Specific binding of phospholipid platelet-activating factor by human platelets

The binding of the phospholipid platelet-activating factor 1-O-hexadecyl-2-acetyl-sn-glycero-3-phosphorylcholine (AGEPC) to washed human platelets was more than 80% complete within 2 min, which coincided with the time of initiation of platelet aggregation by AGEPC. Scatchard plot analysis of the binding of [3H]AGEPC to platelets without and with an excess of unlabeled AGEPC revealed two distinct types of binding sites. One platelet site for AGEPC exhibited a high affinity (KD = 37 +/- 13 nM, mean +/- SD), was saturable, and had a low maximal capacity of 1399 +/- 498 (mean +/- SD) molecules of AGEPC/platelet. The other platelet site demonstrated a nearly infinite binding capacity, consistent with nonreceptor uptake of AGEPC into cellular structures. The specificity of the high-affinity binding site for AGEPC was assessed by comparing the capacity of several analogues of AGEPC to inhibit the binding of [3H]AGEPC to platelets and to induce platelet aggregation. An ether linkage in position 1, a short-chain fatty acid in position 2, and a choline moiety in the polar head group proved to be critical both for the binding of [3H]AGEPC to platelets and for the initiation of platelet aggregation. Exposure of platelets to AGEPC for 5 min at 37 degrees C functionally deactivated the exposed platelets to subsequent stimulation by AGEPC, as assessed by diminished aggregation, and concomitantly reduced the specific binding of [3H]AGEPC. Evaluation of the time course of the events of deactivation revealed the loss of an aggregation response to AGEPC after 90 sec at 37 degrees C, despite the retention of up to 50% of the specific binding sites for AGEPC.     

Uptake of nickel(II) by human peripheral mononuclear leukocytes

Dithiocarbamate-mediated nickel(II) uptake by human peripheral mononuclear leukocytes (mostly lymphocytes) was examined. The lipophilic ligands diethyldithiocarbamate (DDC) and ammonium pyrrolidinedithiocarbamate (APDC) enhanced the cellular association of nickel(II), while ammonium dithiocarbamate (AD) had no effect. Sequential incubations (ligand first followed by nickel(II)) and concurrent experiments (simultaneous exposure) yielded similar results. Cell fractionation studies showed that DDC promoted cytosolic accumulation of nickel(II), rather than in the residual cell pellet. The observations reported are interpreted in terms of the "Equilibrium" model of metal-ion uptake by cells proposed by Professor Williams. Although nickel(II) transformed lymphocytes in vitro from an individual with dermal manifestation of nickel sensitivity to lymphoblasts, there was no apparent difference in nickel(II) uptake capacity over lymphocytes from nonsensitized controls.     

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

Human neutrophilic polymorphonuclear leukocytes (PMN) stimulated with N'-formyl-methionyl-leucyl-phenylalanine (FMLP) in the presence of cytochalasin B but in the absence of human serum albumin (HSA) synthesized only small amounts of platelet-activating factor (PAF) that attained maximum levels within 60-120 s after stimulation; in addition, no release of PAF occurred. However, in the presence of 2.5 mg HSA/ml, there was a threefold increase in PAF synthesis, 30-40% of which was released within 5 min after FMLP stimulation. In the presence of 50 mg HSA/ml there was at least a fourfold increase in PAF synthesis and release, with maximal synthesis occurring 10-20 min after stimulation. Thus, the presence of HSA during PMN stimulation not only induced an albumin dose-dependent increase in PAF release but significantly augmented the synthesis of PAF. In contrast to PAF synthesis and release, the presence or absence of HSA had no effect upon lysosomal enzyme secretion from FMLP-stimulated PMN, which was maximal within 30-60s after stimulation. These results demonstrate that HSA plays an essential role in vitro in the synthesis and release of PAF from human PMN, and support the hypothesis that there is a cyclic PAF synthesis-release coupling mechanism in the stimulated human PMN.     

Platelet-activating factor (PAF) receptor antagonists inhibit mitogen-induced human peripheral blood T-cell proliferation

The addition of L-652,731 and L-653,150, two synthetic PAF-specific receptor antagonists, to 72 hour cultures of phytohemagglutinin (PHA)-stimulated human peripheral blood mononuclear leukocytes (PBML) caused a dose-dependent inhibition of (3H)-thymidine incorporation into T-cells (IC50: 25 microM and 3.2 microM, respectively). This inhibition was not reversed by exogenous interleukin (IL)-1 and IL-2. PAF receptor antagonists did not affect the expression of IL-2 receptors (TAC-antigen) on T-cells. Exogenous PAF which by itself had no significant effect on PHA-stimulated PBML proliferation, only partially reversed the inhibition of proliferation caused by PAF receptor antagonists. These results may suggest the involvement of endogenously produced PAF in the regulation of immune reactions.     

Simple and rapid measurement of platelet-activating factor (PAF) in whole blood.

A simple assay of platelet-activating factor (PAF) in whole blood was developed, employing acetone extraction and thin layer chromatography (TLC) purification of blood sample. The activity of acetylhydrolase present in blood sample was almost completely suppressed by ice-cold acetone extraction, and other inhibitory substances interfering the activity of PAF were effectively removed from the acetone extract by TLC. Then, the treated samples were subjected to a conventional PAF bioassay using rabbit platelets. The recovery rate of PAF by the above procedure was constant and feasible (46-48%). The lower limit of the present assay was estimated to be 1.0 x 10(-10) M. Employing the present method, it was able to determine the amount of PAF in blood (1.2-6.0 x 10(-10) M) of 6 out of 14 septic patients, while no significant PAF activity was detected in the samples from 6 healthy subjects. These results indicate a potential application of the present method in the clinical assay of PAF in blood.     

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.     

Existence of endogenous inhibitors of platelet-activating factor (PAF) with PAF in rat uterus

Two kinds of phospholipids in normal rat uterus were found to inhibit the aggregation of washed rabbit platelets induced by 1-alkyl-2-acetyl-sn-glycero-3-phosphocholine (alkylacetyl-GPC) and were named Inhibitor I and Inhibitor II and identified by mass spectrometry. Inhibitor I was a mixture of 1-acyl (16:0, 18:0, 18:1, 18:2, and 20:4)-2-lyso-sn-glycero-3-phosphocholine (acyllyso-GPC) and 1-alkyl (16:0, 18:0, and 18:1)-2-lyso-sn-glycero-3-phosphocholine (alkyllyso-GPC). 16:0 acyllyso-GPC was the most inhibitory, followed by 18:1, 18:2, 20:4, and 18:0 acyllyso-GPCs and 16:0 alkyllyso-GPC. Their IC50 values were in the range of 1-4 X 10(-5) M against the platelet aggregation induced by 1 X 10(-10) M 16:0 alkylacetyl-GPC, indicating that they were about 100 times weaker inhibitors than CV-3988. Inhibitor II was a mixture of N-acyl sphing-4-enyl phosphocholine (18:1/18:0, 18:1/20:0, 18:1/24:0, and 18:1/24:2). The most inhibitory of these components were 18:1/20:0 and 18:1/24:0, followed by 18:1/24:2 and 18:1/18:0, and their IC50 values were in the range of 4-5 X 10(-5) M against platelet aggregation induced by the alkylacetyl-GPC. Quantitatively, about 10(5) times higher concentrations of these inhibitors should be necessary to inhibit platelet aggregation induced by 1 X 10(-10) M 16:0 alkylacetyl-GPC. In fact, the contents of Inhibitors I and II, respectively, were approximately 10(5) times (4.7 X 10(-2) and 7.1 X 10(-2) mol/mol lipid-phosphorus of the original uterine phospholipids) than that of 16:0 alkylacetyl-GPC (1.4 X 10(-6) mol/mol lipid-phosphorus). The role of alkylacetyl-GPC in normal rat uterus is uncertain, but it coexists in situ with two kinds of endogenous inhibitors, choline containing lysoglycerophospholipids and sphingophospholipids.     

Immunofluorescent localization of platelet-activating factor (PAF) in the rat

Summary An immunofluorescent staining method for detecting platelet-activating factor (PAF) is described. This method employs a polyclonal anti-PAF rabbit antibody. When rat brain, heart, lung, liver or kidney tissue was stained using this method, the heart, lung and kidney exhibited PAF-specific staining. Analysis of the amount of PAF in different organs, either by immunofluorescence or by bioassay, showed that kidney tissue contains the greatest amount of PAF.     

Soluble suppressor factor produced by pokeweek mitogen-stimulated human peripheral blood leukocytes

Human peripheral blood leukocytes were exposed to either PWM or Con A mitogens. Cells activated by both these mitogens were able to depress proliferation in an MLC, and to inhibit the generation of spontaneous killer cell (SK) and induced T-cell cytotoxic activity. PWM-activated cells incubated in media for 48 hr were able to elaborate a soluble factor in vitro. This factor suppressed cytotoxicity, and was active only when present at the initiation of MLC cultures. In contrast, cells exposed to Con A were able to suppress immune responsiveness, but this population did not release a soluble factor which could inhibit cytotoxicity. PWM induction appears to be dependent on phagocytic cells, while Con A activation is less dependent on this adherent population. An enriched adherent cell population, stimulated with PWM, was able to suppress cytotoxicity. Thus, the PWM-stimulated system of suppression is mediated through a soluble factor and is dependent on adherent cells.     

Molecular heterogeneity of platelet-activating factor produced by stimulated human polymorphonuclear leukocytes

The molecular heterogeneity of platelet-activating factor (PAF) produced by stimulated human neutrophilic polymorphonuclear leukocytes (PMN) was assessed by both normal and reverse phase high performance liquid chromatography (HPLC). As detected by rabbit platelet stimulation, at least 5 PAF molecules were separated by HPLC. Fast atom bombardment (FAB) mass spectrometry revealed one of these PAFs was acetyl glyceryl ether phosphorylcholine (AGEPC) with a C_16:0 alkyl chain in the $\text{sn}$-1 position. Although the structures of the remaining PAFs are unknown, two of the peaks of PAF activity had the same retention times on reverse phase HPLC as the C₁₅- and C₁₈-saturated alkyl chain AGEPC homologues. These studies indicate that the human PMN produces multiple molecular species of PAF.     

Release, purification, and characterization of platelet-activating factor (PAF)

Platelet-activating factor (PAF) is a phospholipid mediator, released by basophils, macrophages and neutrophils under immunological and non immunological stimuli. It aggregates platelets and liberates their vasoactive contents. We studied the "spontaneous" release of PAF from hog blood leukocytes : optimal conditions were 22 degrees C, pH 9.5 in BSA and Ca2+-containing Tyrode's. This release was inhibited by the Ca2+-chelating agent, EDTA, and by the phospholipase A2 inhibitor, bromophenacyl bromide. Disruption of the cells did not yield PAF, indicating that it is not a "preformed" mediator. A preparative procedure for the extraction and purification of bulk quantities of PAF was developed. Purification was performed by silicic acid columns followed by high pressure liquid chromatography. The active fraction was eluted between sphingomyelin and lysophosphatidylcholine. The PAF purest fractions were still contaminated with these phospholipids as shown by thin layer chromatography and chemical ionization mass spectrometry. PAF activity was not affected by treatment with diazomethane, acetylation or hydrogenation. Our results combined with those obtained from our previous studies of the PAF structure using specific phospholipases indicate that PAF is a glycero-phospholipid devoid of ester function at position 1. This allowed us to establish precise criteria to distinguish PAF from other aggregating agents.     

Synthesis and release of platelet-activating factor by stimulated human mononuclear phagocytes

Platelet-activating factor (PAF) is a potent phospholipid mediator that may participate in inflammatory responses by virtue of its ability to activate platelets, leukocytes, and vascular cells. We examined the synthesis and release of PAF by human peripheral blood monocytes (PBM) isolated by countercurrent elutriation. PAF was produced after stimulation by calcium ionophore A23187 (IoA), opsonized zymosan (OpsZ), and PMA with a relative order of potency IoA much greater than OpsZ greater than PMA. The portion of PAF subsequently released from the cell was dependent on the specific agonist, the time of incubation, and the presence of albumin. Under optimal conditions, PBM released 67, 49 and 32% of the total PAF produced in response to IoA, OpsZ, and PMA, respectively. Changes in PAF metabolism were observed in PBM that were examined after short term adherence or differentiation into macrophages. Adherent PBM accumulated and released less PAF than suspended monocytes, and monocyte-derived macrophages produced less PAF than the parent PBM. The ability of monocytes to release significant amounts of newly synthesized PAF from the cell is unusual among human cell types, which in general retain the vast majority of the lipid, and may be of particular pathophysiologic importance.     

Autoradiographic localization of platelet-activating factor (PAF) binding sites in the rabbit endometrium during the peri-implantation period

Summary This communication describes the use of in-vivo and in-vitro autoradiography to map specific platelet-activating factor (PAF) receptors in the rabbit uterus. Specific [³H]PAF uptake was predominantly localized on epithelial, but not on stromal or myometrial cells. Very few silver grains were associated with the luminal epithelial cells in the uterus of the estrous rabbit, primarily because of the non-differentiated state of the epithelium. In the differentiated pregnant uterus, significantly more [³H]PAF was bound to the glandular epithelial cells, with the stromal cells binding consistently significantly less. The highest density of silver grains was observed at the implantation sites on day 7 of pregnancy. There was no apparent difference in [³H]PAF C18:0 uptake between the epithelial cells at the inter-implantation zone on day 7 and on day 6. Bound [³H]PAF was displaceable by lyso-PAF, U66985, CV3988, but not U66982, L652,731, SRI 63,441 or the inactive PAF isomer, oleoyl PAF. Bovine serum albumin (BSA) significantly inhibited tissue uptake of [³H]PAF C18:0. Intraluminally administered [³H]PAF C18:0 and intravenously injected [³H]methylcarbamyl-PAF, a non-metabolizable PAF analog, penetrated the implanted blastocyst and bound to the embryoblast. This event was reproducible in vitro with pre-implantation blastocysts from day-6 pregnant rabbits, which suggests that uterine-derived PAF may translocate into the blastocyst after attachment.     

Specific binding, internalization, and degradation of human neutrophil activating factor by human polymorphonuclear leukocytes

The interaction of 125I-labeled recombinant human neutrophil activating factor (NAF) with polymorphonuclear leukocytes (PMN) was studied by means of a radioreceptor assay. The binding was characterized by a rapid transition (t1/2 less than or equal to 1 min) from a pH 3-sensitive state at 4 degrees C to pH 3 resistance at 37 degrees C. This was not caused by internalization of NAF since pH 3-resistant bound iodinated NAF could still be exchanged by an excess of nonlabeled NAF, i.e. was dissociable. Internalized iodinated NAF was processed into trichloroacetic acid-soluble forms. Scatchard transformation of binding isotherms at 4 and 37 degrees C led to nonlinear curves, a finding which is consistent with the expression of two receptor populations, one with high (KD = 11-35 pM) and the other with lower affinity (KD = 640-830 pM) at 4 degrees C. Numbers of the low affinity binding sites were approximately 34,000, and those with high affinity were 5,200/PMN when estimated at 4 degrees C. Binding of iodinated NAF to PMN was specific since it could be competed by an excess of nonlabeled NAF but not by two other activators of PMN function, formylmethionyl-leucyl-phenylalanine or human recombinant granulocyte-macrophage colony-stimulating factor. In addition to human PMN, NAF also bound specifically to two human monocytic cell lines; however, only the low affinity binding site could be detected on these cells.     

Occurrence of platelet-activating factor (PAF) in normal rat stomach and alteration of PAF level by water immersion stress

We detected platelet-activating substance in gastrointestinal areas, which was confirmed to be platelet-activating factor (PAF) on the basis of the following findings: 1) it comigrated with authentic PAF on thin-layer chromatography; 2) it did not aggregate PAF-desensitized platelets; and 3) its activity was completely antagonized by the receptor antagonists CV3988 and L-652,731. The level of PAF was determined with a bioassay method based on the release of [3H]serotonin from washed rabbit platelets. In the normal rat stomach, the level of PAF was high in the antrum (940 +/- 200 nmol PAF/mol phosphorus of original phospholipids), especially in the antral mucosa (1801 +/- 426 nmol/mol phosphorus of original phospholipids). The stomach PAF level was significantly altered by water immersion stress. Stress for a period of 1 h was associated with a decrease in the antral PAF level to 39 +/- 7% of that of untreated controls. This low PAF level persisted during stress. On the other hand, in the corpus, stress for periods of 1 and 3 h was associated with decreases in the PAF content, and further stress (7 h) resulted in restoration of the PAF level to normal. Furthermore, 7 h of stress was associated with distinct hemorrhagic lesions, which were prevented by CV3988 infused i.v. before the stress. This is the first report of an association between a decrease of the endogenous PAF level in animal tissues and tissue damage.     

Hypotensive actions of some analogues of platelet-activating factor (PAF) with higher potencies than natural PAF

Substituents on the nitrogen atom of the phosphorylcholine moiety of natural C16 platelet-activating factor (PAF) were modified or replaced by more bulky groups, and their hypotensive activities were examined with rats. As a result, it was found that N-methylpiperidine and N-methylpyrrolidine analogues were 3-10 times more potent than natural C16-PAF.