inflammatory sites by the inactivation of these potent biologic mediators by at least two oxidative mechanisms.     

The modification of the cytotoxic effect of leucocidin by N-ethylmaleimide, flavine mononucleotide and menadione

1. The movement of the cytoplasmic granules in the leucocidin-treated leucocyte is prevented in the presence of N-ethylmaleimide or menadione. This effect follows a change of state in the cytoplasm. It may not be due to reaction with SH groups. When granule movement is prevented in this way the subsequent addition of Ca(2+) and ATP does not induce the secretion of the proteins of the granules. 2. Menadione or iodoacetate stimulates some effects of suboptimum amounts of leucocidin. This effect probably follows a reaction with SH groups. 3. Flavine mononucleotide inhibits some effects of suboptimum amounts of leucocidin. 4. Leucocidin decreases the stimulation of glucose oxidation due to menadione but increases that due to flavine mononucleotide. Leucocidin decreases the adsorption of menadione by leucocytes but increases that of flavine mononucleotide. 5. The redox state of the nicotinamide-adenine nucleotide coenzymes is not altered during leucocidin action and flavine mononucleotide and menadione do not undergo significant continuous oxidation and reduction when added to the leucocyte.     

Cytochemical and electron microscopic research on the peripheral blood leukocytes and skin fibroblasts in mucopolysaccharidoses

Cytochemical studies of the peripheral blood leucocytes in patients suffering from mucopolysaccharidoses (MPS) have revealed metachromatic granules in the cell cytoplasm. Electron microscopy of these cells has shown multiple cytoplasmic vacuoles. It is supposed that metachromatic granules in blood leucocytes of patients with MPS observed in the photo-optical studies correspond to the vacuoles found under electron microscope. The obtained data have shown that peripheral blood leucocytes and skin fibroblasts have the common ultrastructure in MPS patients. The data of electron histochemical studies testify to that the vacuoles of skin fibroblasts are filled with glycosaminoglycans.     

Collagenolytic cathepsin activity in rabbit peritoneal polymorphonuclear leucocyte granules.

Collagenolytic cathepsin activity was detected in lysed rabbit peritoneal polymorphonuclear leucocytes. The pH optimum was around 3, and activity was greatly enhanced by the presence of cysteine and EDTA. Digestion of polymeric collagen resulted in the release of alpha, beta, and gamma-chains. Collagenolytic cathepsin activity was associated mainly with the granule fraction isolated from homogenates by differential centrifugation. The granule fraction was further fractionated by isopycnic density-gradient centrifugation, and the collagenolytic cathepsin activity was shown to be associated with the azurophil and tertiary granules, both lysosome-like organelles.     

Interferon production by human leukaemic leucocytes.

The Sendai virus-induced interferon (IF) production by partially purified human leucocyte suspensions of normal donors and of leukaemic patients have been investigated in vitro. (i) An increased production was observed with leucocytes taken from patients suffering from chronic myelogenous leukaemia (CML) during exacerbation, but the production was approximately normal with cells taken during remission. (ii) IF production was not influenced by large doses of cytostatics (DBM, 5-FU, FUDR, 5-HU, 6-MP, cyclophosphamide) irrespective of whether normal or CML leucocytes were used. (iii) In contrast, production was inhibited in both systems by inhibitors of RNA or protein synthesis (actinomycin D, puromycin, cycloheximide). (iv) CML leucocytes produced IF for a prolonged period of time as compared to normal leucocytes. (v) Leucocytes from children with acute blastic leukaemia and those from adults with chronic lymphoid or acute paramyeloblastic leukaemia produce, in contrast to normal leukocytes, approximately as much IF in the absence as in the presence of serum. It is concluded that the Sendai virus-induced IF synthesis in CML leucocytes requires de novo protein synthesis.     

Subcellular distribution of glycosidases in human polymorphonuclear leucocytes.

The subcellular distribution of nine glycosidases were studied in fractions of homogenized human polymorphonuclear leucocytes (neutrophils) obtained by isopycnic centrifugation through linear sucrose density gradients. The substrates were 4-methylumbelliferyl glycosides. All nine glycosides were hydrolysed by enzymes in neutrophil cytosol fractions, and by enzymes in at least one granule population. alpha-Glucosidase activity sedimented in sucrose density gradients to a point (p = 1.180 g/ml) just above the specific granules, possibly the 'tertiary' granule population. The peak corresponding to alpha-glucosidase did not co-sediment with, but considerably overlapped, the peak corresponding to lactoferrin, a marker for specific granules (p = 1.187 g/ml). alpha-Galactosidase activity was found primarily in heavy azurophil granules (p = 1.222 g/ml). alpha-Mannosidase activity was found primarily in light azurophil granules (p = 1.206 g/ml), following the distribution of myeloperoxidase, the commonly used azurophil granule marker. beta-Glucosidase activity was concentrated in mitochondrial fractions (p = 1.160 g/ml). All other glycosidases presented complex distributions, with activities not restricted to one granule class. Granule-associated glycosidase activities were increased 2--38 times when measured in the presence of 0.05% Triton X-100, indicating latency of the enzymes within granules.     

Studies of the responses of basophil and eosinophil leucocytes and mast cells to the nematode Trichostrongylus colubriformis. Ultrastructural changes in basophils and eosinophils at the site of infection.

Basophil and eosinophil leucocytes infiltrate the small intestinal lamina propria of guinea-pigs infected with the nematode Trichostrongylus colubriformis. By comparing the morphology of both cell types at the site of infection with bone marrow and buffy coat cells, it was found that, after entering the lamina propria, basophils developed an electron lucent halo beneath the granule-limiting membrane while the characteristic orderly periodicity of the granules changed to a fibrillar or amorphous appearance. The granules also tended to coalesce but remained within the cell. Approximately half the eosinophils at the site of infection developed deficiencies in the amorphous outer matrix of their granules but showed no obvious change in the central electron-dense cores.     

Fine structure of the bone marrow of the chicken and pigeon

The structure of bone marrow from chickens and pigeons was studied with light and electron microscopy. Erythropoiesis occurs in the lumen of the medullary sinuses. Immature erythroid cells appear to adhere to the sinus wall and may thus be prevented from entering the peripheral circulation. The wall of the medullary sinuses is formed by elongated lining cells, lacking a basement membrane, which are continous except at sites where blood cells are passing through them. When viewed with the electron microscope, developing heterophil myelocytes, which occur only in the extravascular spaces, possess two populations of granules; one type is globular in content, the other is fibrillar in content. The globular type predominates during all stages of development and appears to be the specific granule. Specific granules originate from material which is formed in the Golgi complex, pinches off, and accumulates in expanded vesicles. The origin of the material in the fibrillar granules was not determined. Like the globular granules of heterophil leucocytes, granules of eosinophil leucocytes arise from material which is formed in the Golgi complex.     

Structural Changes in Starch Molecules during the Malting of Barley

Barley was made into a normal and an over-modified malt, and the loss in starch was 14.6% and 67.7%, respectively. Starch granules, isolated from the barley and malts, were observed by scanning electron and light microscopes. In normal malt, 14% of the large granules were eroded and the small granules remained almost intact. In the case of over-modified malt, 38% of the large granules were eroded, and a marked reduction was found in the population of the small granules. Iodine affinities and blue values of the starches increased as malting proceeded. The malting of barley resulted in an apparent increase in the amylose component of the starch but hardly affected its molecular size distribution when examined by Bio-Gel A-50m column chromatography. The fine structures of the barley and malt amylopectins were compared by Shephadex G-50 and Bio-Gel P-2 column chromatographies after debranching with pullulanase. No change was observed during malting in spite of a significant reduction in the amylopectin component of the starch.     

Naphthol-AS-D-chloroacetate esterase activity in globule leucocytes in the tracheal epithelium of rats

The enzyme naphthol-AS-D-chloroacetate esterase is histochemically demonstrated in the granules of globule leucocytes in the tracheal epithelium of rats. The enzyme reactivity may be used as a cytochemical marker of these cells. The previously postulated mast cell origin of globule leucocytes is doubted, and the possibility that globule leucocytes belong to the group of natural killer cells is discussed. The biological role of the located esterase and the function of the globule leucocytes are also briefly discussed.     

Oxidative injury to isolated rat pancreatic acinar cells vs. isolated zymogen granules

This study compares the susceptibility of pancreatic acinar cells and zymogen granules against oxidative injury and analyzes the mechanisms involved. Zymogen granules and acinar cells, isolated from rat pancreas, were exposed to a reaction mixture containing xanthine oxidase, hypoxanthine, and chelated iron. Cell function and viability were assessed by various techniques. Trypsin activation was quantified by an Elisa for trypsinogen activating peptide. Integrity of granules was determined by release of amylase. The reaction mixture rapidly generated radicals as assessed by deoxyribose and luminol assays. This oxidative stress caused lysis of granules in a matter of minutes but significant cell death only after some hours. Nevertheless, radicals initiated intracellular vacuolization, morphological damage to zymogen granules and mitochondria, increase in trypsinogen activating peptide, and decrease in ATP already after 5–30 min. Supramaximal caerulein concentrations also caused rapid trypsin activation. Addition of cells but not of granules reduced deoxyribose oxidation, suggesting that intact cells act as scavengers. Caerulein pretreatment only slightly increased the susceptibility of cells but markedly that of granules. In conclusion, isolated zymogen granules are markedly more susceptible to oxidative injury than intact acinar cells, in particular, in early stages of caerulein pancreatitis. The results show that oxidative stress causes a rapid trypsin activation that may contribute to cell damage by triggering autodigestion. Zymogen granules and mitochondria appear to be important targets of oxidative damage inside acinar cells. The series of intracellular events initiated by oxidative stress was similar to changes seen in early stages of pancreatitis.     

Accessibility of phospholipids in the chromaffin granule membrane.

1. The accessibility of phospholipids in the membrane of the adrenomedullary storage vesicles (chromaffin granules) has been studied. 2. The reaction of 2,4,6-trinitrobenzenesulphonic acid with both intact granules and their ghosts, results in the labelling of 70% of the phosphatidylethanolamine. 3. The action of phospholipase A2 (from bee venom), phospholipase C (from Bacillus cereus) and sphingomyelinase C (from Staphylococcus aureus) on granules and their ghosts was followed as a function of time. No significant difference was observed between the intact granules and their ghosts. 4. In the intact granules the various treatments led to varying amounts of lysis although again no evidence was obtained that such lysis in any way increased the amount of accessible phospholipid. 5. Highly purified granule preparations were also compared with the so-called "large granule" fraction and no significant differences were detected. 6. Approx. 67% of phosphatidylethanolamine + phosphatidic acid, 50% of phosphatidylserine + phosphatidylinositol, 65% of phosphatidylcholine and 20% of sphingomyelin is accessible to enzymatic degradation. In total, approx. 50% of all the phospholipids reacted. 7. It is also shown that, unlike in enzymatic treatment, all the phosphatidylcholine can be exchanged in the presence of a phospholipid exchange protein (prepared from beef liver). 8. It is concluded that transmembrane movement of phosphatidylcholine is slow in isolated membranes of chromaffin granules. The presence of the exchange protein, however, in conjunction with membrane proteins and specific phospholipid arrangements may catalyse this transmembrane movement.     

Role of the Phagocyte in Host-Parasite Interactions VIII. Effect of Whole-Body X Irradiation on Nicotinamides, Lysosomal Enzymes, and Bactericidal Activities of Leukocytes During Phagocytosis

By studying the effects of whole-body X irradiation on phagocytosis, a correlation between the metabolic and bactericidal activities of leukocytes following X irradiation was demonstrated. The total nicotinamide adenine dinucleotide (NAD) and nicotinamide adenine dinucleotide phosphate (NADP) content of polymorphonuclear neutrolphils (PMN) isolated from irradiated guinea pigs increased significantly when compared to nonirradiated controls. The ratio of unreduced to reduced (NAD) generally increased in PMN isolated from irradiated animals. This occurred with both resting and phagocytizing cells. The ratio of unreduced to reduced NADP of resting PMN isolated from irradiated animals had a tendency to increase. However, in phagocytizing cells a significant decrease in the ratio was noted. The total acid and alkaline phosphatase and beta-glucuronidase increased up to about 10 days postirradiation. These lysosomal enzymes returned to approximately normal by the 17th day postirradiation. All three lysosomal enzymes (acid and alkaline phosphatases and beta-glucuronidase) were released from the granules at a significantly faster rate during phagocytosis after irradiation. The bactericidal activities of PMN isolated from irradiated animals gradually decreased, and in some cases increased growth of the organisms was observed. The uptake or association of bacteria with PMN isolated from irradiated animals varied with the postirradiation time. Generally, a correlation with bactericidal activities could be made. The data indicate that the bactericidal system in phagocytes consists of at least two agents, H(2)O(2) and myeloperoxidase.     

Glycoprotein synthesis in the adult rat pancreas. IV. Subcellular distribution of membrane glycoproteins

Zymogen granule membranes from the rat exocrine pancreas displays distinctive, simple protein and glycoprotein compositions when compared to other intracellular membranes. The carbohydrate content of zymogen granule membrane protein was 5-10-fold greater than that of membrane fractions isolated from smooth and rough microsomes, mitochondria and a preparation containing plasma membranes, and 50-100-fold greater than the zymogen granule content and the postmicrosomal supernate. The granule membrane glycoprotein contained primarily sialic acid, fucose, mannose, galactose and N-acetylglucosamine. The levels of galactose, fucose and sialic acid increased in membranes in the following order: rough microsomes less than smooth microsomes less than zymogen granules. Membrane polypeptides were analyzed by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. The profile of zymogen granule membrane polypeptides was characterized by GP-2, a species with an apparent molecular weight of 74 000. Radioactivity profiles of membranes labeled with [3H]glucosamine or [3H]leucine, as well as periodic acid-Schiff stain profiles, indicated that GP-2 accounted for approx. 40% of the firmly bound granule membrane protein. Low levels of a species similar to GP-2 were detected in membranes of smooth microsomes and the preparation enriched in plasma membranes but not in other subcellular fractions. These results suggest that GP-2 is a biochemical marker for zymogen granules. Membrane glycoproteins of intact zymogen granules were resistant to neuraminidase treatment, while those in isolated granule membranes were readily degraded by neuraminidase. GP-2 of intact granules was not labeled by exposure to galactose oxidase followed by reduction with NaB3H4. In contrast, GP-2 in purified granule membranes was readily labeled by this procedure. Therefore GP-2 appears to be located on the zymogen granule interior.     

Light and electron microscopy of the leucocytes of Crassostrea virginica (Mollusca: Pelecypoda)

Summary The fine structure of oyster leucocytes resembles to a great extent, that of typical eucaryotic cells. Organelles which have been described for the first time in this report are light granules, dense granules, protocentriole and X structure. Light microscopy reveals two morphological types of oyster leucocytes: agranular and granular. Based upon nuclear morphology and cytoplasmic compositions revealed in electron microscopy, at least three types of agranular and one type of granular cells are recognized.In the Giemsa-stained preparations, granular leucocytes exhibit three distinct types of cytoplasmic granules: refractile, dark blue, and pink, which presumably correspond to light granules Type A, B, and C seen in the electron micrographs. A granular leucocyte may contain one or more types of granules. Cytochemical investigations show that oyster leucocytes contain at least three hydrolytic enzymes: non-specific esterases, acid, and alkaline phosphatase. The latter two enzymes constitute 63% of the enzyme activity detected. These intracellular enzymes may be associated with the light granules and/or lysosome-like bodies.It is also demonstrated that the granular leucocyte population is significantly higher (P<0.001) in the oysters experimentally infected with Bacillus mycoides (72.19±4.71%) as contrasted with that of the controls (37.18±4.48%).Leucocytes in progressive stages of degeneration are also described.Contribution No. 71 from Marine Research Laboratory, University of Connecticut.The initial phase of this investigation was carried out at the Department of Zoology, Rutgers, The State University, New Brunswick, New Jersey, and supported by Public Health Service Research Grant AI-00781 from the National Institute of Allergy and Infectious Diseases of the National Institute of Health, awarded to Dr. L. A. Stauber. Supported by a grant from the University of Connecticut Research Foundation and Faculty Summer Fellowship to S. Y. Feng.     

Cellular origin and induction of pregnancy-associated alpha 2-glycoprotein synthesis in pregnant rats

The synthesis of alpha 2-PAG was measured and compared in tissues and cells from normal non-pregnant females, and maternal and fetal rats in vitro to define the target cells hormonally regulated during pregnancy. Synthesis was measured by [L-14C]leucine incorporation into immunochemically isolated alpha 2-PAG and confirmed by radioimmunodiffusion. alpha 2-PAG synthesis was demonstrated in maternal peripheral blood leucocytes, placenta, breast, spleen, liver and fetal peripheral blood leucocytes and liver. Maternal and fetal liver were the most active tissue producers and fetal liver synthesized 4 times more alpha 2-PAG than did maternal liver. Furthermore, fetal peripheral blood leucocytes synthesized 2 times more alpha 2-PAG per cell than did these same maternal cells. A direct comparison of synthesis by cells from pregnant and non-pregnant female rats revealed that (1) maternal peripheral blood leucocytes synthesized 5 times more alpha 2-PAG per cell than did normal leucocytes, although these same cells synthesized approximately equal amounts of total cell protein per cell, (2) maternal peritoneal exudate macrophages also synthesized 5 times more alpha 2-PAG per cell than did macrophages obtained from normal female rats, and total protein synthesis by these cells also closely paralleled each other, (3) maternal and fetal plastic-adherent peripheral blood monocytes synthesized 22 and 58 times more alpha 2-PAG per cell respectively than did normal monocytes, (4) maternal and fetal non-adherent lymphocytes synthesized 8 and 16 times more alpha 2-PAG per cell respectively than did normal lymphocytes and (5) fetal monocytes and lymphocytes synthesized 3 and 2 times more alpha 2-PAG per cell than did maternal monocytes and lymphocytes.(ABSTRACT TRUNCATED AT 250 WORDS)