Characterization of PAF receptors on human neutrophils using the specific antagonist, WEB 2086. Correlation between receptor binding and function

The antagonism of PAF effects by WEB 2086 and the receptor binding of [3H]WEB 2086 were investigated in isolated human neutrophils. WEB 2086 inhibited PAF-induced beta-glucuronidase release and [3H]WEB 2086 bound specifically to high-affinity sites on the cells. Close concordance between affinity constants for WEB 2086 from functional and radioligand-binding studies suggests that WEB 2086 interacts with the neutrophil PAF receptors and that [3H]WEB 2086 may be a useful ligand in investigation of these receptors.     

Transendothelial Migration Enables Subsequent Transmigration of Neutrophils through Underlying Pericytes

During acute inflammation, neutrophil recruitment into extravascular tissue requires neutrophil tethering and rolling on cytokine-activated endothelial cells (ECs), tight adhesion, crawling towards EC junctions and transendothelial migration (TEM). Following TEM, neutrophils must still traverse the subendothelial basement membrane and network of pericytes (PCs). Until recently, the contribution of the PC layer to neutrophil recruitment was largely ignored. Here we analyze human neutrophil interactions with interleukin (IL)-1β-activated human EC monolayers, PC monolayers and EC/PC bilayers in vitro. Compared to EC, PC support much lower levels of neutrophil binding (54.6% vs. 7.1%, respectively) and transmigration (63.7 vs. 8.8%, respectively) despite comparable levels of IL-8 (CXCL8) synthesis and display. Remarkably, EC/PC bilayers support intermediate levels of transmigration (37.7%). Neutrophil adhesion to both cell types is Mac-1-dependent and while ICAM-1 transduction of PCs increases neutrophil adhesion to (41.4%), it does not increase transmigration through PC monolayers. TEM, which increases neutrophil Mac-1 surface expression, concomitantly increases the ability of neutrophils to traverse PCs (19.2%). These data indicate that contributions from both PCs and ECs must be considered in evaluation of microvasculature function in acute inflammation.     

Role of endothelial leukocyte adhesion molecule-1 and platelet-activating factor in neutrophil adherence to IL-1-prestimulated endothelial cells. Endothelial leukocyte adhesion molecule-1-mediated CD18 activation.

Adherence of neutrophils to endothelium is a key event in the sequence of inflammatory leukocyte responses. Double-color FACS analysis was used to determine the extent and kinetics of neutrophil adherence to rIL-1 beta-pretreated endothelial cells (EC). Neutrophils bound very avidly when the EC were prestimulated for 4 to 6 h with rIL-1 beta. Anti-ELAM-1 F(ab)2 fragments inhibited this adherence for more than 80%. On the other hand, anti-CD18 F(ab)2 fragments also inhibited the neutrophil adherence (40 to 50%). Combined use of anti-ELAM-1 and anti-CD18 F(ab)2 fragments completely prevented adherence. Neutrophils became activated as soon as they made contact with the rIL-1 beta-pretreated EC. First, neutrophils depleted of intracellular ATP showed a clearly decreased adherence completely dependent on ELAM-1-mediated binding, i.e., without additional effects of CD18 adhesion proteins. Thus, CD18 is activated during neutrophil adherence and then participates in the binding process. Secondly, the neutrophils responded with a transient rise in [Ca2+]i upon binding to rIL-1 beta-pretreated EC, which was demonstrated to be caused by endothelial cell-associated platelet-activating factor (PAF). However, the extent of neutrophil adherence to rIL-1 beta-pretreated EC was not affected by the use of the PAF-receptor antagonist WEB 2086, or removal of the EC-bound PAF. The only effect was a complete dependency of the neutrophil adherence on ELAM-1-mediated binding, although anti-CD18 mAb still induced 40 to 50% inhibition under these conditions. We therefore conclude that ELAM-1-mediated binding is the major mechanism for CD18 activation during neutrophil adherence to rIL-1 beta-pretreated EC.     

Inhibition of immune complex-induced enteropathy by three different platelet-activating factor receptor antagonists.

We previously showed that intravenous injection of rat anti-BSA-BSA complexes (IC) prepared in 5x antigen excess rapidly induced a striate pattern of serosal (to mucosal) hemorrhage and vascular congestion throughout the small intestine of the Sprague-Dawley rat. In this study, we tested the effect of three different platelet-activating factor (PAF) receptor antagonists on the development of lesions. L-652,731, a synthetic derivative of kadsurenone (at doses of 1.3-2.7 mg/kg), SRI 63-675, a substituted quinolinium compound (6.7-15 mg/kg), and WEB 2086, a thienotriazolodiazepine (5-25 mg/kg) were each capable of completely or partially inhibiting IC-induced enteropathy in the majority of animals tested. Pretreatment with WEB 2086 prevented IC-induced hemoconcentration but not neutropenia. The antagonists did not lower the level of blood complement nor interfere with the fall in complement induced by administration of IC. The ability of PAF receptor antagonists to completely or partially inhibit IC-induced small intestinal lesions suggests that endogenous PAF is a major mediator of IC-induced enteropathy.     

Inhibition of immune complex-induced enteropathy by three different platelet-activating factor receptor antagonists

We previously showed that intravenous injection of rat anti-BSA-BSA complexes (IC) prepared in 5x antigen excess rapidly induced a striate pattern of serosal (to mucosal) hemorrhage and vascular congestion throughout the small intestine of the Sprague-Dawley rat. In this study, we tested the effect of three different platelet-activating factor (PAF) receptor antagonists on the development of lesions. L-652, 731, a synthetic derivative of kadsurenone (at doses of 1.3–2.7 mg/kg), SRI 63–675, a substituted quinolinium compound (6.7–15 mg/kg), and WEB 2086, a thienotriazolodiazepine (5–25 mg/kg) were each capable of completely or partially inhibiting IC-induced enteropathy in the majority of animals tested. Pretreatment with WEB 2086 prevented IC-induced hemoconcentration but not neutropenia. The antagonists did not lower the level of blood complement nor interfere with the fall in complement induced by administration of IC. The ability of PAF receptor antagonists to completely or partially inhibit IC-induced small intestinal lesions suggests that endogenous PAF is a major mediator of IC-induced enteropathy.     

Cooperative role of endogenous leucotrienes and platelet‐activating factor in ischaemia–reperfusion‐mediated tissue injury

Insufficient oxygen delivery to organs leads to tissue dysfunction and cell death. Reperfusion, although vital to organ survival, initiates an inflammatory response that may both aggravate local tissue injury and elicit remote organ damage. Polymorphonuclear neutrophil (PMN) trafficking to remote organs following ischaemia/reperfusion (I/R) is associated with the release of lipid mediators, including leucotriene (LT) B₄, cysteinyl‐LTs (CysLTs) and platelet‐activating factor (PAF). Yet, their potentially cooperative role in regulating I/R‐mediated inflammation has not been thoroughly assessed. The present study aimed to determine the cooperative role of lipid mediators in regulating PMN migration, tissue oedema and injury using selective receptor antagonists in selected models of I/R and dermal inflammation. Our results show that rabbits, pre‐treated orally with BIIL 284 and/or WEB 2086 and MK‐0571, were protected from remote tissue injury following I/R or dermal inflammation in an additive or synergistic manner when the animals were pre‐treated with two drugs concomitantly. The functional selectivity of the antagonists towards their respective agonists was assessed in vitro, showing that neither BIIL 284 nor WEB 2086 prevented the inflammatory response to IL‐8, C5a and zymosan‐activated plasma stimulation. However, these agonists elicited LTB₄ biosynthesis in isolated rabbit PMNs. Similarly, a cardioprotective effect of PAF and LTB₄ receptor antagonists was shown following myocardial I/R in mice. Taken together, these results underscore the intricate involvement of LTB₄ and PAF in each other's responses and provide further evidence that targeting both LTs and PAF receptors provides a much stronger anti‐inflammatory effect, regulating PMN migration and oedema formation.     

CD66 nonspecific cross-reacting antigens are involved in neutrophil adherence to cytokine-activated endothelial cells

Neutrophil adherence to cytokine-activated endothelial cell (EC) monolayers depends on the expression of the endothelial leukocyte adhesion molecule-1 (ELAM-1). The ligand for ELAM-1 is the sialylated Lewis-x antigen (SLe(x)) structure. The selectin LAM-1 (or LECAM-1) has been described as one of the SLe(x)-presenting glycoproteins involved in neutrophil binding to ELAM-1. Other presenter molecules have not yet been described. Our data demonstrate that the carcinoembryonic antigen (CEA)-like surface molecules on neutrophils--known as the nonspecific cross-reacting antigens (NCAs)--are involved in neutrophil adherence to monolayers of IL-1-beta-activated EC. The NCAs are recognized by CD66 (NCA-160 and NCA-90) and CD67 (NCA-95). Because NCA-95 and NCA-90 have previously been found to be phosphatidylinositol (PI)-linked, paroxysmal nocturnal hemoglobinuria (PNH) neutrophils (which lack PI-linked surface proteins) were tested as well. PNH neutrophils showed a diminished binding to activated EC. CD66 (on PNH cells still recognizing the transmembrane NCA-160 form) still inhibited the adherence of PNH cells to IL-1-beta-activated EC, but to a limited extent. Soluble CEA(-related) antigens inhibited normal neutrophil adherence as well, whereas neutrophil transmigration was unaffected. Sialidase-treatment as well as CD66 preclearing abolished the inhibitory capacity of the CEA(-related) antigens. The binding of soluble CEA antigens to IL-1-beta-pretreated EC was blocked by anti-ELAM-1. These soluble antigens, as well as the neutrophil NCA-160 and NCA-90, both recognized by CD66 antibodies, presented the SLe(x) determinant. Together, these findings indicate that the CD66 antigens (i.e., NCA-160/NCA-90) function as presenter molecules of the SLe(x) oligosaccharide structures on neutrophils that bind to ELAM-1 on EC.     

The benzodiazepine receptor ligands RO 5-4864 and RO 15-1788 do not block the inhibition of PAF-induced platelet aggregation seen with the hetrazepine WEB2086

The hypothesis was tested that the hetrazepine WEB 2086 acts as an inhibitor of PAF-induced platelet aggregation via interaction with the platelet benzodiazepine receptor(BDZR). WEB 2086 is a potent inhibitor of rabbit platelet aggregation and ATP secretion induced by 370 nM PAF. The two BDZR ligands RO 5-4864 and RO 15-1788 (7-96 microM) are inactive as PAF antagonists. When platelets were pretreated with either BDZR ligand, and then exposed to various concentrations of WEB 2086, there was no alteration of the dose-response relationship of the hetrazepine on PAF-induced aggregation, as reflected by threshold concentration, ED50, or maximum inhibition seen with WEB 2086. Pretreatment of platelets with the BDZR ligands also failed to block the inhibitory action of WEB 2086 on PAF-induced ATP release. The data are consistent with the notion that WEB 2086 acts as a PAF antagonist through its action at a specific PAF receptor, and is dissociated from, and independent of, interaction with the benzodiazepine receptor.     

Pulmonary vascular reactivity: effect of PAF and PAF antagonists.

We investigated the effects of two different platelet-activating factor (PAF) antagonists, SRI 63-441 and WEB 2086, on PAF-, angiotensin II-, and hypoxia-induced vasoconstrictions in isolated rat lungs perfused with a physiological salt solution. Bolus injection of PAF (0.5 micrograms) increased pulmonary arterial and microvascular pressures and caused lung edema. Both SRI 63-441, a PAF-analogue antagonist, and WEB 2086, a thienotriazolodiazepine structurally unrelated to PAF, completely blocked PAF-induced vasoconstriction and lung edema at 10(-5) M. At a lower concentration (10(-6) M), WEB 2086 was more effective than SRI 63-441. WEB 2086 also blocked the pulmonary vasodilation induced by low-dose PAF (15 ng) in blood-perfused lungs preconstricted with hypoxia. SRI 63-441 and CV 3988 (another PAF analogue antagonist), but not WEB 2086, caused acute pulmonary vasoconstriction at 10(-5) M and severe lung edema at a higher concentration (10(-4) M). PAF-induced but not SRI- or CV-induced pulmonary vasoconstriction and edema were inhibited by WEB 2086. In addition, SRI 63-441 potentiated angiotensin II- and hypoxia-induced vasoconstrictions. This effect of SRI 63-441 is not due to PAF receptor blockade because 1) addition of PAF (1.6 nM) to the perfusate likewise potentiated angiotensin II-induced vasoconstriction and 2) WEB 2086 did not cause a similar response. We conclude that both SRI 63-441 and WEB 2086 are effective inhibitors of PAF actions in the rat pulmonary circulation. However, antagonists with structures analogous to PAF (SRI 63-441 and CV 3988) can have significant pulmonary vasoactive side effects.     

Control of local blood flow in pulmonary inflammation: role for neutrophils, PAF, and thromboxane

The intrapulmonary instillation of C5a results in a local inflammatory response that, in this site, is accompanied by a decrease in local blood flow. Reversal of this decrease by vasodilators or the thromboxane synthesis inhibitor dazmegral has been shown to result in enhanced lung inflammation. In the present study the mechanisms underlying the decrease in flow in pulmonary inflammation were investigated in the rabbit in vivo and in the isolated blood-perfused rabbit lung. In vivo, the decrease in local blood flow was shown to be dependent on circulating neutrophils. In the isolated blood-perfused lung, inflammation induced by airway instillation of C5a was similar histologically to that seen in vivo and was also accompanied by a decrease in local blood flow. The decrease in blood flow appeared to require circulating neutrophils and was prevented by dazmegral and the platelet-activating factor (PAF) antagonists WEB 2086 and L-659,989. Furthermore, no decrease occurred in aspirin-treated lungs perfused with normal blood, suggesting that the source of thromboxane was lung rather than circulating cells. The decrease in blood flow in inflammation did not appear to be a consequence of hypoxic vasoconstriction. Inflammation in the guinea pig lung was also accompanied by a decrease in local blood flow and was also prevented by dazmegral and PAF antagonists. We conclude that local inflammation in the lung is accompanied by a decrease in blood flow that involves neutrophils and the lipid mediators PAF and thromboxane. We suggest that this form of negative feedback by the neutrophil serves to control the inflammatory response.     

The specific binding of the platelet-activating factor (PAF) receptor antagonist WEB 2086 and the benzodiazepine flunitrazepam to rat hepatocytes

Thieno-triazolodiazepines WEB 2086 and BN 50739 have been described as the potent PAF receptor antagonists. Binding of radiolabeled [³H]WEB 2086 has been widely employed to characterize PAF receptors in different cells. In a search for a PAF receptor in isolated rat hepatocytes, we discovered that the binding of [³H]WEB to rat hepatocytes was highly specific but had a relatively low affinity with a K_d of 113 nM and B_max of 0.65 pmol/10⁶ cells in freshly isolated cell suspension and K_d of 1.65 μM and B_max of 2.0 pmol/plate in cultured hepatocytes. No consistent specific binding of [³H]PAF itself was found in the same cell preparations. The binding of [³H]flunitrazepam in the presence of the peripheral type of benzodiazepine receptor antagonist Ro 5-4864 was saturated and exhibited a K_i of 3.8 nM and B_max of 3.5 pmol/plate. The central type of benzodiazepine receptor antagonist clonazepam also competed for the [³H]flunitrazepam binding, however with a much lower affinity. Various antagonists inhibited the binding of [³H]WEB 2086 with a rank order BN 50739⪢Ro 5-4864≥clonazepam. Interestingly, bicuculline, a specific antagonist of GABA(A) recognition sites, also significantly reduced the binding of [³H]WEB 2086. The binding of [³H]flunitrazepam was inhibited with a rank potency BN 50739⪢WEB 2086. Taken together, these findings suggest that the specific binding of PAF receptor antagonists WEB 2086 and BN 50739 in rat hepatocytes does not involve PAF receptors and occurs via peripheral benzodiazepine and, possibly GABA(A) receptor sites.     

Pharmacologic characterization of the rabbit neutrophil receptor for platelet-activating factor

The characteristics of receptors for platelet-activating factor (PAF) on rabbit neutrophils are investigated in this report. The presence of PAF-specific binding to rabbit neutrophils was confirmed using radiolabeled ligand binding assays and a rabbit peritoneal neutrophil membrane preparation. Binding of PAF to the neutrophil membranes was reversible and reached equilibrium within 30 min. Scatchard analysis of PAF-specific binding to the rabbit neutrophil membranes revealed a dissociation constant (Kd) for PAF of 0.41 +/- 0.045 nM and a Bmax of 0.32 +/- 0.11 pmol of PAF receptor/mg of protein. The order of potencies of PAF receptor antagonists to inhibit the binding of 3H-PAF to rabbit peritoneal neutrophil membranes was determined. For the competition assays, 100 micrograms of neutrophil or platelet membrane protein, 0.18 nM 3H-PAF, and varying amounts of PAF antagonist were incubated at room temperature for 1 hr. PAF receptor antagonists tested were ONO-6240, brotizolam, kadsurenone, WEB-2086, L-652-731, BN-52021, CV-3988, triazolam, alprazolam, and verapamil. The orders of potencies of these PAF receptor antagonists were similar for inhibition of 3H-PAF binding to rabbit peritoneal neutrophil and platelet membranes (correlation coefficient, r = 0.97). PAF had a significantly higher affinity for rabbit neutrophil membranes (Kd = 0.41 +/- 0.045 nM), as compared with its affinity for rabbit platelet membranes (Kd = 0.87 +/- 0.092 nM). In addition, sodium was found to inhibit 3H-PAF specific binding to rabbit platelet membranes and not to affect 3H-PAF binding to neutrophil membranes. These data indicate that, although PAF receptors on rabbit platelets and neutrophils exhibit similar orders of potencies of PAF receptor antagonists to inhibit the binding of 3H-PAF, the disparity in Kd of PAF for the receptors and the effect of NaCl on the binding of 3H-PAF reveal subtle differences between the cell types.     

Neutrophil migration across monolayers of resting or cytokine-activated endothelial cells. Role of intracellular calcium changes and fusion of specific granules with the plasma membrane.

Chemoattractants, used at concentrations to invoke optimal neutrophil chemotaxis, induce rapid changes in neutrophils such as a transient increase in intracellular Ca2+ ([Ca2+]i). We have previously observed that neutrophils adhering to cytokine-activated endothelial cells (EC) also respond with a rapid rise in [Ca2+]i caused by an endothelial membrane-bound form of platelet-activating factor. After preloading with the intracellular Ca(2+)-chelator bis-(O-aminophenoxyl)ethane-N,N,N',N'-tetraacetic acid (BAPTA/AM), neutrophils were no longer able to respond with a rapid rise in [Ca2+]i toward the chemoattractant FMLP or to rIL-1 beta-pretreated EC. These neutrophils were still able to adhere and migrate under the conditions tested. The only difference was that the BAPTA/AM-treated neutrophils migrated a little slower than untreated control neutrophils. This discrepancy was not observed at later time points. The BAPTA/AM-preloaded neutrophils did not differ from unloaded neutrophils in actin polymerization responses. Whereas untreated neutrophils demonstrated an up-regulation of the specific granule markers CD11b, CD45, and CD67 during migration (without any release from the azurophil granules), the BAPTA/AM pretreatment completely prevented this process. The BAPTA/AM-preloaded neutrophils did not release vitamin B12-binding protein from the specific granules upon treatment with FMLP. The down-modulation of the selectin member LAM-1, as seen upon neutrophil activation, was not affected by BAPTA/AM pretreatment of the neutrophils. Thus, neither the rapid rise in [Ca2+]i nor specific granule fusion with the plasma membrane constitute a prerequisite for neutrophil migration across resting or cytokine-activated EC.     

PAF antagonism modifies neuroprotective action of histone deacetylase and calcineurin phosphatase inhibitors in mice

To evaluate the hypothesis that platelet activating factor (PAF) antagonism may affect the functional recovery following the nerve injuries and also to evaluate the effect of PAF receptor antagonism on the neuroprotective effect of tacrolimus and sodium valproate, effect of PAF receptor antagonist, WEB2086 was evaluated in animal models of sciatic nerve crush and endothelin-1 induced focal cerebral ischemia. WEB2086, per se, while attenuating spontaneous sensory motor recovery after sciatic nerve crush, enhanced functional recovery after focal cerebral ischemia. WEB2086 also attenuated the neuroprotective effect of tacrolimus and sodium valproate subsequent to peripheral nerve injury, while it significantly improved the neuroprotective action of tacrolimus and sodium valproate following cerebral ischemia reperfusion injury. These results suggest that PAF receptor antagonists alone and in combination with tacrolimus/sodium valproate could be used in the treatment of cerebral ischemia reperfusion injuries however, their use following peripheral nerve injuries could be detrimental.     

Effects of platelet activating factor antagonists on arachidonic acid-induced platelet aggregation and TXA2 formation

The effects of the PAF receptor antagonists WEB 2086, WEB 2170, BN 50739 and BN 52021 on AA-induced platelet aggregation (PA) and TXA2 formation were investigated in comparison with the TXA2 synthetase inhibitor HOE 944 and the TXA2 receptor antagonist BM 13.177. All PAF antagonists tested were weak inhibitors of AA-induced PA and TXA2 formation (IC50 values between 80 and 2,737 mumol/l). HOE 944 was effective in concentrations 2-3 orders of magnitude lower than PAF antagonists in inhibiting TXA2 generation. These results imply that the inhibition of TXA2 formation is of minor relevance for the actions of the investigated PAF antagonists in AA-induced PA.     

Angiopoietin-1 but not angiopoietin-2 promotes neutrophil viability: Role of interleukin-8 and platelet-activating factor

We previously reported the expression of angiopoietin receptor Tie2 on human neutrophils. Both angiopoietins (Ang1 and Ang2) induce platelet activating factor (PAF) synthesis from endothelial cells (ECs) and neutrophils. Both angiopoietins can also modulate EC viability and since PAF can promote pro-survival activity on neutrophils, we addressed whether Ang1 and/or Ang2 could modulate neutrophil viability. Neutrophils were isolated from venous blood of healthy volunteers and neutrophil viability was assessed by flow cytometry using apoptotic and necrotic markers (annexin-V and propidium iodide (P.I.), respectively). Basal neutrophil viability from 0 to 24 h post-isolation decreased from 98% to ≈45%. Treatment with anti-apoptotic mediators such as interleukin-8 (IL-8; 25 nM) and PAF (100 nM) increased neutrophil basal viability by 34 and 26% (raising it from 43 to 58 and 55%) respectively. Treatment with Ang1 (0.001-50 nM) increased neutrophil viability by up to 41%, while Ang2 had no significant effect. Combination of IL-8 (25 nM) or PAF (100 nM) with Ang1 (10 nM) further increased neutrophil viability by 56 and 60% respectively. We also observed that Ang1, but not Ang2 can promote IL-8 release and that a pretreatment of the neutrophils with blocking anti-IL-8 antibodies inhibited the anti-apoptotic effect of IL-8 and Ang1 by 92 and 81% respectively. Pretreatment with a selective PAF receptor antagonist (BN 52021), did abrogate PAF pro-survival activity, without affecting Ang1-induced neutrophil viability. Our data are the first ones to report Ang1 pro-survival activity on neutrophils, which is mainly driven through IL-8 release.     

Inverse agonist-induced signaling and down-regulation of the platelet-activating factor receptor

Platelet-activating factor (PAF) is a potent phospholipid mediator involved in several diseases such as allergic asthma, atherosclerosis and psoriasis. The human PAF receptor (PAFR) is a member of the G-protein-coupled receptor family. Following stimulation, PAFR becomes rapidly desensitized; this refractory state is dependent on PAFR phosphorylation, internalization and down-regulation. In this report, we show that the PAFR inverse agonist, WEB2086, can induce phosphorylation and down-regulation of PAFR. Using selective inhibitors, we determined that the agonist, PAF, and WEB2086 could induce phosphorylation of PAFR by PKC. Moreover, dominant-negative (DN) mutant of PKC isoforms beta inhibited WEB2086-stimulated PAFR phosphorylation, whereas PAF-stimulated phosphorylation was inhibited by DN PKCalpha and delta. WEB2086 also induced PAFR down-regulation which could be blocked by PKC inhibitors and by DN PKCbeta. WEB2086-induced down-regulation was dynamin-dependent but arrestin-independent. Unlike PAF, WEB2086-stimulated intracellular trafficking of PAFR was independent of Rab5. Specific inhibitors of lysosomal proteases and of proteasomes were both effective in reducing WEB2086-induced PAFR down-regulation, indicating the importance of receptor targeting to both lysosomes and proteasomes in long-term cell desensitization to WEB2086. These results indicate that although both agonists and inverse agonists induce receptor PAFR down-regulation, this may be accomplished through different signal transduction and trafficking pathways.     

Blockades of phospholipase A(2) and platelet-activating factor receptors reduce the hemocyte phagocytosis in Rhodnius prolixus: in vitro experiments

The hemocytes phagocytosis in response to microorganisms may play an important role in the cellular immune responses of insects. Here, we have evaluated the effects of the platelet-activating factor (PAF) and eicosanoids in the phagocytosis of hemocyte monolayers of Rhodnius prolixus to the yeast Saccharomyces cerevisiae. Experiments showed that the phagocytosis of yeast cells by Rhodnius hemocytes is very efficient in both controls and cells treated with PAF and arachidonic acid. Phagocytosis of yeast particles is significantly blocked when the specific phopholipase A(2) inhibitor, dexamethasone, is applied on the hemocytes. By contrast, dexamethasone-pretreated hemocyte monolayers exhibit a drastic increase in the quantity of yeast cell-hemocyte internalization when the cells are treated by arachidonic acid. In addition, phagocytosis presents significant reduction in hemocyte monolayers treated with a specific PAF receptor antagonist, WEB 2086. Nevertheless, inhibition of phagocytosis with WEB 2086 is counteracted by the treatment of the hemocyte monolayers with PAF. In conclusion, phagocytosis of yeast cells by hemocytes is related to the activation of PAF receptors and eicosanoid pathways in the bloodsucking bug, R. prolixus.     

A PAF antagonist blocks antigen-induced airway hyperresponsiveness and inflammation in sheep

We studied the effects of WEB-2086, a specific antagonist of platelet-activating factor (PAF), on the development of antigen-induced airway hyperresponsiveness and inflammation in sheep (n = 8). For these studies, airway responsiveness was determined from slopes of carbachol dose-response curves (DRC) performed at base line (prechallenge) and 2 h after Ascaris suum antigen challenges in the following three protocols: 1) antigen challenge alone (control trial), 2) WEB-2086 (1 mg/kg iv) given 30 min before antigen challenge (WEB pretreatment), and 3) WEB-2086 given 2 h after antigen challenge, immediately before the postchallenge DRC (WEB posttreatment). Airway inflammation was assessed by bronchoalveolar lavage (BAL) before antigen challenge and after the postchallenge DRC for each trial. A. suum challenge resulted in acute increases in specific lung resistance that were not different among the three trials. Antigen challenge (control trial) caused a 93% increase (P less than 0.05) in the slope of the carbachol DRC when compared with the prechallenge value. WEB pretreatment (1 mg/kg) reduced (P less than 0.05) this antigen-induced hyperresponsiveness, whereas pretreatment with a 3-mg/kg dose completely prevented it. WEB posttreatment was ineffective in blocking this hyperresponsiveness. BAL neutrophils increased after antigen challenge in the control trial and when WEB-2086 was given after antigen challenge (P less than 0.05). Pretreatment with WEB-2086 (1 or 3 mg/kg) prevented this neutrophilia. This study provides indirect evidence for antigen-induced PAF release in vivo and for a role of endogenous PAF in the modulation of airway responsiveness and airway inflammation after antigen-induced bronchoconstriction in sheep.     

Pro-inflammatory response of alveolar macrophages induced by sulphite: studies with lucigenin-dependent chemiluminescence

Alveolar macrophages (AM) were studied for their capability to release mediators involved in modulation of neutrophil (PMN) functions. Initial responses were induced by sulphite. Supernatants obtained from canine, human and rat AM pre-treated with sulphite in concentrations of 0.1–2 mmol/L enhanced the respiratory burst of canine, human and rat PMN, measured by lucigenin-dependent chemiluminescence (CL). This PMN-stimulating activity exhibited platelet-activating factor (PAF)-like properties, as indicated by desensitization of the PAF receptor, inhibition with PAF antagonists WEB 2086 and CV 3988, and the kinetic CL response like PAF after chloroform extraction of supernatants inhibitable by PAF antagonist CV 3988. These results indicate that AM are triggered by sulphite to release mediators that activate the respiratory burst of PMN, primarily via the PAF receptor. © 1998 John Wiley & Sons, Ltd.