PAF antagonists: different effects on platelets, neutrophils, guinea pig ileum and PAF-induced vasodilation in isolated rat lung

The effects of structurally different PAF receptor blockers were investigated in platelets, neutrophils, guinea pig ileum, rat isolated lung and rat isolated pulmonary artery. PAF caused serotonin release from platelets and a characteristic shape change and adhesion of neutrophils. The antagonists (CV 3988, alprazolam, 48740 RP and Merck-Sharp and Dohme L-652, 731) inhibited platelet serotonin release but not neutrophil shape change adhesion or lysosomal enzyme release. The antagonists in high concentrations (10(-5)-10(-4)M) inhibited nonspecifically the PAF-induced (10(-8)M) guinea pig ileum contraction, but were ineffective at concentrations which inhibited platelet responses. In the rat lung the compounds, in high concentrations, partially inhibited the low dose PAF-induced pulmonary vasodilation and the high dose PAF induced pulmonary vasoconstriction and edema. Our data indicate that some platelet PAF antagonists may be ineffective in blocking the action of PAF on neutrophils and smooth muscle preparations and suggest either PAF-receptor independent actions of PAF or different classes of PAF receptors.     

Effects of antiplatelet agents on platelet aggregation induced by platelet--activating factor (PAF) in human whole blood.

Impedance aggregometry was used to evaluate the potency of anti-platelet agents on Platelet Activating Factor (PAF)--induced platelet aggregation in citrated human whole blood. Drugs were tested for ability to inhibit maximum aggregation to PAF. Dose response curves were obtained and the concentration of drug producing 50% inhibition of maximum aggregation (ED50) determined. ED50's (microM) for specific PAF antagonists WEB 2086, Ro 19-3704, FR-900452, BN 52021, L-652,731, CV 3988, WEB 2118 and 48740 RP are: 0.39, 2.4, 4.7, 19.5, 21.0, 5.32, 161.0, 924.0, respectively. ED50's for non-specific PAF antagonists, diltiazem, propranolol, ketotifen, procaine HCL, and lidocaine HCL are: 38.0, 56.0, 250.0, 513.0 and 768.0, respectively. Ibuprofen was inactive at 2300 microM. Results are consistent with concept that there are specific receptors on platelets mediating PAF-induced aggregation in whole blood. Aggregation is inhibited potently by specific and competitive PAF receptor antagonists. Whole blood aggregometry may be a valid method for predicting in vivo activity of PAF antagonists.     

PAF antagonists: different effects on platelets, neutrophils, guinea pig ileum and PAF-induced vasolidation in isolated rat lung

The effects of structurally different PAF receptor blockers were investigated in platelets, neutrophils, guinea pig ileum, rat isolated lung and rat isolated pulmonary artery. PAF caused serotonin release from platelets and a characteristic shape change and adhesion of neutrophils. The antagonists (CV 3988, alprazolam, 48740 RP and Merck-Sharp and Dohme L-652, 731) inhibited platelet serotonin release but not neutrophil shape change adhesion or lysosomal enzyme release. The antagonists in high concentrations (10⁻⁵ −10⁻⁴M) inhibited nonspecifically the PAF-induced (10⁻⁸M) guinea pig ileum contraction, but were ineffective at concentrations which inhibited platelet responses. In the rat lung the compounds, in high concentrations, partially inhibited the low dose PAF-induced pulmonary vasodilation and the high dose PAF induced pulmonary vasoconstriction and edema. Our data indicate that some platelet PAF antagonists may be ineffective in blocking the action of PAF on neutrophils and smooth muscle preparations and suggest either PAF-receptor independent actions of PAF or different classes of PAF receptors.     

The accumulation of platelet activating factor in the injured cornea may be interrelated with the synthesis of lipoxygenase products

The rabbit cornea accumulates platelet activating factor (PAF) three hrs after alkali burn. PAF was isolated by HPLC and assayed by platelet aggregation. This bioactivity was blocked by the PAF receptor antagonists BN 52021 and alprazolam. Added PAF increases the chemiluminescence response of the cornea in vitro and BN 52021 inhibits this effect. In vivo experiments show that the synthesis of 5-HETE and 12-HETE is inhibited by the PAF antagonist BN 52021. It is concluded that a metabolic interrelationship may exist between the PAF cycle and the lipoxygenation of arachidonic acid, and that drugs that affect these lipid mediators may modulate the inflammatory response of the anterior segment of the eye.     

Human endothelial cells are target for platelet-activating factor. I. Platelet-activating factor induces changes in cytoskeleton structures

Platelet-activating factor (PAF), but not its deacetylated and biologically inactive metabolite lyso-PAF, in a dose dependent-manner (0.1 to 10 nM), induces human endothelial cells (EC) in culture to change their shape. EC retract and tend to lose reciprocal contact, whereas the distribution of stress fibers is changed and the cells tend to assume a migratory phenotype. The normal localization of vinculin at streaks corresponding to adhesion plaques and located at stress fiber endings is mostly lost and replaced by diffuse distribution of this protein related to the cell-substratum adhesion complex. The effects of PAF are appreciable after 10 min, become maximal after 30 min, and are fully reversible. The disappearance of F-actin in stimulated EC was analyzed by measuring the fluorescence of the cells after staining with fluorosceinated phalloidin, PAF, but not lyso-PAF and the enantiomer of PAF ([S] form), decreases in a time- and concentration-dependent fashion the fluorescence of the cells stained with fluoresceinated phalloidin. EC grown on fibronectin-coated polycarbonate filters restrict the diffusion of 125I-albumin; PAF promotes 125I-albumin diffusion with a concentration dependency similar to that for the PAF-induced cytoskeleton changes. Four different PAF-receptor antagonists belonging to four different series, CV-3988 (PAF-related framework), BN52021 (a natural terpenoid), BN53013 (a natural lignan) and 48740 RP (a synthetic antagonist) prevent the alteration induced by PAF. These findings, coupled to the lack of effect of the enantiomer of PAF ([S] form), support the existence of a specific mechanism of PAF-mediated activation of EC, most probably mediated by a putative receptor. These results explain part of the PAF mechanism of action in inducing the increase of vascular permeability in vivo.     

Effect of cyclosporin A and the platelet-activating factor (PAF) antagonist, BN 52021, on PAF- and antigen- induced bronchoconstriction in the guinea-pig

The effects of the PAF antagonist, BN 52021, and cyclosporin A (CsA), either alone or in combination, on PAF- and antigen- induced bronchoconstriction were investigated in control and passively sensitized guinea-pigs, respectively. Although single administration of CsA alone has no effect on the PAF-induced bronchoconstriction, a marked inhibition of this phenomenon is observed when the drug is given along with an inactive dose of BN 52021. This effect of the association of the two drugs on the bronchoconstriction is also related to an action on the PAF-induced alterations in the number of leukocytes and platelets. In addition, administration of CsA for 48 hrs, which alone does not influence PAF-induced bronchoconstriction, markedly increases the inhibition evoked by BN 52021. Although bolus administration of CsA has no effect on the antigen -induced bronchoconstriction, a marked inhibition of this phenomenon is observed when the drug is given for 2 days. This inhibition by CsA is not further enhanced when the animals are also treated with BN 52021. These results strengthen the hypothesis that PAF and the immune system are involved in the regulation of bronchopulmonary reactions.     

The effect of platelet-activating factor and its antagonist--BN 52021--on immune reactions in vivo in mice and in vitro

The effect produced by the injection of platelet activation factor (PAF) and its antagonist BN 52021 on the intensity of humoral immune response in (CBA x C57BL)F1 mice was studied. PAF was found to stimulate the formation of antibodies to sheep red blood cells. In addition PAF stimulated the phagocytic activity of mouse peritoneal macrophages. The stimulation of immune response under the action of PAF may be attributed to an increase in the phagocytic activity of macrophages. The stimulating effect of PAF on immune response in vivo was abolished by the injection of BN 52021, the antagonist of PAF. At the same time the dose-dependent decrease of immune response was observed after the injection of BN 52021. Indomethacin, an inhibitor of prostaglandin synthesis, when administered to mice treated with BN 52021, abolished the BN 52021-induced suppression of humoral immune response. Mouse peritoneal macrophages, treated in vitro with BN 52021, were found to produce significantly more prostaglandin E than control macrophages. Thus, BN 52021 induced the suppression of humoral immune response in vivo; this suppression was probably due to the action of prostaglandin E2, a messenger of the second order. Besides, the PAF antagonist BN 52021 significantly decreased leukotriene B4 production by macrophages in vitro. BN 52021 may be supposed to switch over the synthesis and/or secretion of arachidonic acid from the lipoxygenase pathway to the cycloxygenase one.     

Inhibition by BN 52021 (ginkgolide B) of the binding of [3H]-platelet-activating factor to human neutrophil granulocytes

The inhibitory effect of BN 52021, a specific antagonist of platelet-activating factor (PAF) on PAF-induced activation of human polymorphonuclear granulocytes (PMNL) and on the binding of [3H]-PAF to neutrophils were examined. BN 52021 over the range of 10(-9)-10(-4) M inhibited PAF-induced degranulation and superoxide production of PMNLs in a dose-dependent manner with Kd values of 0.6 +/- 0.1 x 10(-6) M and 0.4 +/- 0.1 x 10(-6) M, respectively. BN 52021 (up to 1 mM) did not show any agonistic activity and it did not affect neutrophil responses to N-formyl-methionyl-leucyl-phenylalanine or leukotriene B4. The Ki value of BN 52021 for the specific binding of [3H]-PAF to neutrophils was 1.3 +/- 0.5 x 10(-6) M versus a Ki of 1.1 +/- 0.3 x 10(-7) M for PAF itself. BN 52021 did not affect metabolism of PAF by PMNL. These studies indicate that BN 52021 inhibits neutrophil responses to PAF by inhibiting binding of PAF to its specific PMNL receptor.     

Platelet activating factor-induced neuronal apoptosis is initiated independently of its G-protein coupled PAF receptor and is inhibited by the benzoate orsellinic acid

The bioactive lipid mediator platelet activating factor (PAF) is recognized as a key effecter of neuronal apoptosis, yet it is not clear whether its G-protein coupled receptor (PAFR) initiates or prevents PAF neurotoxicity. Using PAFR-/- and congenic wild-type mice, we show that PAF triggers caspase-3/7 activity and neuronal death in PAFR-/- but not PAFR+/+ cerebellar granule neurons. Restoring receptor expression by recombinant adenoviral infection protected cells from PAF challenge. Neuronal death was not mediated by nitric oxide or N-methyl-d-aspartate receptor signaling given that N-nitro-l-arginine methyl ester and MK-801 did not inhibit PAF-induced neuronal loss in PAFR-/- neurons. To intervene in PAFR-independent neurotoxicity, the anti-apoptotic actions of three structurally distinct PAF antagonists were compared to a panel of plant and fungal benzoic acid derivatives. We found that the PAF antagonist BN 52021 but not FR 49175 or CV 3988 inhibited PAFR-independent neurotoxicity. Orsellinic acid, a fungal-derived benzoic acid, blocked PAF-mediated neuronal apoptosis without affecting PAFR-mediated neuroprotection. These findings demonstrate that PAF can transduce apoptotic death in primary neurons independently of its G-protein coupled receptor, that PAFR activation is neuroprotective, and that orsellinic acid effectively attenuates PAFR-independent neuronal apoptosis.     

Pharmacologic profile of BN 50739, a new PAF antagonist in vitro and in vivo

The effect of a new PAF antagonist BN 50739 was studied on PAF-induced [3H]-serotonin release from washed rabbit platelets in vitro and on PAF-induced hypotension in vivo. BN 50739 competitively inhibited PAF-induced [3H]-serotonin release from the platelets in a dose-dependent manner. In the presence of 4, 10 and 50 nM of BN 50739, the concentration of PAF inducing 50% maximal [3H]-serotonin release from the platelets (EC50) increased from 2.15 nM to 5.10, 45.10 and 900 nM, respectively. The IC50 of BN 50739 for PAF (10 nM) induced [3H]-serotonin release was 3.67 nM. Under the same experimental condition, the IC50s of BN 50726, BN 50730, BN 50741, WEB 2086, SRI 63-441 and BN 52021 were 5.40, 4.61, 6.88, 5.98, 40.90 nM and 14.90 microM, respectively. PAF-induced hypotension in conscious rats was also inhibited dose-dependently by i.p. pretreatment of BN 50739 (3 and 10 mg/kg). PAF-induced hypotension was diminished both in magnitude and duration in rats pretreated with BN 50739. These data taken together indicate that BN 50739 is a most potent PAF antagonist in vitro and in vivo.     

Role of platelet-activating factor (PAF) in the initiation of the decidual reaction in the rat

Injection of PAF into the left uterine horn induced a dose-dependent decidua-like reaction in the pseudopregnant rat. This reaction was maximal when PAF was injected at Day 5 of pseudopregnancy and was blocked by the specific PAF antagonist, BN 52021. BN 52021 did not interfere with the decidual reaction induced by prostaglandin E-2 or insertion of a cotton thread in the uterine horn. In contrast, a decidua-like reaction was not evoked by the inactive lyso-PAF, demonstrating the specificity of the action of PAF. The decidua-like reaction induced by PAF involves the generation of cyclooxygenase metabolites of arachidonic acid since it was inhibited by indomethacin. The histological alterations induced by PAF were similar to those observed after embryo implantation, strengthening the postulate for a role of the autacoid in the early stages of pregnancy.     

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.     

Inhibition of NO-synthase and degranulation of rat omental mast cells in vitro

Mast cell amines, platelet-activating factor (PAF), thromboxanes and leukotrienes have been shown to be released during nitric oxide-synthase inhibition in the rat intestine. Mast cells in rat isolated omentum (OMCs) or isolated from the rat peritoneal cavity (PMCs) have been used here to investigate the relationship(s) between these agents. N-nitro-L-arginine methyl ester (L-NAME, 100 muM) caused some degranulation of OMCs, but no enhancement of histamine release from PMCs. PAF (5 muM) and U46619 (1 muM) degranulated OMCs and enhanced histamine release from PMCs. Pre-treatment of the omentum with BN52021 (10 muM) inhibited degranulation of OMCs in response to L-NAME, PAF or U46619. Pretreatment with 1-benzylimidazole (5 or 50 muM) inhibited the effect of L-NAME but not that of PAF. Indomethacin (1 muM) or sodium nitroprusside (10 muM) also inhibited the effects of L-NAME, but nordihydroguaiaretic acid (30 muM) did not. In PMCs BN52021 inhibited PAF-induced, but not U46619-induced, release of histamine. These results suggest that inhibition of nitric oxidesynthase in the omentum by L-NAME allows thromboxanes to release PAF, which in turn degranulates and releases histamine from OMCs.     

Effects of platelet activating factor (PAF) and its receptor antagonist BN 52021 on isolated perfused guinea-pig heart

The cardiac effects of PAF and its antagonist BN 52021 have been investigated on the isolated perfused guinea-pig heart maintained at a constant hydrostatic perfusion pressure of 80 cm water. In this model, PAF (1 x 10(-11) to 1 x 10(-7) moles) induced a dose-dependent coronary vasoconstriction, a decrease in heart rate and a fall in contractile force. BN 52021 (1 x 10(-6) to 2 x 10(-4) M) dose-dependently inhibited the vasospasm induced by PAF (1 x 10(-10) moles). BN 52021 also antagonized the decrease in coronary flow and heart rate, but not that of contractile force induced by a high dose of PAF (1 x 10(-7) moles). This dose of PAF also significantly (p less than 0.001) provoked a marked release of TxB2 but did not alter the generation of 6 Keto PGF1 alpha, PGE2 or LTC4. The PAF-induced increase in TxB2 release was completely abolished by BN 52021.     

A study with BN 52021 demonstrates the involvement of PAF-acether in IgE-dependent anaphylactic bronchoconstriction

The involvement of platelet activating factor (PAF) in anaphylaxis was examined by recording the pulmonary responses of anesthetized passively sensitized guinea-pigs to the aerosolization of ovalbumin. Animals were tested with and without BN 52021 (a ginkgolide B, PAF receptor antagonist) pretreatment. Aerosolization of ovalbumin produced a bronchoconstriction (BC) which could be made refractory to additional challenges with the antigen. In animals desensitized to ovalbumin, aerosolization of PAF produced an unattenuated BC. Guinea pigs desensitized by repeated aerosolizations of PAF subsequently showed reduced responses to aerosolized antigen suggesting that PAF may be involved in the BC. Animals pretreated with BN 52021, were protected against the effects of systemically administered PAF and also showed reduced responses to aerosolized antigen. Aerosolization of the leukotriene antagonist, FPL 55712, was ineffective against anaphylactic BC under conditions where catecholamine and histamine release were blocked.     

A study with BN 52021 demonstrates the involvement of PAF-acether in IgE-dependent anaphylactic bronchoconstriction

The involvement of platelet activating factor (PAF) in anaphylaxis was examined by recording the pulmonary responses of anesthetized passively sensitized guinea-pigs to the aerosolization of ovalbumin. Animals were tested with and without BN 52021 (a ginkgolide B, PAF receptor antagonist) pretreatment. Aerosolization of ovalbumin produced a bronchoconstriction (BC) which could be made refractory to additional challenges with the antigen. In animals desensitized to ovalbumin, aerosolization of PAF produced an unattenuated BC. Guinea pigs desensitized by repeated aerosolizations of PAF subsequently showed reduced responses to aerosolized antigen suggesting that PAF may be involved in the BC. Animals pretreated with BN 52021, were protected against the effects of systematically administered PAF and also showed reduced responses to aerosolized antigen. Aerosolization of the leukotriene antagonist, FPL 55712, was ineffective against anaphylactic BC under conditions where catecholamine and histamine release were blocked.     

On the Modeling of Some Anti-inflammatory and Anti-thrombotic Drugs by AM1

Two families of autacoids from cell membrane phospholipids have been identified. The first, the icosanoids, which are formed from arachidonic acid, include prostaglandins and leukotrienes. The other includes modified phospholipids, as the platelet aggregating factor (PAF). These compounds are related to inflammatory and cardiovascular diseases. We review in this paper some of the work that has been done in our laboratories in the last few years relating to the modeling of new potential thromboxane synthase (TXS) and 5-lipoxygenase (5-LO) and cyclooxygenase (COX) inhibitors, and TXA₂ receptor antagonists derived from nitrogenated heterocycles. We include the results of the modeling of a group of proposed PAF antagonists, and compare their structures with PAF itself and with a recently proposed PAF antagonist model. This revised version was published online in June 2006 with corrections to the Cover Date.     

The effects of platelet-activating factor on flow rate and eicosanoid release in the isolated perfused rat gastric vascular bed

In the isolated rat stomach perfused via the vasculature in situ under constant pressure bolus injections of platelet-activating factor (PAF, 3, 16, or 50 ng) induced dose-dependent, long-lasting reductions of flow rates and simultaneously significant increases in the release of cysteinyl-leukotrienes (cys-LT), thromboxane (TX) B₂ and 6-keto-prostaglandin (PG) F_1α. Reversed phase high pressure liquid chromatography demonstrated the release of a mixture of comparable amounts of LTC₄, LTD₄ and LTE₄ by PAF. Inhibition of cys-LT sythesis by the lipoxygenase inhibitors nordihydroguaiaretic acid (NDGA) and L-651, 896 did not significantly affect PAF-induced flow reduction indicating that endogenous cys-LT are of minor importance for the PAF effect on gastric vascular flow. This conclusion is supported by the fact that the cys-LT receptor antagonist FPL 55712 in a concentration (1 × 10⁻⁶ M) that completely antagonized gastric flow reduction by exogenous LTC₄ (1 × 10⁻⁷ M) had no effect on the PAF-induced reduction of flow. The cyclooxygenase inhibitor indomethacin aggravated the PAF-induced flow reduction suggesting that the endogenous vasodilator PGI₂ might act as a functional PAF antagonist in the rat gastric vascular bed. In contrast to FPL 55712 the PAF antagonist BN 52021 significantly and concentration-dependently antagonized the PAF effect on gastric vascular flow. The results demonstrate that PAF and LTC₄ induce flow reductions in the rat gastric vascular bed by activating different receptors and that endogenous eicosanoids released by PAF do not contribute significantly to the PAF effect on gastric vascular flow.     

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.     

Involvement of platelet-activating factor (PAF) in cerebral post-ischemic phase in Mongolian gerbils

Platelet-activating factor (PAF) is a potent mediator of anaphylaxis and shock. In addition, evidence for PAF participation in gastric, intestinal and heart post-ischemic phase has been recently demonstrated. Ginkgo biloba extracts improve cerebral metabolism and protect brain against hypoxic damage in various models of cerebral ischemia. Potent and specific antagonists of PAF have been found in Ginkgo biloba and termed Ginkgolides: BN 52020, BN 52021, BN 52022, BN 52024. We therefore undertook the investigation of the role of Ginkgolides in cerebral ischemia obtained by bilateral ligature of the common carotid for 10 min and 6 h of recirculation in male Mongolian adult gerbils. Given preventively (one week treatment 10 mg/kg/day orally) or at the time of clamping, BN 52021 and related Ginkgolides dose-dependently antagonize morbidity assessed by the stroke-index. Similarly the mitochondrial respiration evaluated by the respiratory control ratio is significantly improved. In both determinations, the range of activity: BN 52021 greater than, BN 52020 greater than BN 52022 greater than BN 52024 shows that the effect of Ginkgolides in cerebral ischemia are correlated with their PAF antagonistic properties. Given curatively, 1 h after declamping, BN 52021 is able to reverse the cerebral impairment trend. Kadsurenone and brotizolam, two other chemically unrelated PAF antagonists led to similar recovery. Therefore PAF appears to play an important role in the post-ischemic phase after bilateral carotid ligation in Mongolian gerbils.