Separation of human colostral macrophages and neutrophils on gelatin and collagen-serum substrata

A new technique for separation of human colostral macrophages and neutrophils was developed. Macrophages attached more readily to acid soluble collagen-serum or gelatin-serum substrata than neutrophils. Most of the adherent neutrophils were removed during the first 5 minutes incubation in 3 mM EDTA, thereafter, complete detachment of macrophages followed. Neutrophils and macrophages were enriched more than 80% in nonadherent cell populations and detached cell populations, respectively. These separated colostral leukocytes retained their viability and phagocytic activities. Therefore, functional studies of these purified human colostral leukocytes are possible.     

Ascorbic acid transport and accumulation in human neutrophils

The transport, accumulation, and distribution of ascorbic acid were investigated in isolated human neutrophils utilizing a new ascorbic acid assay, which combined the techniques of high performance liquid chromatography and coulometric electrochemical detection. Freshly isolated human neutrophils contained 1.0-1.4 mM ascorbic acid, which was localized greater than or equal to 94% to the cytosol, was not protein bound, and was present only as ascorbic acid and not as dehydroascorbic acid. Upon addition of ascorbic acid to the extracellular medium in physiologic amounts, ascorbic acid was accumulated in neutrophils in millimolar concentrations. Accumulation was mediated by a high affinity and a low affinity transporter; both transporters were responsible for maintenance of concentration gradients as large as 50-fold. The high affinity transporter had an apparent Km of 2-5 microns by Lineweaver-Burk and Eadie-Hofstee analyses, and the low affinity transporter had an apparent Km of 6-7 mM by similar analyses. Each transporter was saturable and temperature dependent. In normal human blood the high affinity transporter should be saturated, whereas the low affinity transporter should be in its linear phase of uptake.     

Intracellular accumulation of potent amiloride analogues by human neutrophils

The mechanism of uptake of a series of amiloride derivatives by human neutrophils was investigated using [14C]amiloride and the 14C-labeled 5-(1-hexahydroazepinyl)-6-bromo analogue (BrMM) which is approximately 500-fold more potent than the parent compound at inhibiting Na+/H+ exchange. At an external concentration of 2 microM, the influx of BrMM at 37 degrees C was rapid, reaching a steady state by approximately 20 min. The rate of BrMM uptake (approximately 25 mumol/liter.min) was approximately 90-fold faster than for the same concentration of amiloride, a finding which correlates with differences in lipid partitioning of the two compounds. Uptake was unrelated to specific binding to Na+/H+ exchange transport sites: influx of either drug was nonsaturable whereas amiloride- and BrMM-mediated inhibition of Na+/H+ countertransport obeyed Michaelis-Menten kinetics with apparent Ki values of approximately 75 and approximately 0.2 microM. Entry occurred exclusively via the neutral (uncharged) forms (pK'a 8.40-8.55). Influx was markedly pH-dependent: it was enhanced by extracellular alkalinization and reduced by acidification. Influx was, however, insensitive to large changes in membrane voltage, thereby implying the protonated (charged) species to be impermeant. About 75% of the total intracellular pool of amiloride, but only approximately 25% of BrMM, is contained within the lysosomes, an expected consequence of the partitioning and subsequent trapping of a weak base within this strongly acidic subcellular compartment. With BrMM, there was a relative approximately 60-fold enrichment in the internal/external water concentration ratio of the drug; the value for amiloride was much less, approximately 4. This disparity is consistent with substantial binding of BrMM to internal constituents, presumably to proteins and/or nucleic acids. Thus, it is important to recognize that potentially large intracellular accumulations of potent analogues can occur that are not directly involved in inhibition of Na+/H+ exchange. These findings sound a cautionary note in the interpretation of results using these drugs in all cells, especially those of small size with high surface-to-volume ratios.     

Proteome analysis of resting human neutrophils

Neutrophils constitute the first line of host defense against pathogens. In the present study 2-D gel electrophoresis-mass spectrometry technology was employed to analyze the human resting neutrophils proteome. One hundred and two conserved spots were subjected to peptide mass fingerprinting, yielding 22 identifications. Among the identified proteins, nine are related to the inflammatory process, two polypeptides are assigned to metabolic functions and five are classified as structural.     

Leukotriene B4 is a complete secretagogue in human neutrophils: a kinetic analysis

The interactions have been studied of leukotriene B₄ (LTB₄) and 20-COOH-LTB₄ with human neutrophils (PMN). Kinetic studies, utilizing continuous recording techniques, showed that LTB₄ activates PMN with respect to aggregation, mobilization of membrane-associated Ca²⁺, $\underset{\dot{}}{?}$ generation, and degranulation within seconds of exposure. Dose-response studies indicate 1) that LTB₄ is much more potent than its dicar?ylic acid derivative (20-COOH-LTB₄) or its all trans-isomer, and 2) that PMN responses to these agents are largely dependent upon pretreatment of the cells with cytochalasin B. These properties were similar to those of the microbial ionophores, ionomycin and A23187. Results demonstrate that LTB₄ rapidly activates PMN and indicate that LTB₄ serves as a complete secretagogue. Moreover, they provide additional evidence that oxidized fatty acids activate human PMN.     

Consumption of complement and activation of human neutrophils by an artificial immune complex: polyacrylic acid-IgG-polymer

An artificial immune complex consisting of IgG covalently bound to polyacrylic acid (PAIGP) was prepared and investigated for its influence on a number of immunological reactions attributed to natural immune complexes. PAIGP consumed complement in a fast reaction. Complement consumption was complete after 10 min of incubation of guinea-pig serum with PAIGP. The concentration of PAIGP for 50% consumption was 2.3 micrograms/ml. PAIGP induced a chemiluminescence response in human peripheral polymorphonuclear leukocytes. This response was elicited in the absence and presence of serum and in whole blood. The response was maximal for leukocytes in the absence of serum and rather low in whole blood. The induction of chemiluminescence by PAIGP was inhibited by monoclonal antibodies to one of the Fc receptors of leukocytes (anti-Leu 11B), while unrelated antibodies had no influence on the chemiluminescence induced by PAIGP. PAIGP also stimulated the production of superoxide anion by polymorphonuclear leukocytes. The efficacy of PAIGP in stimulation of superoxide production was comparable to phorbol myristate acetate (PMA) and opsonized zymosan. PAIGP induced the discharge of elastase, a constituent of the azurophile granules of PMN leukocytes. Here, PAIGP was a rather weak stimulus compared to opsonized zymosan. PMA proved unable to induce elastase release. Thus, PAIGP induced a number of biological reactions usually brought about by naturally occurring antigen antibody complexes.     

Proteomic analysis of total cellular proteins of human neutrophils

Background  

Neutrophils are the most abundant leukocytes in peripheral blood and represent one of the most important elements of innate immunity. Recent subcellular proteomic studies have focused on the identification of human neutrophil proteins in various subcellular membrane and granular fractions. Although there are relatively few studies dealing with the analysis of the total extract of human neutrophils, many biological problems such as the role of chemokines, adhesion molecules, and other activating inputs involved in neutrophil responses and signaling can be approached on the basis of the identification of the total cellular proteins.     

The complement-mediated binding of soluble antibody/dsDNA immune complexes to human neutrophils

The complement-mediated binding of soluble antibody/3H-dsDNA immune complexes (prepared in vitro) to human polymorphonuclear leukocytes (PMN) has been investigated quantitatively. Studies with isolated complement components in conjunction with experiments on the binding of these complexes to human red blood cells suggest that the binding to both cell types is mediated predominantly by CR1 (C4b-C3b) receptors but that CR3 (iC3b or C3d-g) receptors may play a role in binding to PMN but probably not to RBC. Our results also indicate that under the standard conditions of these assays (37 degrees C, 20 to 40 min incubations) there is no significant internalization of the soluble antibody/dsDNA immune complexes after they are bound by the PMN.     

Phorbol diesters and dioctanoylglycerol stimulate accumulation of both diacylglycerols and alkylacylglycerols in human neutrophils

Human neutrophils treated with phorbol 12-myristate 13-acetate (PMA) or dioctanoylglycerol exhibited a large (10-fold), sustained accumulation of the mass of diradylglycerol, beginning 1 min after stimulation and continuing for 30 to 60 min. Phorbol dibutyrate was less potent than PMA in stimulating diradylglycerol accumulation, whereas the 4-alpha analogs of PMA and phorbol dibutyrate were inactive. Submaximal concentrations of PMA (0.5 to 2.5 nM) plus the calcium ionophore, ionomycin (15 to 60 nM), led to synergistic accumulation of diradylglycerols. Chlorpromazine and sphingosine, inhibitors of protein kinase C, blocked PMA-stimulated accumulation of diradylglycerol with IC50 concentrations of 32 and 9 microM, respectively, paralleling their inhibition of PMA-stimulated O2- production. These compounds also inhibited the ionomycin-stimulated accumulation of diradylglycerols. A third protein kinase C inhibitor, H-7, was less effective, inhibiting PMA-stimulated accumulation of diradylglycerol by 25% at 100 microM. Differential sensitivity to alkaline hydrolysis suggests that diradylglycerols that accumulate in response to PMA or ionomycin stimulation are composed of a mixture of two distinct diglyceride species, diacylglycerols and alkylacylglycerols. Whereas diacylglycerol may activate cellular protein kinase C, the importance of the production of alkylacylglycerols is uncertain.     

A formyl peptide substituted with a conformationally constrained phenylalanine residue evokes a selective immune response in human neutrophils

Formyl-Met-Leu-Phe-OH (fMLP) binds to formyl peptide receptors, FPR1 and FPR2, and evokes migration and superoxide anion production in human neutrophils. To obtain a more effective and selective ligand, fMLP analogs in which the Phe residue was substituted with four isomers of cyclopropanephenylalanine were synthesized. While Z-isomer peptides induced both migration and superoxide anion production, E-isomer peptides elicited only chemotaxis. Homologous receptor desensitization experiments revealed that E-isomer peptides bound to FPR2. Although a selective agonist of chemotaxis also binds to FPR2 without increasing intracellular calcium concentration, E-isomer peptide elevated the concentration to the same level as fMLP. Understanding of mechanisms responsible for the selectivity of the reported selective agonists and ?Phe-substituted analogs should prove useful for revealing the relationship between receptor–ligand interactions and biological responses of human neutrophils.     

Effects of taxol on human neutrophils

Taxol, a plant alkaloid, promotes and stabilizes microtubule assembly in cells and cellfree systems. In the present study, the effects of taxol on various functional, morphologic, and biochemical phenomena in human peripheral blood PMN (Hypaque-Ficoll) were examined. Taxol (10(-7) M) inhibited PMN chemotaxis stimulated by N-formyl-methionyl-leucyl-phenylalanine (f-met-leu-phe) or endotoxin-activated serum by more than 60%. The inhibition was not readily reversed by washing, and taxol itself was not a chemoattractant, nor is it a secretagogue. Spontaneous nondirected migration, cell spreading on a glass surface, and orientation of cell organelles in response to a chemoattractant gradient were also inhibited by taxol. Taxol (10(-5) M) decreased killing of Staphylococcus aureus, but did not alter phagocytosis of heat-killed Candida or hexose monophosphate shunt activity in resting or stimulated PMN. Ultrastructural studies showed that PMN incubated in f-met-leu-phe, taxol, or both had increased (p less than 0.001) numbers of centrosome-associated microtubules, and the microtubules of cells incubated in taxol with or without f-met-leu-phe were organized into bundles. Taxol (10(-5) M) markedly inhibited post-translational tyrosinolation of alpha-chains of tubulin in both resting and f-met-leu-phe-stimulated PMN. The data indicate that taxol inhibits PMN locomotion and bacterial killing, supporting a role for microtubules in these processes. The ultrastructural and biochemical data also support the view that taxol mediates its effects on PMN by its effect on microtubules.     

Lectinocytochemical specificity in human eosinophils and neutrophils: a reexamination

As with secretory granules in other cell types, many of the protein components that make up the cytoplasmic granules of human leukocytes are glycoproteins. It is not unexpected, therefore, that lectins specific for various carbohydrate moieties can be localized in these granules following appropriate protocols for specimen preparation and thin-section labeling. In this study, isolated human eosinophils and neutrophils were prepared for lectin-gold electron microscopic localization by procedures that involve no exposure to aqueous fixatives, buffers, or solvents (rapid cryofixation and molecular distillation drying), thus removing the potential problem of constituent extraction or translocation during so-called "wet chemical" processing. In contrast to other reports, data presented illustrate the specific binding of soybean agglutinin (SBA) to eosinophil granule matrices (not the crystalline cores), as well as to a population of granules in neutrophils. A similar labeling pattern for wheat germ agglutinin (WGA) was also seen, confirming the presence of N-acetyl-D-galactosamine and N-acetyl-D-glucosamine residues in eosinophil and neutrophil granule matrices. These studies emphasize the need for carefully designed specimen preparation as well as subsequent thin-section labeling procedures in lectinocytochemical studies.     

Flow cytometry analysis of human neutrophils labeled with rhodamine phalloidin: effect of pentoxifylline

Pentoxifylline (PTX) has been reported to enhance the early accumulation of neutrophils at the site of Staphylococcus aureus subcutaneous infection in mice (1) and to stimulate in vitro PMN chemotaxis, particularly under dense agarose (2). Among the biochemical events contributing to chemotaxis are actin polymerization (3). The membrane cytoskeleton is believed to control the lateral mobility of integral membrane proteins as well as influencing cell shape and mobility. Thus, pharmacological modulations of neutrophil chemotaxis may be related to an effect of the pharmacological agents on the membrane cytoskeleton. The present study was designed to characterize the effect of PTX on actin polymerization of freely-suspended PMN before and after stimulation by the chemotactic factor f-MLP. We used flow cytometry to determine the proportion of actin in the filamentous form, and Rhodamine-Phalloidin as fluorescent probe (4). PTX decreased actin polymerization in response to stimulation by f-MLP. The reduction in F-actin by PTX was higher in the samples with higher activation ratios as compared with untreated PMN.     

Pathophysiology of photoaging of human skin: focus on neutrophils.

UV-induced skin damage is the result of a complex cascade of events. Many studies have focused on the skin effects induced by UV-B or UV-A separately. Recently a UV-source that emits UV-B and UV-A together in a ratio comparable to daily sunlight has been introduced: i.e. solar simulated radiation (SSR). By exposing human skin type I-III to erythematogenic doses of UV (> or =1 MED) emitted by a SSR source we have noticed that: (a) neutrophils are initially the main infiltrating cell type in the dermis and (b) these infiltrating cells are the a key source of in vivo enzymatically [corrected] active enzymes such as elastase, [corrected] matrix metallo proteinases-1 and -9 (MMPs-1 and -9). These enzymes are relevant to the process of photoaging, as they break down the extracellular matrix. Keratinocytes and fibroblasts also produce matrix degrading enzymes, but to a lesser extent. Our results indicate a primary role for infiltrating neutrophils in the initial steps of photoaging. This is further supported by the observation that after exposure of skin type VI to physical doses of SSR, equivalent to those used for skin types I-III, no neutrophils and neutrophil-derived enzymatic activity were observed, explaining why skin type VI is [corrected] less susceptible to photoaging than skin types [corrected] I-III. Statement: Although most of the data, referred to, have been published, the current perspective in which they are put together is completely novel and has not been published elsewhere.     

Proteomic analysis of plasma membrane and secretory vesicles from human neutrophils

Background  

Polymorphonuclear neutrophils (PMN) constitute an essential cellular component of innate host defense against microbial invasion and exhibit a wide array of responses both to particulate and soluble stimuli. As the cells recruited earliest during acute inflammation, PMN respond rapidly and release a variety of potent cytotoxic agents within minutes of exposure to microbes or their products. PMN rely on the redistribution of functionally important proteins, from intracellular compartments to the plasma membrane and phagosome, as the means by which to respond quickly. To determine the range of membrane proteins available for rapid recruitment during PMN activation, we analyzed the proteins in subcellular fractions enriched for plasma membrane and secretory vesicles recovered from the light membrane fraction of resting PMN after Percoll gradient centrifugation and free-flow electrophoresis purification using mass spectrometry-based proteomics methods.     

GMP-140 binds to a glycoprotein receptor on human neutrophils: evidence for a lectin-like interaction

GMP-140 is a rapidly inducible receptor for neutrophils and monocytes expressed on activated platelets and endothelial cells. It is a member of the selectin family of lectin-like cell surface molecules that mediate leukocyte adhesion. We used a radioligand binding assay to characterize the interaction of purified GMP-140 with human neutrophils. Unstimulated neutrophils rapidly bound [125I]GMP-140 at 4 degrees C, reaching equilibrium in 10-15 min. Binding was Ca2+ dependent, reversible, and saturable at 3-6 nM free GMP-140 with half-maximal binding at approximately 1.5 nM. Receptor density and apparent affinity were not altered when neutrophils were stimulated with 4 beta-phorbol 12-myristate 13-acetate. Treatment of neutrophils with proteases abolished specific binding of [125I]GMP-140. Binding was also diminished when neutrophils were treated with neuraminidase from Vibrio cholerae, which cleaves alpha 2-3-, alpha 2-6-, and alpha 2-8-linked sialic acids, or from Newcastle disease virus, which cleaves only alpha 2-3- and alpha 2-8-linked sialic acids. Binding was not inhibited by an mAb to the abundant myeloid oligosaccharide, Lex (CD15), or by the neoglycoproteins Lex-BSA and sialyl-Lex-BSA. We conclude that neutrophils constitutively express a glycoprotein receptor for GMP-140, which contains sialic acid residues that are essential for function. These findings support the concept that GMP-140 interacts with leukocytes by a lectin-like mechanism.