Modulation of platelet-activating factor (PAF) synthesis and release from human polymorphonuclear leukocytes (PMN): role of extracellular Ca2+

Extracellular Ca2+ regulated the synthesis and release of platelet-activating factor (PAF) from human polymorphonuclear leukocytes (PMN) stimulated with N'-formyl-methionyl-leucyl-phenylalanine (FMLP) in the presence of cytochalasin B. Maximum PAF synthesis and release required the presence of 0.14 mM Ca2+ whereas 1.4 mM Ca2+ was necessary for maximum lysosomal enzyme secretion. The synthesis of PAF occurred within 2.5 min after PMN stimulation in the presence of 1.4 mM Ca2+; however, PAF release did not occur until 5 min after stimulation. Peak PAF release occurred by 7.5 min but accounted for only 30-40% of the total amount of PAF synthesized, the remainder being retained on or within the PMN. Stimulation of PMN in the presence of 0.01 M EDTA or EGTA decreased PAF synthesis and release by greater than 95%. In the absence of extracellular Ca2+, stimulated PMN synthesized PAF in amounts that were 10-30% of maximum, but there was no release of the newly synthesized PAF. At Ca2+ concentrations greater than 0.01 mM, there was a dose-dependent (up to 0.14 mM) increase in PAF synthesis that was associated with the initiation and concomitant increase in the amount of PAF released. These data suggest the presence of a PAF synthesis-release coupling mechanism in which the extracellular Ca2+-dependent release of PAF stimulates additional PAF synthesis.     

Release of newly synthesized platelet-activating factor (PAF) from human polymorphonuclear leukocytes under in vivo conditions. Contribution of PAF-releasing factor in serum.

The behavior of platelet-activating factor (PAF) produced in stimulated human polymorphonuclear leukocytes (PMN) was investigated in the presence of serum under conditions close to those existing in vivo. When the cells were stimulated in the presence of the serum obtained from a PAF acetylhydrolase (PAF-AH)-deficient Japanese subject, over 60% of synthesized PAF was detected in the extracellular medium by bioassay, scintillation proximity RIA and selected ion monitoring/gas chromatography/mass spectrography analysis. The release of PAF from PMN after stimulation with FMLP and A23187 was also observed in the presence of normal serum treated with acid to inactivate PAF-AH. The heterogeneity of the molecular species of extracellular PAF was similar to that of intracellular PAF produced in stimulated PMN in the presence of PAF-AH-deficient serum, ruling out the possibility that a specific molecular species of PAF was preferentially released from the cells in the presence of the serum. As these data suggested the occurrence of PAF-releasing factor(s) in the serum, an attempt was made to partially purify this factor from PAF-AH-deficient serum and acid-treated normal serum by ammonium sulfate fractionation and column chromatography with DEAE-Cellulofine and Sepharose CL-6B. The molecular mass of PAF-releasing factor revealed on a TSK gel G3000 SW HPLC column was 240 kDa, which was different from that of albumin. The binding assay, newly developed for this study, revealed that the PAF-binding activity of PAF-releasing factor is stronger than that of albumin, and that the PAF-releasing factor forms a complex with PAF at low concentration (10(-9) M). PAF bound to this factor was difficult to be hydrolyzed by serum PAF-AH. On the other hand, the PAF/PAF-releasing factor complex had aggregatory activity toward washed rabbit platelets. These observations suggest that certain protein(s) releases and carries the PAF newly synthesized by PMN in blood plasma/serum. Thus it appears that PAF functions as an autacoid in vivo, along with other mediators.     

Production of platelet-activating factor by stimulated human polymorphonuclear leukocytes. Correlation of synthesis with release, functional events, and leukotriene B4 metabolism

Platelet-activating factor (PAF) is a phospholipid mediator of inflammation that is synthesized by several human cell types including polymorphonuclear leukocytes (PMN). We examined the synthesis and release of PAF by stimulated human PMN under several conditions, assayed by the incorporation of [3H]acetate into PAF and by bioassay. PAF synthesis was induced by calcium ionophore A23187 (IoA), opsonized zymosan (OpsZ), and N-formyl-methionyl-leucyl-phenylalanine (FMLP) with the relative order of potency IoA much greater than OpsZ greater than FMLP. A variety of other agonists, including phorbol myristate acetate, an activator of protein kinase C and of PMN functional responses, did not stimulate PAF synthesis. PAF synthesis by PMN in response to IoA, OpsZ, and FMLP was concentration- and time-dependent but release of the phospholipid was not: little PAF (1 to 10%) was released from PMN in suspension regardless of the total amount produced, the agonist, its concentration, the time of incubation, or the concentration of extracellular albumin. This was also the case with functionally altered neutrophils that had been "primed" with cytochalasin B or lipopolysaccharide or that had adhered to surfaces. PAF synthesis was tightly coupled with leukotriene B4 production by adherent PMN as well as by neutrophils in suspension, supporting the hypothesis that the two lipid autacoids may be derived from a common precursor. However, PAF synthesis could be dissociated from aggregation and surface adhesion, indicating that it is not absolutely required for these responses of activated PMN. The total amount of PAF that accumulated, but not the percentage that was released, was altered in adherent PMN compared to cells in suspension. These experiments demonstrate that PAF production and its subsequent processing by human neutrophils are highly regulated events. PAF synthesis is associated with PMN activation, but it is not a requisite for early adhesive responses of neutrophils. Because little of the PAF produced by stimulated PMN is released from the cells, it appears that PAF has an intracellular role in PMN function and/or that it may have novel intercellular effects that do not require release into the fluid phase.     

Tumor necrosis factor-alpha priming of phospholipase A2 activation in human neutrophils. An alternative mechanism of priming.

The cytokine, TNF-alpha, interacts with human neutrophils (PMN) via specific membrane receptors and primes leukotriene B4 (LTB4) production in PMN for subsequent stimulation by calcium ionophores. We have further examined the effects of TNF-alpha on arachidonic acid (AA) release, LTB4 production, and platelet-activating factor (PAF) formation in PMN by prelabeling cells with either [3H]AA or [3H]lyso-PAF, priming with human rTNF-alpha, and then stimulating with the chemotactic peptide, FMLP. TNF-alpha, alone, had little effect; minimal AA release, LTB4 or PAF production occurred after PMN were incubated with 0 to 1000 U/ml TNF-alpha. However, when PMN were first preincubated with 100 U/ml TNF-alpha for 30 min and subsequently challenged with 1 microM FMLP, both [3H] AA release and LTB4 production were elevated two- to threefold over control values. Measurement of AA mass by gas chromatography and LTB4 production by RIA confirmed the radiolabeled results. TNF-alpha priming also increased PAF formation after FMLP stimulation. These results demonstrate that TNF-alpha priming before stimulation with a physiologic agonist can enhance activation of phospholipase A2 (PLA2) resulting in increased AA release and can facilitate the activities of 5-lipoxygenase (LTB4 production) and acetyltransferase (PAF formation). Reports in the literature have hypothesized that the priming mechanism involves either production of PLA2 metabolites, increased diglyceride (DG) levels, or enhanced cytosolic calcium levels induced by the priming agent. We investigated these possibilities in TNF-alpha priming of PMN and report that TNF-alpha had no direct effect on PLA2 activation or metabolite formation. Treatment of PMN with TNF-alpha did not induce DG formation and, in the absence of cytochalasin B, no increased DG production (measured by both radiolabel techniques and mass determinations) occurred after TNF-alpha priming followed by FMLP stimulation. TNF-alpha also had no effect on basal cytosolic calcium and did not enhance intracellular calcium levels after FMLP stimulation. These results suggest that an alternative, as yet undefined, mechanism is active in TNF-alpha priming of human PMN.     

IL-8 production by human polymorphonuclear leukocytes. The chemoattractant formyl-methionyl-leucyl-phenylalanine induces the gene expression and release of IL-8 through a pertussis toxin-sensitive pathway.

IL-8 is a novel chemotactic cytokine, produced by a variety of blood and tissue cells, that has marked activating effects on polymorphonuclear leukocytes (PMN). We report that IL-8 is produced and released by human PMN after stimulation with the chemotactic agonist FMLP. Release of IL-8 in response to FMLP was transient and not influenced by PMN adherence or by the absence of serum in the medium. Maximum yields were usually obtained with 10 nM FMLP within 2 h of stimulation (0.5-3.5 ng/ml/7 x 10(6) cells, range of 17 different donors). IL-8 release was dependent on FMLP-induced de novo protein synthesis because it was inhibited by cycloheximide, was paralleled by enhanced expression of IL-8 mRNA and was potentiated from two- to sixfold after preincubation of PMN with cytochalasin B. The FMLP effect was direct and not dependent on LPS or on contaminating monocytes, which showed only low responsiveness to FMLP. Pretreatment of PMN with pertussis toxin prevented FMLP-dependent IL-8 production, the effect being evident both at the level of mRNA expression and protein secretion. In addition, two other chemoattractans, platelet-activating factor and C5a, were found capable to induce release of IL-8 by PMN. The results of this study suggest that chemotactically stimulated PMN may be able to amplify the recruitment process of PMN to the inflammatory site by releasing IL-8. As a long-lived cytokine, IL-8 could markedly prolong the attractant effect.     

Regulation of leukotriene synthesis by arachidonic acid in human polymorphonuclear leukocyte adhesive interactions is dependent on the presence of albumin

We have previously demonstrated that the pretreatment of polymorphonuclear leukocytes (PMNs) with the chemotherapeutic drug, Suramin, increases both cell attachment and inhibits calcium ionophore A23187-stimulated leukotriene (LT) synthesis. Here, we examined the effects of extracellular arachidonic acid (AA) and albumin on attachment and LT synthesis in the interaction of PMNs with both collagen-coated surfaces and human umbilical vein endothelial cell (HUVEC) monolayers. Suramin decreased the release of radiolabelled AA and 5-lipoxygenase metabolites by [(14)C-AA]-prelabelled PMNs stimulated with A23187, with and without human serum albumin (HSA) in the culture medium. Addition of 1 microM AA together with calcium ionophore stimulated the release of endogenous AA to the same level as control and Suramin-pretreated cells, but attachment was unaffected and LT synthesis was still inhibited with Suramin treatment. Using 24 microM AA, regulation of LT synthesis was dependent on the presence of HSA in the medium. Without HSA, 24 microM AA induced detachment of PMNs and increased LT synthesis in Suramin-treated cells above the control level. In the presence of HSA, 24 microM AA did not influence PMN attachment or abolish Suramin-induced inhibition of LT synthesis. These results suggest that tight attachment of PMNs to a solid surface leads to decreased LT synthesis during subsequent stimulation of the cells by A23187 in the presence or absence of exogenous substrate.     

Synthesis of platelet-activating factor by polymorphonuclear neutrophils stimulated with interleukin-8.

Human interleukin-8 (IL-8) was evaluated for its capability to induce the synthesis and release of platelet-activating factor (PAF) from human polymorphonuclear neutrophils (PMN). IL-8 promotes in a dose-dependent fashion (1-100 ng/ml) a rapid synthesis of PAF, which is only partially released. The synthesis of PAF is preceded by the activation of acetyl-CoA: 1-alkyl-2-lyso-sn-glycero-3-phosphocholine acetyl-transferase, suggesting that IL-8 activates the "remodeling pathway" of PAF synthesis. By thin layer chromatography and reverse-phase high pressure liquid chromatography, we demonstrated that PAF synthesized by human PMN stimulated with IL-8 is heterogeneous: the 2-acetylated phospholipids having the biological and physicochemical characteristics of PAF include the 1-O-alkyl form, which is produced in large extent (51%), and the 1-acyl form (20%). The analysis of the individual molecular species of radyl chain indicated nine peaks, 16:0 and 18:0 being the predominant forms. These results identify PAF as a direct product of IL-8 stimulation in PMN.     

Platelet-activating factor production in human neutrophils by sequential stimulation with granulocyte-macrophage colony-stimulating factor and the chemotactic factors C5A or formyl-methionyl-leucyl-phenylalanine

Besides its function as a growth factor, the cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF) "primes" polymorphonuclear leukocytes (PMN) for enhanced biologic responses to a number of secondary stimuli. We examined the effect of priming PMN with GM-CSF on the production of [3H] platelet-activating factor (PAF) from [3H]acetate upon stimulation with the chemotactic factors FMLP and C5a. In PMN stimulated with the individual peptide mediators alone [3H]PAF levels were close to controls, whereas considerable amounts of [3H]PAF are formed after stimulation of PMN which have been preexposed to GM-CSF. The priming effect was concentration and time dependent. It was optimal after a preincubation period of 2 h. A maximum of [3H]PAF accumulation is reached within 2.5 min (C5a) and 5.0 min (FMLP) after activation of GM-CSF-primed PMN. In addition, we show that PAF isolated from PMN preincubated with GM-CSF and triggered with chemotactic factors is able to enhance the respiratory burst in PMN. PAF formed by sequentially activated PMN could contribute to the enhanced oxygen radical production and cytotoxicity in effector cells and play a role in modulating and amplifying inflammatory reactions.     

Lipopolysaccharide-induced stimulation of CD11b/CD18 expression on neutrophils. Evidence of specific receptor-based response and inhibition by lipid A-based antagonists.

Gram-negative bacterial septicemia is a common clinical syndrome resulting, in part, from the activation of phagocytic leukocytes by LPS. By using flow cytometry, we have characterized LPS-induced expression of the beta 2 integrin CD11b/CD18. After exposure to Salmonella minnesota R595 LPS, expression of neutrophil CD11b/CD18 is rapidly upregulated, beginning within 5 min and achieving a peak fluorescence (typically two- to threefold over base line) by 30 min. The increase in CD11b/CD18 expression was similar in kinetics and magnitude to that produced by FMLP, PMA, and human rTNF-alpha. Concentrations of LPS necessary to stimulate a response were as low as 1 ng/ml of R595 LPS; a maximal response was observed between 30 and 100 ng/ml. The upregulation of CD11b/CD18 due to LPS was not interrupted by protein synthesis inhibitors. A group of glucosamine disaccharide lipid A-like molecules: Rhodobacter sphaeroides lipid A, lipid IVA, KDO2IVA, and deacylated LPS were able to block the stimulatory effect of LPS. This inhibition was specific for the actions of LPS as stimulation of polymorphonuclear leukocytes (PMN) by FMLP, human rTNF alpha, PMA, and rewarming were not altered by the disaccharide inhibitors. PMN which were exposed to the specific disaccharide LPS antagonists and then washed, were refractory to stimulation by LPS. The monosaccharide lipid A precursor lipid X also blocked stimulation of neutrophils by LPS, although with a 100-fold reduction in potency. Unlike the disaccharide inhibitors, PMN exposed to lipid X were still responsive to LPS stimulation after washing. The PMN response to LPS was less sensitive in the absence of serum, although upregulation of CD11b/CD18 could still be seen using higher concentrations of LPS. Monoclonal antibody directed against CD14 (clone 3C10), also specifically inhibited LPS induced PMN CD11b/CD18 expression both in the presence and absence of serum. These findings support the hypothesis that LPS stimulates neutrophils by interacting with specific cellular receptors.     

Albumin and fatty acid effects on the stimulated production of 1-O-hexadecyl-2-acetyl-sn-glycero-3-phosphocholine (PAF) by human polymorphonuclear leukocytes.

Production of platelet-activating factor (PAF) during opsonized zymosan stimulation of human polymorphonuclear leukocytes is dependent on the concentration of extracellular albumin and on the presence of exogenous fatty acids. Fatty acid-free albumin caused a concentration-dependent increase in PAF synthesis up to 5% albumin concentrations (w/v) where the amount of PAF produced was three- to four-fold higher than in controls containing no albumin. The addition of free fatty acids, particularly arachidonic acid and palmitic acid, to 5% fatty acid-free albumin media caused a concentration-dependent decrease in PAF synthesis. A 50% inhibition of PAF synthesis was observed at an arachidonic acid concentration of 120 microM and at a palmitic acid concentration of 100 microM. The inhibition of PAF production by palmitic acid was also dependent on the concentration of extracellular albumin. In 0.5% fatty acid-free albumin media, a palmitic acid concentration of 40 microM produced a 50% inhibition in PAF synthesis. The addition of palmitic acid did not affect the release of endogenous arachidonic acid during stimulation. In contrast, the addition of stearic acid up to 120 microM in 5% fatty acid-free albumin media had no effect on PAF production. The different inhibitory effects of palmitic acid and stearic acid on PAF production may be related to differences in intracellular utilization of these two fatty acids during cell stimulation.     

Monocyte aggregation and superoxide anion release in response to formyl-methionyl-leucyl-phenylalanine (FMLP) and platelet-activating factor (PAF)

Like the PMN, human peripheral blood monocytes were capable of aggregating in response to FMLP and PAF. Monocyte aggregation was dependent on glycolysis and the presence of divalent cations. Unlike the PMN, monocyte aggregation in response to FMLP was not accompanied by degranulation, nor was it potentiated by cytochalasin B. Furthermore, cytochalasin B and its cogenitor, dihydrocytochalasin B, inhibited aggregation in response to PAF. PAF and FMLP appeared to react with the monocyte at separate receptors because sequential challenge of the monocyte with the same agents failed to elicit further aggregation, whereas rechallenge with the alternative agent induced further aggregation. Because the monocyte will aggregate to chemotactic agents in vitro, it is likely that the cell will be affected by these agents in vivo, which could lead to leukoembolization of circulating monocytes.     

Superoxide responses to formyl-methionyl-leucyl-phenylalanine in primed neutrophils. Role of intracellular and extracellular calcium.

For superoxide (O2-) responses of human neutrophils stimulated by FMLP, experiments were designed to assess the requirement of extracellular calcium [( Ca2+]o) for priming of O2- responses by platelet-activating factor (PAF), PMA, or ionomycin. Although priming by PMA did not require [Ca2+]o, there was, as expected, a requirement for [Ca2+]o for the optimal priming effects of PAF and ionomycin. The ED50 value for [Ca2+]o in the priming function of PAF was 105 microM. The [Ca2+]o-dependent priming with ionomycin was bimodal with two ED50 values for [Ca2+]o of 90 microM and 3.2 mM. Optimal priming by PAF required at least 4-min exposure of cells to [Ca2+]o. Cells primed by PAF exhibited faster initial rates of O2-production after addition of FMLP, but the duration of O2- production was not prolonged. Whereas PAF-primed responses to FMLP are usually associated with increases in intracellular calcium [( Ca2+]i) after addition of FMLP, two conditions were found in which O2- responses to FMLP in PAF-primed cells occurred in the absence of any detectable increase in [Ca2+]i. When cells were loaded with the calcium chelator, bis-(O-aminophenoxy)-ethane-H,N,N',N'-tetraacetic acid, and then primed with PAF, normal amounts of inositol 1,4,5-trisphosphate were formed, but no increase in [Ca2+]i occurred after addition of FMLP even though the cells exhibited a fully primed O2- response; in Ca2(+)-depleted and ionomycin-permeabilized cells that were primed with PAF and then stimulated with FMLP, O2- was generated in amounts comparable to reference control (primed) cells, but there was suppressed production of inositol 1,4,5-trisphosphate and no increase in [Ca2+]i after addition of FMLP to PAF-primed cells. These data confirm the requirement of [Ca2+]o for optimal priming of neutrophils by PAF and ionomycin (but not cells primed by PMA) and indicate that, under certain conditions, generation of O2- in response to FMLP in PAF-primed neutrophils can occur independent of any increase in [Ca2+]i.     

Effects of pepstatin A on neutrophils; cross-deactivation with FMLP

The ability of pepstatin A, a protease inhibitor produced by Streptomyces testaceus, to elicit a number of responses by the human PMN has been studied. In lysozyme and beta-glucuronidase release, pepstatin A 10(-5)M is equivalent to the synthetic oligopeptide N-formyl-methionyl-leucyl-phenylalanine (FMLP) 10(-7)M. In superoxide release, pepstatin A 10(-5)M produces 80% of that originated by FMLP 10(-7). After two minutes of incubation the superoxide release is important, there being no further increase after 10 minutes. Preincubation of the cells with cytochalasin B before stimulation with pepstatin A elicits a noticeable increase in O2- release. In chemotaxis, pepstatin A 10(-6) originates the same cell motility as FMLP 10(-9). Pepstatin A produces a cross deactivation with FMLP which adds further evidence to the hypothesis that both stimuli compete for the same receptor in the PMN.     

Enhancement of phorbol ester-induced protein kinase activity in human neutrophils by platelet-activating factor

We have shown that platelet-activating factor (PAF), a weak primary stimulus for neutrophil superoxide generation, synergistically enhances neutrophil oxidative responses to the tumor promoter phorbol myristate acetate (PMA). Since PMA is known to cause cytosol-to-membrane shift of calcium-activated, phospholipid-dependent protein kinase (protein kinase c, PKC) in human neutrophils, we investigated the role of PAF in modifying PMA-induced PKC activation/translocation. Protein kinase activity was measured as the incorporation of 32P from gamma-32P-ATP into histone H1 induced by enzyme in cytosolic and particulate fractions from sonicated human neutrophils. PAF did not alter the sharp decrease in cytosolic PKC activity induced by PMA. However, in the presence of PAF and PMA, total particulate protein kinase activity increased markedly over that detected in the presence of PMA alone (144 +/- 9 pmoles 32P/10(7)PMN/minute in cells treated with 20 ng/ml PMA compared to 267 +/- 24 pmoles 32P in cells exposed to PMA and 10(-6)M PAF). The increase in total particulate protein kinase activity was synergistic for the two stimuli, required the presence of cytochalasin B during stimulation, and occurred at PAF concentrations of 10(-7) M and above. Both PKC and calcium-, phospholipid-independent protein kinase activities in whole particulate fractions were augmented by PAF as were both activities in detergent-extractable particulate subfractions. PAF did not directly activate PKC obtained from control or PMA-treated neutrophils. However, the PKC-enhancing effect of PAF was inhibited in the absence of calcium during cellular stimulation. PAF also increased particulate protein kinase activity in cells simultaneously exposed to FMLP but the effect was additive for these stimuli. These results suggest that PAF enhances PMA-induced particulate PKC activity by a calcium-dependent mechanism. The enhancing effect of PAF may be directly involved in the mechanism whereby the phospholipid "primes" neutrophils for augmented oxidative responses to PMA.     

Ether lysophospholipid-induced production of platelet-activating factor in human polymorphonuclear leukocytes

Human polymorphonuclear leukocytes (PMN) produced considerable amounts of platelet-activating factor (PAF) when exposed to various concentrations of lyso-PAF, especially in the absence of albumin. The amount of produced PAF in the presence of 5 microM lyso-PAF (without albumin) was 1.1 pmol/10 min per 2.5 X 10(6) cells, which was close to the level in the case of opsonized zymosan stimulation. We found that the activity of neither acetyltransferase nor acetylhydrolase was affected markedly by the treatment of cells with lyso-PAF, suggesting that the increased availability of lyso-PAF could be responsible for the induction of PAF synthesis. We also found that PAF synthesis was induced not only by lyso-PAF but also by ether-containing ethanolamine lysophospholipids, 1-alkenyl(alkyl)-sn-glycero-3-phosphoethanolamine (GPE). The addition of 1-alkenyl(alkyl)-GPE caused the degradation of pre-existing 1-alkyl-2-arachidonoyl-sn-glycero-3-phosphocholine (GPC) and an increased level of lyso-PAF, followed by the formation of PAF. By contrast, 1-acyl-GPC and 1-acyl-GPE failed to induce PAF production. These results suggest a possible key role of the availability of lyso-PAF in triggering the biosynthesis of PAF in human PMN.     

Human neutrophil laminin receptors: activation-dependent receptor expression

Activated human polymorphonuclear leukocytes (PMN) isolated from peripheral blood specifically bind 125I-laminin after stimulation with phorbol 12-myristate 13-acetate (PMA) or f-Met-Leu-Phe (FMLP) at 37 degrees C. Changes in laminin receptor expression are stimulus dose dependent at both chemotactic (10(-10) M to 10(-6) M) concentrations of FMLP, and secretory (greater than 5 ng/ml) levels of PMA. In the presence of cytochalasin B (5 micrograms/ml), 10(-7) M FMLP activation stimulates specific laminin binding, with an apparent Kd = 3.9 X 10(-9) M and 6.47 X 10(5) binding sites/cell, reaching equilibrium within 10 min at 4 degrees C. This observed activation-dependent change in laminin receptor expression is not due to interference by endogenous laminin, because no fluorescein-visualized anti-laminin antibody bound to cells without added glycoprotein, regardless of the level of activation. Levels of neutrophil lysozyme release, which show a PMA dose dependence similar to that of receptor binding activity, suggest that granule-plasma membrane fusion may be significant during increases in receptor expression. A lack of receptor stimulation by PMA from a granule-deficient patient or in granule-depleted cytoplasts from normal donors additionally supports this hypothesis. Electroblot transfer and autoradiography of subcellular fractions from unstimulated PMN reveals the presence of a 68,000 dalton laminin-binding component in the secondary/tertiary granule (beta) fraction, which may represent an intracellular laminin receptor pool.     

Calcium ionophore potentiates chemotactic peptide and platelet activating factor in stimulating thromboxane B2 and leukotriene B4 biosynthesis in human neutrophils

Formyl-Met-Leu-Phe (FMLP) and platelet activating factor (PAF) stimulated the synthesis of thromboxane B2 (TXB2) and leukotriene B4 (LTB4) to a small degree in human neutrophils. Calcium ionophore A-23187 enhanced synergistically both FMLP and PAF induced eicosanoid synthesis, whereas phorbol ester PMA attenuated PAF but not FMLP stimulated arachidonate metabolism. These results suggest that calcium mobilization may be a rate limiting step in FMLP and PAF induced synthesis of TXB2 and LTB4 and that protein kinase C activation may play a negative regulatory role in PAF stimulated eicosanoid synthesis.     

Simultaneous recording of calcium transients and reactive oxygen intermediates of human polymorphonuclear granulocytes in response to formyl-Met-Leu-Phe and the environmental agent sulfite

BACKGROUND: Human polymorphonuclear granulocytes (PMN) are an essential component in the immunological defense network against a variety of harmful pathogens. We have studied the effects of the airborne pollutant sulfite on the calcium metabolism and respiratory burst of these cells simultaneously. METHODS: A flow cytometric method was developed using the fluochromes Indo-1 and DHR-123. This method allowed us to investigate the real-time kinetics of intracellular free calcium and reactive oxygen intermediates in viable cells with a temporal resolution of 1 s over a time course of 17 min. An additional feature was the possibility to discriminate between reacting and nonreacting cells after treatment with defined stimuli, thus gaining additional insight into the behavior of cell subpopulations. RESULTS: We analyzed the effects of sulfite on PMN before and after stimulation with formyl-Met-Leu-Phe (FMLP). Treatment with sulfite alone (0.001-1 mM) caused a small, nontransient increase in intracellular calcium. Preincubation with sulfite reduced the maximal calcium response elicited by FMLP. A significant increase in steady-state calcium levels after stimulation with FMLP was observed after treatment with sulfite in concentrations of 10 and 100 mM. Regarding the respiratory burst, treatment with sulfite alone in concentrations of 0.001-1 mM induced a significant increase in DHR-123-derived fluorescence, whereas concentrations of 5 and 10 mM caused a significant depression of this fluorescence below baseline values. Sulfite caused a maximal twofold increase of DHR-123-derived fluorescence compared with the FMLP response. Similar results were obtained after preincubation with sulfite before treatment with FMLP, showing that the effect of sulfite on the respiratory burst was additive to the FMLP response. Regarding the fractions of responding cells, treatment with sulfite up to 1 mM induced a concentration-dependent increase of burst-reactive PMN, whereas preincubation before stimulation with FMLP showed no correlation between sulfite concentration and fraction of burst-reacting cells. CONCLUSIONS: By simultaneous registration of [Ca(2+)](i) and [H(2)O(2)](i) of PMN after treatment with FMLP and sulfite, the essential responses were already observed within a short time interval (15 min). Striking differences were found in the response of calcium as second messenger and respiratory burst in PMN treated with sulfite. Until a critical concentration (0. 5-1 mM), sulfite caused a concentration-dependent increase of [H(2)O(2)](i), in addition to the FMLP-induced response. The [Ca(2+)](i) changes induced by sulfite alone, however, were found to be small and showed no correlation with the respiratory burst response.     

Chemotactic peptide-induced changes in neutrophil actin conformation

The effect of the chemotatic peptide, N- formylmethionylleucylphenylalanine (FMLP), on actin conformation in human neutrophils (PMN) was studied by flow cytometry using fluorescent 7-nitrobenz-2-oxa-1,3-diazole (NBD)-phallacidin to quantitate cellular F-actin content. Uptake of NBD-phallacidin by fixed PMN was saturable and inhibited by fluid phase F-actin but not G-actin. Stimulation of PMN by greater than 1 nM FMLP resulted in a dose-dependent and reversible increase in F-actin in 70-95% of PMN by 30 s. The induced increase in F-actin was blocked by 30 microM cytochalasin B or by a t- BOC peptide that competitively inhibits FMLP binding. Under fluorescence microscopy, NBD-phallacidin stained, unstimulated PMN had faint homogeneous cytoplasmic fluorescence while cells exposed to FMLP for 30 s prior to NBD-phallacidin staining had accentuated subcortical fluorescence. In the continued presence of an initial stimulatory dose of FMLP, PMN could respond with increased F-actin content to the addition of an increased concentration of FMLP. Thus, FMLP binding to PMN induces a rapid transient conversion of unpolymerized actin to subcortical F-actin and repetitive stimulation of F-actin formation can be induced by increasing chemoattractant concentration. The directed movement of PMN in response to chemoattractant gradients may require similar rapid reversible changes in actin conformation.     

Differential responsiveness of human neutrophils to the autocrine actions of 1-O-alkyl-homologs and 1-acyl analogs of platelet-activating factor.

The phlogistic actions of six molecular species of platelet-activating factor (PAF) (1-O-alkyl-PAF homologs, 16:0-, 18:0- and 18:1-alkyl-PAF, 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (AGEPC) and their respective 1-acyl-PAF analog counterparts, 16:0-, 18:0- and 18:1-acyl-PAF, 1-acyl-2-acetyl-sn-glycero-3-phosphocholine (AGPC)) were assessed relative to five human neutrophilic polymorphonuclear leukocyte (PMN) functional responses: 1) lysosomal enzyme secretion; 2) specific desensitization to 16:0-AGEPC-induced lysosomal enzyme secretion; 3) O2- production; 4) chemotaxis; and 5) priming for enhanced O2- production. With respect to inducing lysozyme secretion, 18:0-AGEPC was 30- and 75-fold less potent than 16:0-AGEPC and 18:1-AGEPC, respectively, and was 25- and 40-fold less potent for inducing beta-glucuronidase secretion. 18:0-AGEPC was also 10-fold less active than 18:1- and 16:0-AGEPC for inducing O2- production. Thus, the rank order of potency of the alkyl-PAF homologs for inducing both lysosomal enzyme secretion and O2- production was 18:1- greater than or equal to 16:0- much greater than 18:0-AGEPC. In contrast, these three alkyl-PAF homologs had the same potency for desensitizing PMN to subsequent 16:0-AGEPC-induced lysosomal enzyme secretion and for priming PMN for augmented O2- production in response to FMLP or human recombinant C5a. Paradoxically, however, the rank order of potency of the alkyl-PAF homologs for effecting PMN chemotaxis was 18:0- greater than 18:1- much greater than 16:0-AGEPC. At concentrations as high as 1.0 microM, the acyl-PAF analogs did not initiate PMN lysosomal enzyme secretion, O2- production, or chemotaxis. However, the acyl-PAF analogs induced partial PMN desensitization to 16:0-AGEPC. A novel finding of potential (patho)-physiologic significance was the ability of acyl-PAF at nM concentrations to prime PMN for significantly enhanced O2- production after stimulation with FMLP or human recombinant C5a. The priming action of acyl-PAF was due to an increase in the rate as opposed to a prolongation of O2- production. The differing rank orders of potency of the alkyl-PAF homologs and acyl-PAF analogs for stimulating several physiologic responses of the same target cell, the human PMN, support the premise that there may be more than one PAF receptor subtype on the PMN and/or that differences in the biophysical properties of the various molecular species of PAF modulate their interaction with PAF receptor(s) linked to stimulus-response coupling.