Studies on the surface properties of human lymphocytes by photon correlation spectroscopy technique

Electrokinetic behaviour of human lymphocytes was studied by photon correlation spectroscopy technique on laser IR-spectrometer. The electrophoretic mobilities (EPMs) were measured for peripheral blood lymphocytes (PBL) and CEM-C12 T cell line in 1:1 electrolyte at 22 degrees C. Plots of mobility vs ionic strength in the range 0.001-0.1 M were compared with theoretical curves calculated from (i) the Smoluchowsky formula, (ii) the simplified form of the Dukhin-Deryaguin equation which takes into account the fact that the mobility decreases due to the relaxation effect and (iii) the equation suggested by Donath and Pastushenko, which takes into account the influence of cell glycoprotein layer (GPL) on the EPM values. It has been found that the first two equations describe the experimental data with the assumption that surface charge density (sigma) decreases and width of the hydrodynamically immobile layer (L) increases with decreasing ionic strength; the relaxation effect turns out to be insignificant for the cell charges and sizes under consideration. In agreement with these findings, the third equation is approximately consistent with experimental data on the condition that GPL is allowed to expand with decreasing ionic strength, with simultaneous decrease of its full charge density (sigma(f)). The results are compared with relevant evidence for erythrocytes. The possible applications of the inferences arrived at in electrophoretic studies of cell behaviour are also discussed.

Modulation of stress proteins by Cd2+ in a human T cell line

We previously showed in a human T cell line (CEM-C12 cells) that Cd2+ induced gene expression of stress proteins, metallothionein-IIA and heat shock protein 70 in a time- and dose-dependent manner. In the present study, CEM-C12 cells were pretreated for 24 h with 1 microM Cd2+ and then challenged with toxic concentrations of this metal. We found that maximal expression of the metallothionein-IIA and heat shock protein 70 genes was increased and this maximal level occurred at higher Cd2+ toxic concentrations. Actinomycin D chase experiments indicated that Cd2+ pretreatment did not modify metallothionein-IIA mRNA stability. The modulatory effect of Cd2+ pretreatment was dose-dependent from 100 pM to 1 microM. Such pretreatment also enhanced resistance to Cd2+ toxicity. Finally, verapamil, a calcium/potassium channel blocker displaced the dose-response curve for Cd2+ toxicity as well as metallothionein-IIA and heat shock protein 70 gene expression to higher Cd2+ concentrations.

Cadmium induces apoptosis in a human T cell line

Cadmium, a potent toxic metal, poses a serious environmental threat but the mechanisms of its toxicity remain unclear. In the present study, we investigated the nature of cadmium-induced cell death in the human T cell line CEM-C12. Cadmium was time- and dose-dependently toxic for CEM-C12 cells, cell death being preceded by chromatin condensation and DNA fragmentation. Quantification of the latter indicated an increase above 4 microM cadmium, with maximal fragmentation at 8 to 10 microM. By contrast, when CEM-C12 cells were exposed to higher cadmium concentrations (50 microM), cell death increased without concomitant chromatin condensation or DNA fragmentation. Thus, cadmium at low and high concentration kills CEM-C12 cells by apoptosis and necrosis, respectively. Addition of cycloheximide reduced the apoptotic effect of cadmium, suggesting that cadmium-induced apoptosis is an process depending on protein synthesis. Verapamil, a calcium/potassium channel blocker, markedly increased the viability of CEM-C12 cells treated by low cadmium concentrations and prevented DNA fragmentation. The apoptotic effect of cadmium suggests a possible mechanism for lymphocyte damage occurring after in vivo exposure to cadmium.

[Development of molecular biomarkers for the detection of nonbiocompatible substances in the environment]

Many difficult issues confront toxicologists. For instance, animal studies have proved to be difficult for the assessment of human toxicity especially to measure directly the impact of low doses of toxic compounds. Recently, novel molecular approaches to cellular mechanisms involved in the response of "toxic stress" has broaden the field of toxicology. Indeed, the development of biological markers capable of detecting exposure to toxicants before a full-blown toxic response is an important current focus of environmental research. Cells from various organisms respond rapidly to toxic stress by altering their metabolic rates, cell growth or gene transcription controlling basic functions. Examples included are oxidative stress conveyed by peroxisomes, stress proteins implicated in protein folding and in detoxification and/or resistance. A number of potential practical applications of the stress response and stress proteins can be envisioned. Stress gene expression may be considered as a potential "biomonitor" to assess whether cells or organisms are experiencing metabolic stress within their environment. Such biological indicators should provide an early, sensitive, readily and measurable response for monitoring the actions of pollutants. In addition, the development of molecular and cellular probes may lead to new classification schemes for toxic compounds based upon various cellular and molecular responses rather than on toxicant structure.

Immunoregulatory functions of paf-acether. IX. Modulation of apoptosis in an immature T cell line

We investigated the ability of a phospholipid cytokine, paf-acether to modulate programmed cell death in an immature human T cell line CEM-C12. Paf-acether alone did not cause cell death, but when it was added to CEM-C12 cells in the presence of calcium ionophore, a marked increase in cell mortality and DNA fragmentation was observed compared with calcium ionophore alone. This effect was dose-dependent between 2 and 10 microM paf-acether and specific in that lysophosphatidylcholine had a minimal effect. Thus, in association with another signal, paf modulates apoptotic processes in an immature human T cell line. This may be relevant to intrathymic lymphocyte maturation.

Regulation of paf-acether receptor expression in human B cells

Paf-acether (paf) is a phospholipid cytokine alloted with potent inflammatory and immunoregulatory properties. Recent reports indicated that in human B cell lines, paf modulated both early and late activation events. In our study, we showed that four of six human B cell lines specifically bound [3H]paf irrespective of the stage of differentiation, the presence of EBV genome or cell surface phenotype. Binding was saturated and fit a one receptor model with a dissociation constant ranging from 1 to 6 nM and a number of sites per cell ranging from approximately equal to 4000 in Rjc13 to approximately equal to 30,000 in Raji or IM9. In addition, our data indicate that 1) maximal expression occurred during the log phase growth; 2) paf itself (10-100 nM) or rIL-4 (100 U/ml) up-regulated by two- to threefold the number of paf binding sites without affecting the affinity. Finally, we found that activated normal B lymphocytes exhibited a higher capacity than resting B cells to incorporate and metabolize [3H]paf at 37 degrees C. Resting B lymphocytes lacked specific binding capacity for paf, yet specific paf receptors were induced upon stimulation via Staphylococcus aureus Cowan I or phorbol 12,13 dibutyrate plus ionomycin. These results suggest that B cell activation is a critical event for paf receptor expression and modulation.

Regulation of paf-acether receptor expression in human B cells

Paf-acether (paf) is a phospholipid cytokine alloted with potent inflammatory and immunoregulatory properties. Recent reports indicated that in human B cell lines, paf modulated both early and late activation events. In our study, we showed that four of six human B cell lines specifically bound [3H]paf irrespective of the stage of differentiation, the presence of EBV genome or cell surface phenotype. Binding was saturated and fit a one receptor model with a dissociation constant ranging from 1 to 6 nM and a number of sites per cell ranging from approximately equal to 4000 in Rjc13 to approximately equal to 30,000 in Raji or IM9. In addition, our data indicate that 1) maximal expression occurred during the log phase growth; 2) paf itself (10-100 nM) or rIL-4 (100 U/ml) up-regulated by two- to threefold the number of paf binding sites without affecting the affinity. Finally, we found that activated normal B lymphocytes exhibited a higher capacity than resting B cells to incorporate and metabolize [3H]paf at 37 degrees C. Resting B lymphocytes lacked specific binding capacity for paf, yet specific paf receptors were induced upon stimulation via Staphylococcus aureus Cowan I or phorbol 12,13 dibutyrate plus ionomycin. These results suggest that B cell activation is a critical event for paf receptor expression and modulation.

CD2 triggering stimulates the formation of platelet-activating factor-acether from alkyl-arachidonoyl-glycerophosphocholine in a human CD4+ T lymphocyte clone

A human CD4+ T lymphocyte clone synthesized platelet-activating factor (PAF) acether when stimulated via the CD2 pathway. PAF-acether was characterized by biochemical and biophysical properties and precursor-product relationships (alkyl-acyl-sn-glycero-3-phosphocholine (GPC)----alkyl-lyso-GPC (lyso-PAF)----PAF-acether) were demonstrated. The clone contained substantial amounts of alkyl-acyl-GPC. i) Hydrolysis of alkyl-acyl-GPC upon CD2 stimulation was evidenced: [3H]alkyl-lyso-GPC was formed from [3H]alkyl-acyl-GPC in [3H] alkyl-labeled cells; alkyl-lyso-GPC production was also bioassayed after CD2 triggering. ii) The rate of arachidonate transfer from diacyl-GPC to alkyl-acyl-GPC increased after CD2 stimulation of the [3H]arachidonate-labeled P28D T cells, demonstrating alkyl-lyso-GPC formation. iii) Comparison of the molecular species of the produced PAF-acether with those of arachidonate-containing alkyl-acyl-GPC raises the possibility that the produced PAF-acether is related to alkyl-arachidonoyl-GPC.

CD2 triggering stimulates the formation of platelet-activating factor-acether from alkyl-arachidonoyl-glycerophosphocholine in a human CD4+ T lymphocyte clone

A human CD4+ T lymphocyte clone synthesized platelet-activating factor (PAF) acether when stimulated via the CD2 pathway. PAF-acether was characterized by biochemical and biophysical properties and precursor-product relationships (alkyl-acyl-sn-glycero-3-phosphocholine (GPC)----alkyl-lyso-GPC (lyso-PAF)----PAF-acether) were demonstrated. The clone contained substantial amounts of alkyl-acyl-GPC. i) Hydrolysis of alkyl-acyl-GPC upon CD2 stimulation was evidenced: [3H]alkyl-lyso-GPC was formed from [3H]alkyl-acyl-GPC in [3H] alkyl-labeled cells; alkyl-lyso-GPC production was also bioassayed after CD2 triggering. ii) The rate of arachidonate transfer from diacyl-GPC to alkyl-acyl-GPC increased after CD2 stimulation of the [3H]arachidonate-labeled P28D T cells, demonstrating alkyl-lyso-GPC formation. iii) Comparison of the molecular species of the produced PAF-acether with those of arachidonate-containing alkyl-acyl-GPC raises the possibility that the produced PAF-acether is related to alkyl-arachidonoyl-GPC.

Induction of high-affinity paf receptor expression during T cell activation

Activated human T cells via the CD2 or the CD3 pathways exhibited a higher capacity than resting T lymphocytes to incorporate and metabolize [3H]pafacether (paf) at 37 degrees C. Resting T lymphocytes lacked specific binding capacity for paf, yet high-affinity paf receptors (paf-R) were induced on CD3- or CD2-dependent activation. This up-regulation in the number of paf-R became apparent by day 1 of culture, reached a maximum of about 25,000 sites cell by days 4 to 6 and subsequently declined. Interestingly, human recombinant interleukin-2 in a dose-dependent manner prevented the decrease of high-affinity paf-R expression on T cells. By contrast, the receptor affinity was constant throughout the culture period. Thus, paf-R at different stages of T cell activation were indistinguishable with respect to receptor-ligand interaction, and differed only in their number. Together, these data demonstrate that after activation human T cells develop membrane high-affinity paf-binding sites. They also suggest for the first time that expression of the paf-R are coupled to T cell activation and/or differentiation.

Cystatin C levels in sera of patients with human immunodeficiency virus infection. A new avidin-biotin ELISA assay for its measurement

A solid-phase enzyme-linked immunosorbent assay (ELISA) for determining human serum cystatin C is described. In 50 normal samples, cystatin C concentration was 1247 +/- 224 micrograms/L (mean +/- SD) which is in agreement with previously reported levels. Serum levels of cystatin C and beta 2-microglobulin (beta 2-M) were investigated in a time-course study during the development of human immunodeficiency virus (HIV) infection. We found a persistent and uniform increase in the beta 2-M concentration (2762 +/- 1239 micrograms/L). In contrast to beta 2-M, on the basis of cystatin C levels, we found two distinct populations, one of which demonstrated an increased concentration (1620 +/- 618 micrograms/L). Interestingly a second group (21% of patients) exhibited an initial significant decrease in cystatin C concentration with a mean value of 377 (range 55-850) micrograms/L, followed by an increase. The biphasic pattern of cystatin C serum, a major cysteine proteinase inhibitor, during the course of HIV infection suggests a possible role for these proteinases (or proteinase inhibitors) in the development of this syndrome.

Immunoregulatory functions of paf-acether. VIII. Inhibition of IL-4-induced human IgE synthesis in vitro

In the present study we showed that paf-acether (paf), a naturally occurring phospholipid cytokine, down-regulated IL-4-induced IgE production by mononuclear cells from healthy nonatopic donors in a dose-dependent fashion from 10 microM to 10 pM. Kinetic studies indicated that addition of paf together with IL-4 strongly decreased IgE synthesis from day 7 up to day 14. By contrast, paf had little or no inhibitory effect on the levels of IgM, total IgG, and IgA production. The inhibition of IgE synthesis by paf occurred independently of known inhibitors of IgE synthesis, IFN-gamma, PGE2, and transforming growth factor-beta because the addition of anti-IFN-gamma (10 micrograms/ml) mAb, indomethacin (0.1 microM), or anti-transforming growth factor-beta (10 micrograms/ml) mAb, together with paf and IL-4, did not overcome the inhibition of IgE synthesis. Finally, paf not only inhibited IL-4-induced IgE production but also reduced both germ-line and productive IgE transcripts levels by 77 and 67%, respectively, suggesting that modulation of IgE production by paf occurred at the transcriptional level. Taken together, these results suggest a novel IgE regulatory mechanism by phospholipid cytokine.

Immunoregulatory functions of paf-acether. VIII. Inhibition of IL-4-induced human IgE synthesis in vitro

In the present study we showed that paf-acether (paf), a naturally occurring phospholipid cytokine, down-regulated IL-4-induced IgE production by mononuclear cells from healthy nonatopic donors in a dose-dependent fashion from 10 microM to 10 pM. Kinetic studies indicated that addition of paf together with IL-4 strongly decreased IgE synthesis from day 7 up to day 14. By contrast, paf had little or no inhibitory effect on the levels of IgM, total IgG, and IgA production. The inhibition of IgE synthesis by paf occurred independently of known inhibitors of IgE synthesis, IFN-gamma, PGE2, and transforming growth factor-beta because the addition of anti-IFN-gamma (10 micrograms/ml) mAb, indomethacin (0.1 microM), or anti-transforming growth factor-beta (10 micrograms/ml) mAb, together with paf and IL-4, did not overcome the inhibition of IgE synthesis. Finally, paf not only inhibited IL-4-induced IgE production but also reduced both germ-line and productive IgE transcripts levels by 77 and 67%, respectively, suggesting that modulation of IgE production by paf occurred at the transcriptional level. Taken together, these results suggest a novel IgE regulatory mechanism by phospholipid cytokine.

Immunoregulatory functions of paf-acether. VI. Dual effect on human B cell proliferation

The role of paf-acether (paf), a phospholipid cytokine, in the modulation of human B cell function was investigated. Paf, from 1 x 10(-5) M to 10(-6) M, decreased B cell proliferation induced by both phorbol myristate acetate (PMA) and anti-IgM antibodies (anti-IgM Ab). By contrast, 1 x 10(-7) M to 1 x 10(-9) M paf enhanced PMA triggered, but not anti-IgM triggered B cell proliferation. B cell proliferation was modulated between 24 and 72 hr of culture indicating that the effect of paf did not merely reflect a shift in proliferation kinetics. Interestingly, paf also enhanced the spontaneous proliferation of a Burkitt lymphoma-derived B cell line, Raji, which suggests that paf can directly act on B cells. The modulatory effect of paf on peripheral blood B cells was independent of PMA concentration, yet the effect on Raji cells was dependent upon cell density. The data suggest that paf is a potent modulator of B cell function, and may be involved in the control of humoral immune response.

Paf-acether in human skin

Paf is a phospholipid mediator present in human skin which induces inflammatory events, such as neutrophil infiltration and increased vascular permeability. Recent data suggest that cutaneous cells, such as fibroblasts and keratinocytes, produce paf and that paf is released during allergic cutaneous reactions. It is tempting to speculate that paf may contribute to the development of various skin disorders with acute and chronic skin inflammation. Paf antagonists may help in bringing answers to this hypothesis and may offer new prospects for the treatment of cutaneous inflammatory diseases.

Production of paf-acether by human epidermal cells

The production of the inflammatory mediator paf-acether (paf) from human epidermal cells was investigated in vitro. Human epidermal cells, freshly isolated from normal skin or in culture, were incubated in Tyrode's buffer containing 0.25% lipid-free bovine serum albumin in the presence of 2 microM calcium ionophore A23187, at 37 degrees C, for 1 to 60 min. Paf production slightly began at the first min of stimulation, was significant after 10 min, reached a maximum at 20 min (251 +/- 25 pg/l X 10(6) cells, mean +/- 1 SD), and decreased thereafter. About 50% of the paf amount produced by epidermal cells was recovered in supernatants. Addition of the non-acetylated paf precursor 1-O-octadecyl-sn-glycero-3-phosphocholine, i.e., lyso-paf, at 0.1 microM to epidermal cells during A23187-stimulation did not alter this production. In contrast, addition of acetyl-coenzyme A at 0.1 mM enhanced paf production by 5 times. The material produced by epidermal cells was identical to synthetic paf because: 1) the aggregation of aspirin-treated and ADP-insensitive washed rabbit platelets it induced was inhibited by BN 52021, an antagonist of the paf putative receptor; 2) the factor was inactivated by phospholipase A2 but was insensitive to lipase from Rhizopus arrhizus; 3) it exhibited the same retention time as synthetic paf during standard and reverse-phase (RP) high-pressure liquid chromatography (HPLC) elution. The paf precursors, i.e., lyso-paf and 1-O-alkyl-2-acyl-sn-glycero-3-phosphocholine, were also detected in epidermal cells, stimulated with A23187 or not. As determined by RP-HPLC analysis and confirmed by gas chromatography analysis, these precursors and the paf produced by epidermal cells exhibited more than 90% of a hexadecyl chain at the sn-1 position of the molecule. The present results demonstrate the synthesis and release of paf by normal human epidermal cells. Paf production within the epidermis might account for the development of cutaneous inflammation and the pathogenesis of many skin disorders.

Paf-acether synthesis by Helicobacter pylori

Clinical studies suggest that Helicobacter pylori may play a role in the pathogenesis of gastroduodenal ulcers in man but direct evidence of mucosal injury by this microorganism is still lacking. Paf-acether (paf) causes a number of disorders including ischaemic bowel necrosis and gastroduodenal ulceration. Since paf is produced by Escherichia coli, we investigated whether it could be synthesised by H pylori. Five H pylori isolates were collected from antral biopsy specimens from patients with gastritis and duodenal ulcer and cultured with selective antibiotics. Colonies obtained from both blood agar and brucella broth medium were used. Paf was determined by platelet aggregation assay after ethanolic extraction and subsequent purification by high performance liquid chromatography. Paf was detected in H pylori in blood agar plates (680 (390) pg paf/1 x 10(6) organisms) but not in bacteria cultured on brucella broth medium. Supplementation of the latter medium with lyso paf and acetyl-CoA, two paf precursors present in high amounts in the mammalian intestine, induced paf production in three of five isolates. The platelet aggregating material extracted from H pylori exhibited biological and physiochemical characteristics identical to those of paf released from eukaryotic cells. These findings suggest that H pylori may add to the local production of paf in inflamed gastric mucosa.

Pharyngeal shape and dimensions in healthy subjects, snorers, and patients with obstructive sleep apnoea

To characterise the relation between pharyngeal anatomy and sleep related disordered breathing, 17 men with complaints of snoring were studied by all night polysomnography. Ten of them had obstructive sleep apnoea (mean (SD) apnoea-hypopnoea index 56.3 (41.7), age 52 (10) years, body mass index 31.4 (5.3) kg/m2); whereas seven were simple snorers (apnoea-hypopnoea index 6.7 (4.6), age 40 (17) years, body mass index 25.9 (4.3) kg/m2). The pharynx was studied by magnetic resonance imaging in all patients and in a group of eight healthy subjects (age 27 (6) years, body mass index 21.8 (2.2) kg/m2, both significantly lower than in the patients; p less than 0.05). On the midsagittal section and six transverse sections equally spaced between the nasopharynx and the hypopharynx several anatomical measurements were performed. Results showed that there was no difference between groups in most magnetic resonance imaging measurements, but that on transverse sections the pharyngeal cross section had an elliptic shape with the long axis oriented in the coronal plane in normal subjects, whereas in apnoeic and snoring patients the pharynx was circular or had an elliptic shape but with the long axis oriented in the sagittal plane. It is suggested that the change in pharyngeal cross sectional shape, secondary to a reduction in pharyngeal transverse diameter, may be related to the risk of developing sleep related disordered breathing.

Immunoregulatory functions of paf-acether. III. Down-regulation of CD4+ T cells high-affinity IL-2 receptor expression

In the present report, we further explored the mechanisms by which 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (paf-acether), a phospholipid mediator of inflammation inhibited PHA-induced CD4+ cell proliferation. Evidence was obtained that CD4+ cells stimulated with either PHA or immobilized OKT3 in the presence of paf at concentrations that block CD4+ cell proliferation, exhibited a marked decrease in high affinity IL-2R expression. Importantly, paf did not prevent the binding of IL-2 to its receptor. Scatchard analysis of the binding data indicated that paf caused more than 50% decrease in the number of IL-2 high affinity sites per cell, whereas the receptor ligand affinity remained essentially constant. Moreover, the down-regulation of high affinity IL-2R was also accompanied by a loss of IL-2-dependent proliferative capacity. Together these data suggest that decreased expression of high affinity IL-2R may contribute to the diminished proliferative activity observed in CD4+ cells stimulated with PHA or immobilized OKT3 in the presence of paf. They further emphasize the potential role of lipid proinflammatory mediators such as paf in the regulation of T cell activation.

Immunoregulatory functions of paf-acether. III. Down-regulation of CD4+ T cells high-affinity IL-2 receptor expression

In the present report, we further explored the mechanisms by which 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine (paf-acether), a phospholipid mediator of inflammation inhibited PHA-induced CD4+ cell proliferation. Evidence was obtained that CD4+ cells stimulated with either PHA or immobilized OKT3 in the presence of paf at concentrations that block CD4+ cell proliferation, exhibited a marked decrease in high affinity IL-2R expression. Importantly, paf did not prevent the binding of IL-2 to its receptor. Scatchard analysis of the binding data indicated that paf caused more than 50% decrease in the number of IL-2 high affinity sites per cell, whereas the receptor ligand affinity remained essentially constant. Moreover, the down-regulation of high affinity IL-2R was also accompanied by a loss of IL-2-dependent proliferative capacity. Together these data suggest that decreased expression of high affinity IL-2R may contribute to the diminished proliferative activity observed in CD4+ cells stimulated with PHA or immobilized OKT3 in the presence of paf. They further emphasize the potential role of lipid proinflammatory mediators such as paf in the regulation of T cell activation.

Modulation of gut wall paf-acether and precursors by intestinal microflora

Comparison between holoxenic and axenic mice led to the conclusion that the presence of an intestinal microflora produced a decrease in wall paf in conventional mouse caecum, whereas an increase in wall lyso-paf and alkyl-acyl-glycerophosphocholine (A-A-GPC) content was noticed. By contrast, the presence of flora had no significant incidence on wall paf, lyso-paf and A-A-GPC content of conventional mouse jejunum. Thus, the modulation of gut wall phospholipid composition by intestinal microflora is evidenced for the first time.

Immunoregulatory functions of paf-acether. IV. Enhancement of IL-1 production by muramyl dipeptide-stimulated monocytes

paf-Acether (paf) is a phospholipid mediator of inflammation released from monocytes along with IL-1. In this study, we have examined the role of paf on IL-1 production by human monocytes. When paf from 1 nM to 5 microM, but not its precursor lyso paf, was added to monocytes in the presence of muramyl dipeptide (MDP) or LPS, a marked increase in IL-1 activity over the value with MDP alone was observed. In contrast, paf alone had minimal activity over the same dose range. Antibodies against rHu IL-1 alpha and rHu IL-1 beta neutralized the increased IL-1 activity. Interestingly, MDP that prompts monocytes to synthesize IL-1, induced the synthesis of paf, as well. Most of the paf produced remained cell-associated and always preceded IL-1 synthesis. When the paf receptor antagonist, L-652,731 was added to monocytes, it prevented the enhancement of IL-1 activity induced by exogenous paf. In contrast, L-652,731 had little effect on MDP-induced IL-1 synthesis in the absence of exogenous paf. This may indicate that there are alternative mechanisms involved in the sequences of events leading to IL-1 production. It is also conceivable that the paf receptor antagonist is not able to compete or inhibit endogenous paf as well as it does for exogenous paf. Nevertheless, exogenous paf in association with a second signal, modulates IL-1 production from human monocytes in a positive manner. This may constitute another means through which paf can modulate inflammatory and immune reactions.

Immunoregulatory functions of paf-acether. IV. Enhancement of IL-1 production by muramyl dipeptide-stimulated monocytes

paf-Acether (paf) is a phospholipid mediator of inflammation released from monocytes along with IL-1. In this study, we have examined the role of paf on IL-1 production by human monocytes. When paf from 1 nM to 5 microM, but not its precursor lyso paf, was added to monocytes in the presence of muramyl dipeptide (MDP) or LPS, a marked increase in IL-1 activity over the value with MDP alone was observed. In contrast, paf alone had minimal activity over the same dose range. Antibodies against rHu IL-1 alpha and rHu IL-1 beta neutralized the increased IL-1 activity. Interestingly, MDP that prompts monocytes to synthesize IL-1, induced the synthesis of paf, as well. Most of the paf produced remained cell-associated and always preceded IL-1 synthesis. When the paf receptor antagonist, L-652,731 was added to monocytes, it prevented the enhancement of IL-1 activity induced by exogenous paf. In contrast, L-652,731 had little effect on MDP-induced IL-1 synthesis in the absence of exogenous paf. This may indicate that there are alternative mechanisms involved in the sequences of events leading to IL-1 production. It is also conceivable that the paf receptor antagonist is not able to compete or inhibit endogenous paf as well as it does for exogenous paf. Nevertheless, exogenous paf in association with a second signal, modulates IL-1 production from human monocytes in a positive manner. This may constitute another means through which paf can modulate inflammatory and immune reactions.

Immunoregulatory functions of paf-acether. VI. Inhibition of T cell activation via CD3 and potentiation of T cell activation via CD2

In the present report we further explored the role of paf-acether (paf), a phospholipid cytokine, in the modulation of T cell activation induced via the CD2 and the CD3 pathways. Evidence was obtained that paf inhibited T cell proliferation induced by immobilized CD3 mAb (OKT3i), but potentiated that induced by a combination with the CD2 mAb, anti-(T11.1 + D66). Both effects were dose-dependent between 2 and 10 microM paf, and specific in that lysoPC, a phospholipid closely related to paf, had no effect. The inhibition became apparent after 48 h and was maintained up to 144 h of culture, whereas the enhancement was observed only by 96 h of culture. Interestingly, paf was able to inhibit OKT3i mAb response when added to cultures as late as 24-48 h after the initiation of a 96 h incubation. By contrast, paf enhanced the proliferative response only when added concomitantly with anti-(T11.1 + D66) mAb, suggesting that it modulates an early event of T cell activation. paf, which enhanced T cell proliferation induced via the CD2 pathway, also led to a substantial up-regulation of IL-2 secretion and CD25 expression. Moreover, paf markedly augmented IL-4 secretion upon CD2 mAb stimulation. Finally, when T cells were triggered via the CD3 molecule, paf inhibited the proliferative response but also down-modulated CD25 expression without impairing IL-2 secretion. When considered together, these data demonstrate that paf, a phospholipid cytokine released during inflammatory reactions, play a differential regulatory role in T cell activation induced via the CD3 and CD2 (T11.1 + D66) pathways.

Presence of paf-acether in human thymus

Paf-acether (paf) is a phospholipid mediator of inflammation endowed with major immunoregulatory properties. The present study demonstrates that human thymus contains large amounts of paf, as well as paf precursors. In addition, isolated thymic cells produced paf under ionophore stimulation. Paf from thymus exhibited the same biological and physiochemical properties as synthetic paf. The purity and molecular structure of paf from thymus were further characterized by reverse-phase HPLC and gas chromatography with electron-capture detection. These findings may have important implications since thymus microenvironment is essential in the proper development of bone marrow progenitors committed to the T cell lineage into thymocytes capable of emigrating to the periphery as functional T lymphocytes.