Mechanism of lysosomal enzyme release from Mercenaria mercenaria granulocytes: a scanning electron microscope study

A scanning electron microscope study of Mercenaria mercenaria granulocytes at 1 and 2 hr postchallenge with a 0.02-ml Millipore-filtered, sterile sea water suspension of heat-killed Bacillus megaterium at a concentration of 4 × 10⁶ bacteria/ml revealed that (1) granulocytes challenged with bacteria revealed more and larger lysosomes protruding from their surfaces than those of the control groups; (2) release of intact lysosomes from granulocytes into serum occurred concurrently with phagocytosis; (3) enzymes released from discharged lysosomes acted on bacterial cell walls causing their partial degradation, thereby enhancing endocytosis; and (4) degranulation is a normal process but is greatly enhanced when stimulated by phagocytosis of bacteria. This study also demonstrated that lysosomes budded off from the plasma membrane of granulocytes into serum, although the actual biochemical mechanism(s) that causes the detachment of lysosomes from the plasma membrane and the subsequent lysis of the double-membraned lysosomes to release the hydrolases remains unresolved.     

Phagocytosis, Oxidative Burst, and Produced Reactive Species are Affected by Iron Deficiency Anemia and Anemia of Chronic Diseases in Elderly

Iron and oxidative stress have a regulatory interplay. During the oxidative burst, phagocytic cells produce free radicals such as hypochlorous acid (HOCl). Nevertheless, scarce studies evaluated the effect of either iron deficiency anemia (IDA) or anemia of chronic disease (ACD) on phagocyte function in the elderly. The aim of the present study was to determine the oxidative burst, phagocytosis, and nitric oxide (^?NO) and HOCl, reactive species produced by monocytes and neutrophils in elderly with ACD or IDA. Soluble transferrin receptor, serum ferritin, and soluble transferrin receptor/log ferritin (TfR-F) index determined the iron status. The study was constituted of 39 patients aged over 60 (28 women and 11 men) recruited from the Brazilian Public Health System. Oxidative burst fluorescence intensity per neutrophil in IDA group and HOCl generation in both ACD and IDA groups were found to be lower (p?<?0.05). The percentages of neutrophils and monocytes expressing phagocytosis in ACD group were found to be higher (p?<?0.05). There was an overproduction of ^?NO from monocytes, whereas the fundamental generation of HOCl appeared to be lower. Phagocytosis, oxidative burst, and ^?NO and HOCl production are involved in iron metabolism regulation in elderly patients with ACD and IDA.     

Liquid and cryopreservation effects on in vitro function of dog granulocyte concentrates prepared for transfusion

The effects of liquid and Cryopreservation on in vitro function of dog granulocyte concentrates prepared by continuous flow centrifugation leukapheresis and counterflow centrifugation elutriation are presented. These homogeneous granulocyte concentrates (97 ± 2% granulocytes, 99.4 ± 0.3% viable) were cryopreserved in 5% DMSO and 5% HES dissolved in 2 g% BSA, 20% autologous citrated plasma in a modified a minimal essential medium. The granulocyte recovery was 87.6 ± 2.4% relative to the number of intact and viable granulocytes in the washed suspension of cells. In vitro functions of chemotaxis, phagocytosis, bactericidal activity, and selected enzymes were not affected by 12–24 hr storage at 4–6 °C. Frozen, thawed, and washed granulocytes showed a significant decrease (P < 0.01) in chemotactic recognition and response but not chemokinetic response, although it was depressed. Phagocytosis of latex beads and associated burst of O₂ consumption also decreased significantly (P < 0.05) to approximately 50% of the original prefreezing value. However, the killing of live Escherichia coli was not depressed to the extent expected and suggested by loss of O₂ consumption and selected enzyme activity. The cryopreservation of viable homogeneous granulocyte concentrates in sufficient quantity for transfusion in the neutropenic and/or septicemic dog model is demonstrated in these results.     

Accidental cell death and generation of reactive oxygen intermediates in human lymphocytes induced by thionins from Viscum album L.

The cytotoxic mechanisms of thionins from Viscum album L., the viscotoxins, were investigated in human granulocytes and lymphocytes. The time course of viscotoxin effects indicate accidental cell death, i.e. membrane permeabilization, degradation of cytoplasm and chromatin, swelling of mitochondria with loss of their cristae, and generation of reactive oxygen intermediates within 1-2 h, followed by secondary apoptosis-associated events. The viscotoxin homologue purothionin from whole-wheat flour and viscotoxin B, however, did not induce cell death in cultured lymphocytes. Cytotoxicity of cationic and amphipathic viscotoxin was prevented only by cleavage of its disulphide bridges.     

Methods for assaying viability of frozen-thawed granulocytes.

Phagocytosis and microbial killing by granulocytes is a complicated process which is not yet completely understood. Innumerable in vitro and in vivo tests have been outlined for the several stages of granulocyte activity leading to microbial killing. No single simple test is sufficient to determine the nature of the lesion observed in abnormal frozen and thawed granulocytes, Several procedures are required to define such lesions before attempts can be made to inhibit or reverse this damage. The tests most commonly in use measure production, mobilization, chemotaxis, opsonization, phagocytosis, degranulation, peroxidation, and microbial killing. A test of microbial killing, either in vitro or in vivo, should always be used as the definitive assay.     

Liquid preservation of highly purified human granulocytes

Highly purified human granulocytes isolated from continuous flow centrifugation leukapheresis concentrates by counterflow centrifugation-elutriation were stored at 4 °C in concentrations of 6 × 10⁶ to 1 × 10⁷ granulocytes per milliliter for up to 14 days. The in vitro physiological function assays of phagocytosis, oxygen consumption associated with phagocytosis, bacterial growth inhibition, chemotaxis, and five enzyme analyses indicated good storage survival for up to 4 days. Stored granulocytes separated from other blood cells have greater storage stability than granulocytes stored as leukapheresis concentrates. After 14 days of storage a small percentage of granulocytes still maintained all physiological functions, with the exception of chemotaxis. Of the five enzymes assayed, only the enzyme activity of leucine aminopeptidase decreased significantly by the 14th day of storage. The storage stability of each physiological function assayed decreased as follows: bacterial growth inhibition (most stable), phagocytosis, oxygen consumption, and chemotaxis (least stable).     

The Calmodulin-like Calcium Binding Protein EhCaBP3 of Entamoeba histolytica Regulates Phagocytosis and Is Involved in Actin Dynamics

Phagocytosis is required for proliferation and pathogenesis of Entamoeba histolytica and erythrophagocytosis is considered to be a marker of invasive amoebiasis. Ca²⁺ has been found to play a central role in the process of phagocytosis. However, the molecular mechanisms and the signalling mediated by Ca²⁺ still remain largely unknown. Here we show that Calmodulin-like calcium binding protein EhCaBP3 of E. histolytica is directly involved in disease pathomechanism by its capacity to participate in cytoskeleton dynamics and scission machinery during erythrophagocytosis. Using imaging techniques EhCaBP3 was found in phagocytic cups and newly formed phagosomes along with actin and myosin IB. In vitro studies confirmed that EhCaBP3 directly binds actin, and affected both its polymerization and bundling activity. Moreover, it also binds myosin 1B in the presence of Ca²⁺. In cells where EhCaBP3 expression was down regulated by antisense RNA, the level of RBC uptake was reduced, myosin IB was found to be absent at the site of pseudopod cup closure and the time taken for phagocytosis increased, suggesting that EhCaBP3 along with myosin 1B mediate the closure of phagocytic cups. Experiments with EhCaBP3 mutant defective in Ca²⁺ -binding showed that Ca²⁺ binding is required for phagosome formation. Liposome binding assay revealed that EhCaBP3 recruitment and enrichment to membrane is independent of any cellular protein as it binds directly to phosphatidylserine. Taken together, our results suggest a novel pathway mediating phagocytosis in E. histolytica, and an unusual mechanism of modulation of cytoskeleton dynamics by two calcium binding proteins, EhCaBP1 and EhCaBP3 with mostly non-overlapping functions.     

Flow cytometric analysis of haemocytes from eastern oysters, Crassostrea virginica, subjected to a sudden temperature elevation: II. Haemocyte functions: aggregation, viability, phagocytosis, and respiratory burst

The capability of an oyster to respond to environmental stresses, such as periodically high summer temperatures, as well as disease or parasite infections, depends, in large measure, upon the viability and functional capability of haemocytes. Eastern oysters (Crassostrea virginica) were subjected to a sudden increase in temperature from 20 to 28 °C for 1 week, and several haemocyte functions were determined before and after the temperature elevation using the flow cytometer. Previously, we described the characterization of different haemocyte types using new and modified flow cytometric methods. In this report, we provide detailed protocols for flow cytometric methods to: (1) determine haemocyte aggregation using paired samples with or without an antiaggregant solution; (2) assess haemocyte viability using propidium iodide (PI); (3) quantify haemocyte phagocytosis with fluorescent microbeads; and (4) measure the respiratory burst response of individual haemocytes using 2′,7′-dichlorofluorescein diacetate (DCFH-DA) and zymosan to activate the release of reactive oxygen species (ROS).The temperature increase caused no significant change in haemocyte aggregation, although there was a trend of increasing aggregation in granulocytes and small granulocytes, but a slight decrease in hyalinocyte aggregation. Phagocytosis of all haemocyte types decreased after the temperature increase. Significantly higher percentages of dead haemocytes in all haemocyte types (attributable to a large increase in mortality of hyalinocytes, the most numerous cells) were found after the temperature increase, suggesting generally less capable immune function. Numbers of dead small granulocytes and granulocytes tended to decrease, but this was not statistically significant. Effects of temperature elevation upon respiratory burst were not statistically significant; however, a trend of increased ROS production after temperature elevation was consistent for all haemocyte types. Granulocytes, hyalinocytes, and small granulocytes showed increased production of ROS in the presence of zymosan; granulocytes showed the highest induced fluorescence.     

Phagocytic and humoral immunity of the adult cotton boll weevil, Anthonomus grandis (Coleoptera: Curculionidae), to Serratia marcescens

This investigation determined phagocytic, lysozymal, and bactericidal defensive responses of adult laboratory-reared cotton boll weevils, Anthonomus grandis. Phagocytosis was first demonstrated in boll weevils at 3 hr following injection of live Serratia marcescens. Maximum phagocytosis was found in 16.4% of plasmatocytes at the end of 16 hr postinjection. Lysozyme activity was demonstrated in both inoculated and uninoculated boll weevils. Peak lysozyme activity of 6.9 μg/ml was found at 48 hr following inoculation of heat-killed Serratia marcescens. Bactericidal activity was demonstrated in inoculated boll weevils but not in uninoculated boll weevils. Peak bactericidal activity occurred at 24 hr following inoculation of heat-killed Serratia marcescens. Lysozymal and bactericidal activities were shown to be separate functions.     

Extracellular Matrix Lumican Promotes Bacterial Phagocytosis,and Lum?/? Mice Show Increased Pseudomonas aeruginosa Lung Infection Severity

Phagocytosis is central to bacterial clearance, but the exact mechanism is incompletely understood. Here, we show a novel and critical role for lumican, the connective tissue extracellular matrix small leucine-rich repeat proteoglycan, in CD14-mediated bacterial phagocytosis. In Psuedomonas aeruginosa lung infections, lumican-deficient (Lum^−/−) mice failed to clear the bacterium from lungs, tissues, and showed a dramatic increase in mortality. In vitro, phagocytosis of nonopsonized Gram-negative Escherichia coli and P. aeruginosa was inhibited in Lum^−/− peritoneal macrophages (MΦs). Lumican co-localized with CD14, CD18, and bacteria on Lum^+/+ MΦ surfaces. Using two different P. aeruginosa strains that require host CD14 (808) or CD18/CR3 (P1) for phagocytosis, we showed that lumican has a larger role in CD14-mediated phagocytosis. Recombinant lumican (rLum) restored phagocytosis in Lum^−/− MΦs. Surface plasmon resonance showed specific binding of rLum to CD14 (K_A = 2.15 × 10⁶ m⁻¹), whereas rLumY20A, and not rLumY21A, where a tyrosine in each was replaced with an alanine, showed 60-fold decreased binding. The rLumY20A variant also failed to restore phagocytosis in Lum^−/− MΦs, indicating Tyr-20 to be functionally important. Thus, in addition to a structural role in connective tissues, lumican has a major protective role in Gram-negative bacterial infections, a novel function for small leucine-rich repeat proteoglycans.     

Inhibition of the binding of low-density lipoprotein to its cell surface receptor in human fibroblasts by positively charged proteins

A group of proteins and polyamino acids with positively charged domains were shown to inhibit the binding of ¹²⁵I-LDL to its receptor on the surface of human fibroblasts. The list of inhibitory proteins included platelet factor 4 (which has a cluster of lysine residues at its carboxyl terminus), two lysinerich histones, poly-L-lysines of chain length greater than 4, and protamine. These proteins were effective in the concentration range of 5–50 μg/ml. Two other positively charged proteins, lysozyme and avidin, did not inhibit ¹²⁵I-LDL binding. Kinetic studies suggested that protamine was not acting simply as a competitive inhibitor with regard to the LDL receptor. In light of previous data showing that polyanions such as heparin and polyphosphates also inhibit ¹²⁵I-LDL binding to its cell surface receptor, the current findings suggest that charge interactions are important in this binding reaction. In a related series of studies, a number of glycoproteins and their asialo derivatives as well as a number of sugar phosphates failed to inhibit ¹²⁵I-LDL binding to its receptor in fibroblasts.     

The activated hepatic glucocorticoid-receptor complex: A simple one-step method for its separation from nonactivated complex

Protamine sulfate was found to precipitate completely the nonactivated [³H]-dexamethasone-receptor complex of rat liver. This observation was then used as the basis of a method to separate activated from nonactivated complex. Thus, addition of 10 mg/ml of protamine sulfate to the rat hepatic cytosol [³H]dexamethasone-receptor complex, incubated at 0–4°C for 2 hr, resulted in the complete precipitation of [³H]dexamethasone-receptor complex. The remaining supernatant obtained on centrifugation at 800g was unable to bind either to nuclei or to DNA-cellulose. An increase in temperature to 25°C or the addition of 10 mm CaCl₂ to the cytosol resulted in the appearance of activated [³H]dexamethasone-receptor complex in the supernatant obtained by addition of protamine sulfate. This was determined by characteristic binding to nuclei or DNA cellulose and by pI. Protamine sulfate could not affect the separation of activated [³H]dexamethasone-receptor complex at salt concentrations above 100 mm NaCl. This procedure therefore had to be carried out under conditions of relatively low ionic strength. Finally, a one-step rapid method is described for the separation of activated [³H]dexamethasone-receptor complex from nonactivated receptor complex. The homogeneous population of activated complex thus obtained should have considerable applicability in studies of the mechanisms of in vitro glucocorticoid-receptor activation.     

The interaction of zinc, nickel and cadmium with serum albumin and histidine-rich glycoprotein assessed by equilibrium dialysis and immunoadsorbent chromatography

Human serum albumin (HSA) has been shown to bind 2–3 mol of Zn²⁺, Ni²⁺, or Cd²⁺ per mole of protein with apparent dissociation constants (K_d) in the range of 10 μm. Rabbit histidine-rich glycoprotein (HRG) binds 13, 9, and 6 mol of Zn²⁺, Ni²⁺, and Cd²⁺ per mole of protein, respectively, with apparent K_ds also near 10 μm. However, the binding of metals by HRG exhibits positive cooperativity, so that the apparent K_ds may underestimate HRGs true affinity for metal ions. The relative affinities of HSA and HRG for metal ions were found to be Zn²⁺ > Ni²⁺ > Cd²⁺. In addition, histidine (a serum metal chelator) affected the binding of Ni²⁺ by both proteins but not that of Zn²⁺ or Cd²⁺. At physiological concentrations of HSA (250 μm), HRG (2.5 μm), and histidine (100 μm), HRG bound 36% of the Zn²⁺, 9% of the Ni²⁺, and 13% of the Cd²⁺ at a total metal concentration of 25 μm. Under the same conditions HSA held 37% of the Zn²⁺, 14% of the Ni²⁺, and 56% of the Cd²⁺. Thus, HSA appears to have a lower intrinsic affinity for the three metals than HRG but would be expected to bind a higher proportion of these metals in serum. A specific immunoadsorbent column was prepared and used to study the metal binding by HRG in serum directly. Both ⁶⁵Zn²⁺ and ⁶³Ni²⁺ were associated with HRG in aliquots of rabbit serum after incubation with the corresponding metal ion. This evidence indicates that HRG must be considered as a metal binding component of serum.     

Purification and properties of a methionine formylmethionyl-tRNA-binding initiation factor from pig liver

(i) A factor, EIF-2, that binds methionyl-tRNA_f^Met in the presence of GTP has been isolated from pig liver. (ii) Dodecylsulfate-gel electrophoresis and sedimentation equilibrium centrifugation indicate that the factor has a molecular weight of 122,000 and that it consists of three unequal subunits. (iii) The apparent K_D for binding of methionyl-tRNA_f^Met varies with factor concentration. GTP participates in the binding with a K_D of 0.5 μm. β,γ-Methylene-guanosine triphosphate supports 40% of the binding observed with GTP. GDP is a competitive inhibitor with a K_i of 0.2 μm. The optimal, free Mg²⁺ concentration is approximately 50 μm. GTP and Mg²⁺ stabilize the factor against thermal inactivation and inactivation by N-ethyl maleimide. (iv) The factor is required for the formation of a sucrose gradient-stable complex between methionyl-tRNA_f^Met and the 40S ribosomal subunit. The presence of template is not necessary, but poly(A,U,G) increases the binding observed 1.5-fold. (v) The factor markedly stimulates synthesis in a reconstituted protein-synthesizing system with globin messenger RNA as template.     

Binding of lipopolysaccharide and complexes of lipopolysaccharide to serum low density lipoproteins to liver macrophages

Binding of [³H]-lipopolysaccharide toxin (LPS) and complexes of LPS with serum [¹²⁵I]-labeled low density lipoproteins (LDL) to primary culture of rat liver macrophages (Kupffer cells) has been studied. Total, specific and nonspecific binding was determined. The receptor interaction was shown to dominate for both LPS and LDL-LPS complexes, representing 70–77% and 80–85%, respectively. The Scatchard plot was essentially non-linear for LPS binding but linear for the LDL-LPS complexes. At the Scatchard graph of LPS binding, however, two regions approximately fitting the linear regression could be identified. These regions correspond to two different types of specific binding sites: the first is for lower toxin concentrations of 0.25–0.50 μg/ml with K _d = 0.75 μg/ml; while the second is for higher LPS concentrations of 7.5–15 μg/ml with K _d = 5.39 μg/ml. For LDL-LPS complexes only K _d of 2.80 μg/ml was obtained. The LDL-LPS complexes significantly blocked the LPS binding (?40%) while acetylated or oxidized LDLs exerted a less pronounced effect. LPS inhibited binding of LDL-LPS complexes (?60%), while acetylated or oxidized LDLs suppressed interaction of LDL-LPS complexes with Kupffer cells insignificantly. It is suggested that, while binding to the Kupffer cell surface, a substantial portion of both LPS and LDL-LPS complexes share the same scavenger receptors with which, however, modified LDLs interact weakly. The LDL-LPS complexes can interact, apart from receptors common with LPS, with other receptors exhibiting similar binding parameters, with the apo-B/E receptors playing an inessential role.     

Identification of a novel calcium binding protein from bovine brain

A novel Ca²⁺ binding protein, named caligulin, was extracted from the heat-treated 100 000 × g supernatant of bovine brain and purified to electrophoretic homogeneity. The apparent M_r of caligulin determined on sodium dodecyl sulfate polyacrylamide gels was 24 000. Analysis by gel filtration chromatography indicated an apparent M_r of 33 000, suggesting a monomeric protein. Amino acid composition data demonstrated the presence of 25% acidic residues, 12% basic residues and 10% leucine. In the presence of 1 mM MgCl₂ and 0.15 M KCl, caligulin bound 1 mol Ca²⁺/mol protein with half-maximal binding at about 0.2 μM Ca²⁺.     

Purification and properties of mannitol dehydrogenase from Agaricus bisporus sporocarps

Mannitol dehydrogenase (mannitol: NADP⁺ 2-oxidoreductase: EC 1.1.1.138) was isolated from Agaricus bisporus by fractionation with protamine sulphate and (NH₄)₂SO₄, followed by chromatography on DEAE-Sephadex, then by affinity and gel chromatography. The products of enzyme reaction were identified by GLC and TLC. K_m, optimum pH, MW and pI of the enzyme as well as the influence of temperature, ions and inhibitors on enzymic activity were determined. In the sugar reducing reaction, the enzyme was specific for fructose but, in the reverse direction, some structurally related polyols could substitute for mannitol. The enzyme was very sensitive to alterations in the NADP⁺/NADPH ratio. The results are discussed in relation to the possible role of mannitol dehydrogenase in fungal metabolism.     

PHAGOCYTOSIS BY THE CELLULAR SLIME MOLD POLYSPHONDYLIUM PALLIDUM DURING GROWTH AND DEVELOPMENT

The phagocytic ability of amoebae of the cellular slime mold Polysphondylium pallidum, grown in shaken suspension, was examined. An established quantitative assay of the uptake of polystyrene (PS) beads was shown to be valid for this organism. The kinetics of phagocytosis were determined, and estimates of the concentration of PS beads necessary to achieve half-maximal phagocytic velocity (K_p), as well as the maximal velocity itself (V_p^max), were made. Comparison with previously published data on Acanthamoeba and guinea pig leukocytes suggested that the P. pallidum amoebae had the lowest K_p, while the leukocytes had the highest V_p^max. Beads approximately 1 µm in diameter appeared to be the optimal size for ingestion. Simultaneously with phagocytosis, comparable numbers of beads accumulated at the cell surface; this accumulation did not occur when phagocytosis was inhibited. Phagocytosis was depressed by protein in the medium, by increased osmolarity, and by inhibitors of aerobic metabolism. Starvation-initiated development, leading to encystment, was shown to affect the capacity of the cells to phagocytize, mainly by progressively decreasing the time span over which the cells ingested particles at a constant initial rate.     

M-related protein (Mrp) contributes to group A streptococcal resistance to phagocytosis by human granulocytes

The M protein has been postulated to be a major group A streptococcal (GAS) virulence factor because of its contribution to the bacterial resistance to opsono-phagocytosis. Direct evidence of this was only provided for GAS strains which expressed a single M protein. The majority of GAS express additional, structurally similar M-related proteins, Mrp and Enn, which have been described as IgG- and IgA-binding proteins. To determine the involvement of Mrp and M protein in phagocytosis resistance, the mrp and emm genes from serotypes M2, M4, and M49 as well as from M-untypeable strain 64/14 were insertionally inactivated. The mrp and emm mutants were subjected to direct bactericidal assays. As judged by numbers of surviving colony-forming units, all mutant strains with the exception of the mrp 4 mutant exhibited reduced multiplication factors as compared to the isogenic wild-type strains. Subsequent analysis of phagocytosis by flow cytometry, measuring association of BCECF/AM-labelled bacteria and granulocytes, paralleled the results from direct bactericidal assays regardless of whether isolated granulocytes or whole blood were utilized. Resistant wild-type GAS strains bound to less than 24% of granulocytes, whereas phagocytosis-sensitive controls attached to more than 90% of the white blood cells. 40 to 60% of the granulocytes associated with the mrp and emm mutants within 1 h of co-incubation. Kinetic data suggested that attachment to granulocytes proceeds faster for emm mutants than for corresponding mrp mutants. By adding a dihydro-rhodamine123 stain and measuring fluorescence induced by oxidative burst, the experimental data suggested that bacteria bound to granulocytes were also engulfed and integrated into phagolysosomes. Thus, these data indicated that, if present, both mrp and emm gene products contribute to phagocytosis resistance by decreasing bacterial binding to granulocytes.     

Erythrocyte membranes inhibit respiratory burst and protein nitration during phagocytosis by macrophages

Phagocytosis is associated with respiratory burst producing reactive oxygen and nitrogen species. Several studies imply that erythrocytes can inhibit the respiratory burst during erythrophagocytosis. In this work we studied the mechanisms of this effect using control and in vitro peroxidized erythrocyte membranes. We demonstrated that autofluorescence of peroxidation products can be used for visualization of phagocytozed membranes by fluorescence microscopy. We also found that respiratory burst induced by a phorbol ester was inhibited by control membranes (5 mg/ml) to 63 % (P < 0.001), and to 40 % by peroxidized membranes (P < 0.001). We proved that this effect is not caused by the direct interaction of membranes with free radicals or by the interference with luminol chemiluminescence used for the detection of respiratory burst. There are indications of the inhibitory effects of iron ions and free radical products. Macrophages containing ingested erythrocyte membranes do not contain protein-bound nitrotyrosine. These observations imply a specific mechanism of erythrocyte phagocytosis.