Bioactivity of peptide analogs of the neutrophil chemoattractant, N-acetyl-proline-glycine-proline.
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PURPOSE: The release of N-acetyl-proline-glycine-proline (PGP), a chemoattractant resulting from direct alkaline hydrolysis of corneal proteins, is believed to be the initial trigger for neutrophil invasion into the alkali-injured cornea. The purpose of this study is twofold: (1) to compare the activity of N-acetyl-PGP with the bioactivities of other similar synthetic peptides in an effort to uncover information about this chemoattractant molecule, and (2) to test these peptide analogs as potential antagonists of N-acetyl-PGP. METHODS: The polarization assay was used to measure the potential chemotactic response of human neutrophils to peptides. Bioactivity was expressed as the peptide concentration required to produce 50% neutrophil polarization (EC50). Antagonist activity was expressed as the peptide concentration required to produce 50% inhibition (ID50) of polarization activated by N-acetyl-PGP. RESULTS: Peptide bioactivities (EC50) were ranked as follows: APGPR (0.34 mM) > N-acetyl-PGP (0.5 mM) > N-(PGP)4-PGLG (3 mM) = t-Boc-PGP (3 mM) > N-acetyl-PG (3.4 mM) > N-methyl-PGP (15 mM) = PGP (15 mM) > peptides without detectable activity (t-Boc-PGP-OMe, N-acetyl-P, PG, PGG, GP, GG and gly-pro-hyp). Peptides with no detectable bioactivity were tested as potential antagonists of neutrophil polarization induced by N-acetyl-PGP. Gly-Pro-Hyp inhibited N-acetyl-PGP activation of polarization at 20 mM (ID50). No other synthetic peptide demonstrated a capacity for inhibition. CONCLUSIONS: The minimum requirement to elicit bioactivity was the presence of PGP alone or derivatives of PG in which the N-terminal proline is blocked. Using this approach, active and inactive mimetic peptides of N-acetyl-PGP were produced. The most active peptide, APGPR, was equal to or slightly greater than N-acetyl-PGP, suggesting that more potent analogs might be designed. Gly-pro-hyp was the only inactive peptide analog to inhibit the chemoattractant. (+info)
Activation of macrophages and neutrophils by an endothelium growth suppressing factor.
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An endothelial cell growth-suppressing factor (EGSF) was purified from the serum-free conditioned medium of the mouse P388D1 culture in the presence of carboxymethylated curdlan. The purified EGSF showed two bands corresponding to the molecular masses of 55 and 63 kDa by silver staining on a SDS-polyacrylamide gel under reducing conditions. This factor strongly suppressed the proliferation of endothelial cells from bovine artery, human umbilical vein, and human dermal vas capillare and this suppression was observed to be reversible. We found that EGSF was a potent chemoattractant for macrophages and neutrophils. EGSF mediated the adhesion of neutrophils to BAEs and transendothelial migration of neutrophils. Macrophages stimulated by EGSF produced nitrite in a dose-dependent manner. EGSF did not affect the proliferation of T lymphocytes. These findings suggest that EGSF acts not only as a potent inhibitor for the growth of endothelial cells but also an activator for macrophages and neutrophils. Thus EGSF plays a role in an inflammatory response in the endothelium. (+info)
The severity of murray valley encephalitis in mice is linked to neutrophil infiltration and inducible nitric oxide synthase activity in the central nervous system.
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A study of immunopathology in the central nervous system (CNS) during infection with a virulent strain of Murray Valley encephalitis virus (MVE) in weanling Swiss mice following peripheral inoculation is presented. It has previously been shown that virus enters the murine CNS 4 days after peripheral inoculation, spreads to the anterior olfactory nucleus, the pyriform cortex, and the hippocampal formation at 5 days postinfection (p.i.), and then spreads throughout the cerebral cortex, caudate putamen, thalamus, and brain stem between 6 and 9 days p.i. (P. C. McMinn, L. Dalgarno, and R. C. Weir, Virology 220:414-423, 1996). Here we show that the encephalitis which develops in MVE-infected mice from 5 days p.i. is associated with the development of a neutrophil inflammatory response in perivascular regions and in the CNS parenchyma. Infiltration of neutrophils into the CNS was preceded by increased expression of tumor necrosis factor alpha and the neutrophil-attracting chemokine N51/KC within the CNS. Depletion of neutrophils with a cytotoxic monoclonal antibody (RB6-8C5) resulted in prolonged survival and decreased mortality in MVE-infected mice. In addition, neutrophil infiltration and disease onset correlated with expression of the enzyme-inducible nitric oxide synthase (iNOS) within the CNS. Inhibition of iNOS by aminoguanidine resulted in prolonged survival and decreased mortality in MVE-infected mice. This study provides strong support for the hypothesis that Murray Valley encephalitis is primarily an immunopathological disease. (+info)
Exposure of N-formyl-L-methionyl-L-leucyl-L-phenylalanine-activated human neutrophils to the Pseudomonas aeruginosa-derived pigment 1-hydroxyphenazine is associated with impaired calcium efflux and potentiation of primary granule enzyme release.
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The effects of pathologically relevant concentrations (0.38 to 12.5 microM) of the proinflammatory, Pseudomonas aeruginosa-derived pigment 1-hydroxyphenazine (1-hp) on Ca2+ metabolism and intracellular cyclic AMP (cAMP) in N-formyl-L-methionyl-L-leucyl-L-phenylalanine (FMLP; 1 microM)-activated human neutrophils, as well as on the release of myeloperoxidase (MPO) and elastase from these cells, have been investigated in vitro. Ca2+ fluxes were measured by the combination of a fura-2/AM-based spectrofluorimetric method and radiometric procedures, which together enable distinction between net efflux and influx of the cation, while radioimmunoassay and colorimetric methods were used to measure cAMP and granule enzymes, respectively. Coincubation of neutrophils with 1-hp did not affect intracellular cAMP levels or the FMLP-activated release of Ca2+ from intracellular stores but did retard the subsequent decline in the chemoattractant-induced increase in the concentration of cytosolic free Ca2+. These effects of 1-hp on the clearance of Ca2+ from the cytosol of activated neutrophils were associated with decreased efflux of the cation from the cells and increased release of MPO and elastase, while the delayed store-operated influx of the cation into the cells was unaffected by the pigment. The plasma membrane Ca2+-ATPase rather than a Na+-Ca2+ exchanger appeared to be the primary target of 1-hp. These observations suggest that the proinflammatory interactions of 1-hp with activated human neutrophils are a consequence of interference with the efflux of cytosolic Ca2+ from these cells. (+info)
A role for beta(2) integrins (CD11/CD18) in the regulation of cytokine gene expression of polymorphonuclear neutrophils during the inflammatory response.
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Growing evidence supports the idea that adhesion via beta(2) integrins not only allows cellular targeting, but also induces intracellular signaling, which in turn activates functional responses of adherent cells. This study investigates whether beta(2) integrin-mediated adhesion of human polymorphonuclear neutrophils (PMN) has a functional impact on cytokine production. Aggregation of the beta(2) integrin Mac-1 (CD11b/CD18) by antibody cross-linking was found to induce substantial de novo synthesis of IL-8 mRNA as measured by semiquantitative RT-PCR and Northern blotting technique, respectively. Induction of IL-8 mRNA was also observed upon adhesion of PMN to immobilized fibrinogen, a functional equivalent of its clotting product fibrin that serves as a native ligand of Mac-1. Results were confirmed using PMN derived from CD18-deficient mice, which were unable to produce MIP-2 mRNA, a homologue of human IL-8, in the presence of immobilized fibrinogen. In contrast, a substantial increase of MIP-2 mRNA was observed when wild-type PMN were incubated on immobilized fibrinogen. In human PMN, ELISA technique showed that the gene activation that required tyrosine kinase activity resulted in a substantial production and secretion of biologically active IL-8 and IL-1beta. In contrast, no TNF-alpha or IL-6 production was found, revealing that beta(2) integrins mediate differential expression of proinflammatory cytokines. The biological relevance of the present findings was confirmed in an in vivo model of acute inflammation. Altogether, the present findings provide evidence for a functional link between clotting and inflammatory responses that may contribute to the recruitment and/or activation of PMN and other cells at sites of lesion. (+info)
Amplitude and frequency modulation of metabolic signals in leukocytes: synergistic role of IFN-gamma in IL-6- and IL-2-mediated cell activation.
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Many stimuli cause intracellular concentration oscillations of second messengers or metabolites, which, in turn, may encode information in their amplitudes and frequencies. We now test the hypothesis that synergistic cellular responses to dual cytokine exposure correlate with cross-talk between metabolic signaling pathways of leukocytes. Polarized RAW264.7 macrophages and human neutrophils and monocytes exhibited NAD(P)H autofluorescence oscillation periods of congruent with20 s. IFN-gamma tripled the NAD(P)H oscillatory amplitude for these cells. Although IL-6 had no effect, incubation of cells with IFN-gamma and IL-6 increased both oscillatory amplitude and frequency. Parallel changes were noted after treatment with IFN-gamma and IL-2. However, IL-1beta and TNF-alpha did not display frequency doubling with or without IFN-gamma exposure. To determine whether frequency doubling required complete IFN-gamma signaling or simply metabolic amplitude modulation, an electric field was applied to cells at NAD(P)H troughs, which has been shown to enhance NAD(P)H amplitudes. Electric field application led to frequency doubling in the presence of IL-6 or IL-2 alone, suggesting that amplitude modulation is crucial to synergism. Because NADPH participates in electron trafficking to NO, we tested NO production during cytokine exposure. Although IL-6 and IL-2 alone had no effect, IFN-gamma plus IL-6 and IFN-gamma plus IL-2 enhanced NO release in comparison to IFN-gamma treatment alone. When NO production was examined for single cells, it incrementally increased with the same phase and period as NAD(P)H. We suggest that amplitude and frequency modulation of cellular metabolic oscillations contribute to intracellular signaling synergy and entrain NO production. (+info)
Activation of p90RSK and cAMP response element binding protein in stimulated neutrophils: novel effects of the pyridinyl imidazole SB 203580 on activation of the extracellular signal-regulated kinase cascade.
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Neutrophils stimulated with the chemoattractant FMLP or the phorbol ester PMA are known to exhibit activation of a 90-kDa renaturable protein kinase. Activation of this kinase was maximal at approximately 1-3 min after cell stimulation and the time course for activation was similar to that of the extracellular-regulated kinases (ERKs) and p38-mitogen activated protein kinase (p38MAPK). Compounds that block activation of ERK-1/2 (PD 98059) or that inhibit the activity of p38MAPK (SB 203580) blocked activation of this 90-kDa kinase. SB 203580 is a highly selective inhibitor of p38MAPK in vitro and is under intense study as a lead compound for developing novel anti-inflammatory agents. However, we demonstrate that SB 203580 at concentrations >/=10 microM can also inhibit activation of ERK-1/2 in neutrophils. An Ab to the protein kinase p90RSK2 (also referred to as MAPKAP-K1b, or p90rsk) immunoprecipitated the active 90-kDa kinase from lysates of stimulated neutrophils. No activity was observed for this enzyme in immunoprecipitates obtained from unstimulated cells, and the amounts of activity were markedly reduced if the cells were treated with PD 98059 or SB 203580 before stimulation. Neutrophils stimulated with FMLP exhibited phosphorylation of the cAMP response element binding protein (CREB), and this reaction was inhibited by SB 203580 and PD 98059. These data establish that the renaturable 90-kDa protein kinase is p90RSK2 and that CREB may be a substrate for this enzyme in these cells. Novel effects of compound SB 203580 on stimulated neutrophils are also described. (+info)
Protein kinase C (PKC) isoforms translocate to Triton-insoluble fractions in stimulated human neutrophils: correlation of conventional PKC with activation of NADPH oxidase.
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The responses of human neutrophils (PMN) involve reorganization and phosphorylation of cytoskeletal components. We investigated the translocation of protein kinase C (PKC) isoforms to PMN cytoskeletal (Triton-insoluble) fractions, in conjunction with activation of the respiratory burst enzyme NADPH oxidase. In resting PMN, PKC-delta (29%) and small amounts of PKC-alpha (0.6%), but not PKC-betaII, were present in cytoskeletal fractions. Upon stimulation with the PKC agonist PMA, the levels of PKC-alpha, PKC-betaII, and PKC-delta increased in the cytoskeletal fraction, concomitant with a decrease in the noncytoskeletal (Triton-soluble) fractions. PKC-delta maximally associated with cytoskeletal fractions at 160 nM PMA and then declined, while PKC-alpha and PKC-betaII plateaued at 300 nM PMA. Translocation of PKC-delta was maximal by 2 min and sustained for at least 10 min. Translocation of PKC-alpha and PKC-betaII was biphasic, plateauing at 2-3 min and then increasing up to 10 min. Under maximal stimulation conditions, PKC isoforms were entirely cytoskeletal associated. Translocation of the NADPH oxidase component p47phox to the cytoskeletal fraction correlated with translocation of PKC-alpha and PKC-betaII, but not with translocation of PKC-delta. Oxidase activity in cytoskeletal fractions paralleled translocation of PKC-alpha, PKC-betaII, and p47phox. Stimulation with 1,2-dioctanoylglycerol resulted in little translocation of PKC isoforms or p47phox, and in minimal oxidase activity. We conclude that conventional PKC isoforms (PKC-alpha and/or PKC-betaII) may regulate PMA-stimulated cytoskeletal association and activation of NADPH oxidase. PKC-delta may modulate other PMN responses that involve cytoskeletal components. (+info)