Cyclic adenosine 3'5' monophosphate stimulates prostaglandin E production by human adherent synovial cells

Production of prostaglandin E (PGE) by rheumatoid synovium appears important to regulation of the pathologic process in rheumatoid arthritis. Cells derived from human synovium by proteolytic digestion produce large amounts of PGE which in turn can elevate synovial cell cAMP levels and inhibit cell proliferation. Data presented here indicate that cAMP can further increase production of PGE from adherent synovial cells (ASC). PGE production occurs over 12-72 hr and is not due to the ability of cAMP to inhibit cell proliferation. Exposure of cells to cAMP results in increased release of 3H arachidonic acid from precursors but not in activation of the cyclooxygenase enzyme. This phenomenon suggests the presence in adherent synovial cells of a mechanism for amplifying PGE production.     

Regulation of prostaglandin H synthase activity in dog urothelial cells.

TPA regulation of prostaglandin H synthase activity in primary and subcultured dog urothelial cells was investigated. Previous studies have demonstrated an early (0-2 hr) increase in PGE2 synthesis mediated by TPA which is dependent upon release of endogenous arachidonic acid by a phospholipase-mediated pathway. In this study, prostaglandin H synthase activity was assessed directly with microsomes and indirectly after addition of exogenous arachidonic acid at a maximum effective concentration (100 microM) to media. PGE2 synthesis, measured by radioimmunoassay, served as an index of prostaglandin H synthase activity. After a 24-hr incubation with 0.1 microM TPA or 1.0 microM A23187, arachidonic acid elicited significantly more PGE2 synthesis in agonist-treated cells than it did in control cells in primary culture. Microsomes from 24-hr TPA-treated cells exhibited significantly more prostaglandin H synthase activity than did those from control cells. In addition, the PGE2 content of overnight media was approximately 10-fold greater in TPA-treated cells than in control cells. The late (24 hr) response was more sensitive to lower concentrations of TPA than was the earlier (0-2 hr) response. TPA at 0.1 microM was a maximum effective dose for both responses. The 24-hr response was blocked by cycloheximide and staurosporine, inhibitors of protein synthesis and protein kinase C, respectively. Pretreatment of cells with aspirin, an irreversible inhibitor of prostaglandin H synthase, prior to addition of TPA did not prevent the late TPA-mediated increase in PGE2 synthesis. Subcultured cells exhibited both an early and a late TPA response. Only the early response was inhibited by aspirin pretreatment. Results suggest that the late response with TPA is caused by de novo synthesis of prostaglandin H synthase. Thus, primary and subcultured dog urothelial cells possess two distinct mechanisms for regulating signal transduction by arachidonic acid metabolism. This study provides a basis for assessing these mechanisms of signal transduction in urothelial cell lines and transformed cells.     

Cyclic adenosine 3′5′ monophosphate stimulates prostaglandin E production by human adherent synovial cells

Production of prostaglandin E (PGE) by rheumatoid synovium appears important to regulation of the pathologic process in rheumatoid arthritis. Cells derived from human synovium by proteolytic digestion produce large amounts of PGE which in turn can elevate synovial cell cAMP levels and inhibit cell proliferation. Data presented here indicate that cAMP can further increase production of PGE from adherent synovial cells (ASC). PGE production occurs over 12–72 hr and is not due to the ability of cAMP to inhibit cell proliferation. Exposure of cells to cAMP results in increased release of ³H arachidonic acid from precursors but not in activation of the cyclooxygenase enzyme. This phenomenon suggests that presence in adherent synovial cells of a mechanisms for amplifying PGE production.     

Paradoxical production of mouse thymocyte activating factor by ouabain-treated human mononuclear cells

At concentrations as low as 10(-7) M, the cardiotonic glycosteroid ouabain, a specific inhibitor of the membrane Na+, K+-ATPase, is known to inhibit in vitro human lymphocyte proliferation produced in mixed lymphocyte cultures or induced by various stimulating agents (PHA, Con A, PWM, soluble antigens), while mouse lymphocyte proliferation is unaffected at this concentration. Ouabain inhibits most of proliferative response parameters at all stages of the transformation. This observation prompted us to suggest that ouabain could also act through inhibition of interleukin production which is known to occur during the first hours after T-cell stimulation in the presence of monocytes. In order to check the possible influence of ouabain on interleukin production, conditioned media from stimulated human mononuclear cells, prepared in the presence or in the absence of inhibitor, were tested for their ability to promote a mouse thymocyte response to PHA. Instead of the expected inhibition, we found that ouabain, even at high concentrations (2 X 10(-6) M) enhanced the stimulatory effect and/or the production of murine thymocyte activating factor(s). Moreover conditioned media from serum-free cultures of unstimulated human mononuclear cells exposed for 24 hr to low ouabain concentrations (10(-8) to 10(-7) M) showed a high activating effect on the response of murine thymocytes to PHA. This soluble factor produced upon ouabain treatment is produced by adherent cells and appears to be functionally similar to interleukin 1.     

Induction of cyclo-oxygenase by interleukin-1 in rheumatoid synovial cells

The ability of interleukin-1 (IL-1) to stimulate prostaglandin E2 (PGE2) production by human rheumatoid adherent synovial cells was found to be time-dependent and sensitive to protein synthesis inhibitors. Cells incubated with exogenous arachidonic acid (10 microM) showed no increase in PGE2 production. However, with IL-1 (2.5 U/ml) and exogenous arachidonic acid there was a marked increase, with levels reaching twice that for cells incubated with IL-1 alone. Aspirin pre-treatment studies and the use of [acetyl-14C]aspirin showed that IL-1 increased PGE2 production through the induction of cyclo-oxygenase.     

Prostaglandin-mediated inactivation of natural killer cells in the murine decidua

Previous studies from this laboratory have demonstrated a large influx of null lymphocytes into the murine decidua during pregnancy. We had also shown that trophoblast cells of the murine placenta bear target structures recognized by NK cells. Since NK lineage cells belong to the null category of lymphocytes, we examined whether cells of this lineage appear in the murine decidua, and if so, whether their activity is locally regulated by NK suppressor cells. We further investigated the identity of the suppressor cells as well as their suppressor products. NK lineage cells, irrespective of their activation status, were identified morphologically in radioautographic preparations as the non-T, non-B (null) lymphocytes capable of binding YAC-1 lymphoma targets. NK activity of nucleated cells was measured with a 4-hr 51Cr-release assay against labeled YAC-1 targets. Studies with outbred CD1 mice, and to a smaller extent, inbred CBA mice revealed that the incidence of NK lineage cells remained fairly constant within the decidua throughout pregnancy, but their activity decreased steadily to negligible levels by Day 12-14 of gestation. This was found to result from an inactivation caused by NK-suppressor cells in the decidua. A mixing of Ficoll-Paque-separated nucleated cells of the decidua with normal splenic effector cells (at 1:1 ratio) led to a suppression of their NK activity tested immediately or after a 20-hr coculture. This suppression was MHC unrestricted. Suppressor cells were identified both in plastic nonadherent fraction highly enriched for typical decidual cells as well as in the plastic adherent fraction containing decidual cells and macrophages. Addition of indomethacin (10(-5) M), an inhibitor of prostaglandin synthesis, or anti PGE2 antibody, revived the NK activity in the mixed population, as well as in the decidua, suggesting a PGE2-mediated suppression. High levels of PGE2 were detectable in decidual cell supernatants with a sensitive radioimmunoassay. Addition of pure PGE2 (10(-7)-10(-6) M) but not PGF2 alpha (10(-6) M) during the NK assay or to the effector cells for a 20-hr period prior to the assay led to an inhibition of NK activity. These results reveal that NK cells appearing in the murine decidua are progressively inactivated by PGE2 produced by decidual cells and decidual macrophages.     

Lymphocyte activation by the Fc region of immunoglobulin. I. Role of prostaglandins in the down regulation of Fc fragment-induced polyclonal antibody production

Fc fragment-, subfragment-, and p23-induced polyclonal antibody production are regulated by endogenous and exogenous PGE. Addition of the PG synthetase inhibitor indomethacin (IM) to murine spleen cell cultures resulted in a significant increase in the amount of Ig secreted. Moreover, addition of exogenous PGE to culture resulted in a marked suppression of IgM and IgG secretion. Splenic adherent macrophages and P388D1 cells release PGE upon stimulation with Fc fragments, subfragments, and p23. The inclusion of IM or aspirin in culture was found to abrogate the ability of Fc fragments to induce PGE release from adherent cells. These results suggest a role for PG in immune complex mediated regulation of immune responses.     

Bimodal variations in subcellular structures of rat thyroid follicular cells during 24 hours: fine structural and morphometric studies

To clarify 24-hr variations in rat thyroid follicular cells under physiological conditions, their subcellular structures were examined at six evenly spaced times during 24 hr by using a morphometric technique. The volume, surface, and numerical densities of subcellular structures varied distinctly over each 24-hr period, with a bimodal pattern. The cellular and nuclear volumes varied also bimodally over 24 hr. A decrease in the surface density of the apical plasmalemma at 1200 and 0000 hr coincided with an increase in volume density of cytoplasmic granules representing colloid droplets and dense bodies. Most granules (colloid droplets) appearing at these times were reduced in electron density. At other times, especially at 1600 and 0400 hr, morphometric parameters of rough endoplasmic reticulum (rER), Golgi complex, and subapical vesicles were prominently increased, although values for rER did not peak at 1600 hr. At these times, the volume densities of cytoplasmic granules, most of which were heterogeneous and of homogeneous electron density, were decreased. These findings coincided with immediate and subsequent reactions of follicular cells after injection of thyroid-stimulating hormone (TSH). From the evidence, it seems likely that variations in follicular cells over a 24-hr period reflect variations in blood TSH concentration. The total membrane areas of membrane components in follicular cells were calculated from the morphometric measurements. These areas fluctuated unimodally during 24 hr over a 65% range. This suggests that the membranes in follicular cells are subjected to cyclic degradation and regeneration during each 24-hr period.     

GM-CSF augments the immunosuppressive capacity of neonatal spleen cells in vitro

Addition of exogenous granulocyte-macrophage colony stimulating factor (GM-CSF) to cultures of adult murine spleen cells with sheep red blood cells (SRBC) results in an augmented plaque forming cell (PFC) response. The influence of GM-CSF on the ability of neonatal spleen cells to suppress the anti-SRBC plaque forming response of adult spleen cells was tested by adding GM-CSF to cultures of neonatal and adult spleen cells. The suppressive capacity of the neonatal spleen cells was augmented by exogenous GM-CSF. The augmented suppression of the neonatal spleen cells was dependent on a G-10 adherent population since the addition of GM-CSF to cultures containing G-10 passed neonatal spleen cells resulted in an augmented PFC response and not suppression. Neonatal splenic glass adherent cells were also capable of suppressing the response. Neonatal spleen cells or purified neonatal glass adherent spleen cells cultured in the presence of GM-CSF had markedly increased levels of PGE2 in the culture supernatant. Neonatal spleen cells cultured with GM-CSF had increased numbers of morphologically identifiable macrophages after 48 hr of culture. Both irradiation and G-10 passage of the neonatal spleen diminished the numbers of macrophages formed in response to GM-CSF, and both of these manipulations resulted in reversal of suppression in response to GM-CSF. Thus, the augmented suppressive capacity of neonatal spleen cells in response to GM-CSF is probably mediated by its ability to drive monocyte to macrophage differentiation as well as increase the suppressive capacity of the existing neonatal splenic macrophages by increasing their production of PGE2.     

Somatostatin prevents the desensitizing action of growth hormone-releasing factor on growth hormone release

We have investigated the effect of prior exposure to somatostatin (SRIF) alone or in combination with growth hormone-releasing factor (GRF) on the subsequent cyclic AMP and GH responses to GRF in rat anterior pituitary cells in primary culture. The maximal 4.5-fold stimulation of GH release induced by a 3-hr incubation with GRF is reduced by 60% following a prior 3-hr exposure to 30 nM GRF. A 3-hr preincubation with GRF in the presence of 30 nM SRIF doubles spontaneous GH release while the maximal amount of GH released during a subsequent 3-hr exposure to GRF is similar to that measured in cells pretreated with control medium, thus completely preventing the loss of GH responsiveness induced by prior exposure to GRF. The prevention by SRIF of the desensitizing action of GRF on GH release is not observed on the cyclic AMP response which remains almost completely inhibited in GRF-pretreated cells. Similar protective effects are obtained when SRIF is incubated with prostaglandin E2 (PGE2), thus completely preventing the desensitizing action of PGE2 on GH release. Prior treatment with pertussis toxin completely prevents the protective action of SRIF on GH responsiveness. Pretreatment with GRF + SRIF increases by 85 and 60% the maximal amount of GH release induced by cholera toxin and 8-bromoadenosine 3',5'-monophosphate, respectively. The post-SRIF rebound effect on GH release occurs mainly during the first 30 min following withdrawal of the tetradecapeptide. The present data demonstrate that simultaneous preincubation with SRIF and GRF prevents the marked inhibition of GH release during subsequent exposure to GRF.(ABSTRACT TRUNCATED AT 250 WORDS)     

Activation of human T lymphocytes by 12-O-tetradecanoylphorbol-13-acetate: role of accessory cells and interaction with lectins and allogeneic cells

Stimulatory effects of the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) on human T lymphocytes have been investigated. TPA was found to stimulate highly purified T cells (obtained by a three-step isolation procedure involving plastic adherence, nylon wool passage and Ig-anti-Ig column passage) in the absence of accessory cells (stimulation index of 5 to 10), whereas phytohemaglutinin (PHA) and concanavalin A (Con A) did not. This response was, however, increased by the addition of autologous adherent cells. Addition of TPA, but not adherent cells, induced T-cell proliferation in response to the nonmitogenic lectin, wheat germ agglutinin (WGA), while both adherent cells and TPA restored T-cell proliferation to mitogenic lectins such as PHA and Con A. Furthermore, TPA greatly increased the mixed-lymphocyte response of purified T cells to otherwise nonstimulating allogeneic cells such as T lymphocytes or tumor cells from some patients with chronic lymphocytic leukemia. These results suggest that TPA can directly act on human T cells to render them reactive to a variety of stimuli.     

Inhibition of murine lymphokine-activated killer (LAK) cell activity by adherent cells

The effects of adherent cell depletion, indomethacin, and prostaglandin E2 (PGE2) on murine LAK cell activity were investigated. Removal of plastic adherent cells from splenocyte suspensions either prior to 5-day culture with 1000 U/ml of recombinant human IL-2 (rIL-2) or prior to assay resulted in an enhanced LAK cell cytotoxicity compared to that of whole spleen cell suspensions. Indomethacin enhanced LAK cell cytotoxicity of whole splenocyte suspensions if present during the culture period, but had no effect on whole splenocyte or adherent cell-depleted cell suspensions if added just prior to assay. PGE2 suppressed LAK cell activity of nonadherent splenocyte but not whole splenocyte suspensions when present during the culture period. In vivo treatment of mice with indomethacin enhanced cytotoxicity directed toward both LAK sensitive, natural killer (NK) resistant (P-815) and LAK, NK sensitive (YAC-1) tumor cell targets. Splenocytes from indomethacin-treated mice cultured with additional indomethacin and rIL-2 exhibited highest LAK cell activity. The results from this study indicate that LAK cells are regulated by adherent cells which suppress LAK cell activity. This suppression can be reversed both in vitro and in vivo by indomethacin. This study has important implications for the possible clinical use of indomethacin in the potentiation of in vivo and in vitro LAK cell activity for immunotherapeutic protocols.     

Effect of extracellular matrix on prolactin secretion and mRNA accumulation in GH3 cells

The matrix upon which cells grow affects their morphology, growth rate, response to external stimuli, and protein synthesis. GH3 cells, a well-characterized rat pituitary tumor cell line, synthesize and secrete growth hormone and prolactin (Prl). These cells are rounded, attach loosely, and form clumps when plated on plastic. GH3 cells plated on an extracellular matrix (ECM) from bovine corneal endothelial cells become flattened and strongly adherent to the culture dish, and have an initial increased rate of proliferation. Cells cultured on plastic have a 48-hr lag period before the start of cell division; this can be shortened by increasing the concentration of serum in the medium. Since GH3 cells store little Prl, hormone release is a good index of Prl synthesis. Prl secretion from cells cultured on extracellular matrix is twice as great as from cells cultured on plastic. The increase in Prl secretion from cells grown on extracellular matrix paralleled by a concomitant increase in the accumulation of prolactin mRNA. Cells cultured on plastic secrete more Prl in response to TRH stimulation than do cells cultured on ECM. Cells grown on either surface were unresponsive to dopamine. Thus, culturing cells on ECM may change their morphology and affect the synthesis and regulation of specific cellular proteins and their mRNAs.     

Rapid loss of sensitivity of mitogen-induced lymphocyte activation to inhibition by cyclosporin A

The ability of the immunosuppressive drug cyclosporin A (CS-A) to inhibit the activation of lymphocytes by phytohaemagglutinin (PHA) and concanavalin A (Con A) is progressively lost over the 8-hr period following mitogen addition. This process is dependent on the presence of Ca²⁺ in the culture medium and is complete at a time when activation still requires the continued presence of the mitogen. While inhibition by CS-A is reduced to some extent by lymphokines produced by mitogen-activated cultures, the initial loss of sensitivity to CS-A is too complete and too rapid to be accounted for in this way. We conclude that CS-A inhibits an early Ca²⁺-dependent step in mitogen-induced activation that is not in itself sufficient to commit the cells to initiate proliferation, but is required for later steps in the activation process, including lymphokine production.     

Synergistic inhibition of human marrow granulocyte-macrophage progenitor cells by prostaglandin E and recombinant interferon-alpha, -beta, and -gamma and an effect mediated by tumor necrosis factor

The effects of prostaglandin E (PGE) and recombinant human interferon-alpha, -beta, and -gamma alone and in combination were tested for their effects on the proliferation of human bone marrow granulocyte-macrophage colony-forming units (GM-CFU). When tested alone, both classes of cytokines inhibited GM-CFU proliferation. In combination, PGE and all three types of recombinant interferons synergized in their ability to inhibit GM-CFU proliferation. Progressive enrichment for marrow GM-CFU indicated that the synergistic effects of PGE and interferon were dependent upon the presence of marrow-adherent cells. Studies using conditioned media from marrow-adherent cells prepared in the presence of interferon-alpha, -beta, and -gamma indicated that adherent cells produced a soluble factor in the presence of interferons that subsequently synergized with PGE in inhibiting GM-CFU proliferation. Neutralization of this conditioned media with a monoclonal antibody to tumor necrosis factor abrogated the synergistic inhibition of GM-CFU observed in the presence of PGE. The addition of recombinant tumor necrosis factor and PGE to accessory cell-depleted bone marrow resulted in synergystic inhibition of GM-CFU proliferation.     

Direct suppression of lymphocyte induction by the immunoregulatory human serum low density lipoprotein, LDL-In

Preparations of LDL-In, an immunosuppressive lipoprotein subfraction, were analyzed for the capacity to directly suppress the response of human lymphocytes to the representative stimulant PHA vis-a-vis indirect mechanisms mediated by soluble factors or cell:cell interactions. Serum lipoprotein subfraction enriched in LDL-In induced a suppressed state in lymphocytes during 18-hr induction cultures. These lymphocytes, whether partially or completely suppressed, when added to fresh responder lymphocytes in the presence of PHA did not suppress the response of the responder lymphocytes. In contrast, the major low density lipoprotein (LDL) did not suppress lymphocytes at equivalent concentration in the induction culture, nor did LDL-exposed lymphocytes suppress responder lymphocytes. The supernatant medium from LDL-In-suppressed lymphocytes did not contain a newly synthesized or released suppressive factor. Finally, LDL-In-suppressed lymphocytes were not rescued by normal lymphocytes. Each of these observations, and previous evidence that adherent cells do not mediate the biologic effects of LDL-In, support the hypothesis that the biologic manifestations of LDL-In suppression of lymphocyte function result from a direct effect on the lymphocyte that is exposed to this lipoprotein, possibly via the previously demonstrated LDL-In receptor.     

Proliferation of murine thymic lymphocytes in vitro is mediated by the concanavalin A-induced release of a lymphokine (costimulator).

Mitogen-induced proliferation of lymphocytes may in theory result directly from the interaction of mitogen with the cells, or indirectly as a result of the mitogen-stimulated release of lymphokines. In the case of murine thymic lymphocytes exposed to concanavalin A (Con A) in tissue culture, we have determined that mitogenesis depends upon a lymphokine. Interaction of the thymic lymphocytes with lectin is necessary, but not sufficient, for mitogenesis. A lymphokine, or costimulator for mitogenesis, is released by normal spleen or thymus cells during the first 16 hr of their exposure to Con A, and in the presence of a phytomitogen it stimulates thymic mitogenesis. Under conditions of low costimulator levels, no mitogenesis follows the interaction of Con A with cells. The response of adult CBA/J mouse thymocytes to phytohemagglutinin (PHA) is very low, compared to their response to Con A. When costimulator is added to PHA, the cells respond as well as they do to Con A. Costimulator does not act through Con A-binding sites on thymus cells. Its production is dependent on both cells carrying omega surface antigen (T lymphocytes) and adherent cells of the macrophage-monocyte series. The adherent population, but not the T cells, may be heavily irradiated without affecting production of costimulator. Costimulator is not a mitogen on its own.     

Effects of modulators of adenylyl cyclase on interleukin-2 production, cytosolic Ca2+ elevation, and K+ channel activity in Jurkat T cells

We have studied the effects of prostaglandin E2 (PGE2) and cholera toxin, two modulators of adenylyl cyclase, and 8-bromo cAMP (8-BrcAMP) on various parameters of lymphocyte activation using the human T cell line Jurkat. Our results show that PGE2 and cholera toxin inhibit, in a dose-related manner, the phytohemagglutinin (PHA)-dependent production of interleukin 2 by these cells. The data are consistent with the interpretation that the inhibition is due to an intracellular increase in cAMP, since the metabolically stable 8-BrcAMP analog produced the same inhibitory effect. However, PGE2 or 8-BrcAMP did not interfere with the PHA-induced elevation in the cytosolic concentration of Ca2+, suggesting that changes in the intracellular concentration of cAMP does not affect the internal release or the influx of Ca2+. In contrast, cholera toxin prevented the Ca2+ response of Jurkat cells to PHA. We studied the effects of PGE2, cholera toxin, and 8-BrcAMP on the amplitude of the K+ outward current using the patch clamp technique in the whole cell configuration. Results showed that PGE2, 8-BrcAMP, and cholera toxin inhibited K+ channel activity. For instance, the amplitude of the outward K+ current was reduced to 43 +/- 19%, 50 +/- 26%, and 46 +/- 16% of control values in the case of cells perfused in the presence of PGE2, 8-BrcAMP, and cholera toxin, respectively. Blocking K+ channels with tetraethylammonium ions did not prevent the characteristic Jurkat Ca2+ response to PHA. Our observations that cAMP inhibits K+ channel activity in a T cell line provide an additional explanation for its reported inhibition of lymphocyte activation. Increasing the intracellular concentration of cAMP may result in reduction of K+ movements and in negative modulation of signal transduction via G-proteins as previously suggested. These two effects could act in synergy to impair signal transduction.     

Prostaglandin E precursor fatty acids inhibit human IL-2 production by a prostaglandin E-independent mechanism

Essential fatty acids, from which PG derive, can participate in development and regulation of immune responses and have been shown to suppress inflammation and tissue injury in animal models. In this report, we investigate the effects of the immediate (DGLA, precursor to PGE1), arachidonic acid (AA, PGE precursors, dihomogamma linolenic acid (DGLA, precursor to PGE1), arachidonic acid (AA, precursor to PGE2), and eicosapentaenoic acid (EPA, precursor to PGE3) on IL-2 production by PHA-stimulated human PBMC. DGLA and AA inhibited IL-2 production in a dose-dependent manner: half-maximal inhibition was obtained by using the fatty acids at the dose of 10 micrograms/ml without significant effects on cell viability. EPA inhibited IL-2 production by PBMC of only some donors. Incubation of cells in the presence of oleic, stearic, and palmitic acids, which are not PG precursors, did not affect mitogen-induced IL-2 production. A progressive increase in incorporation of DGLA into cellular lipids was observed over a 48-h incubation period. IL-2 production was reduced also when PBMC were pretreated overnight with DGLA or AA and washed before exposure to PHA. Whereas addition of the cyclo-oxygenase inhibitor, indomethacin, at the time of mitogenic stimulation led to increased IL-2 production and prevented mitogen- and fatty acid-induced increases in PGE release, it had no significant effect on the capacity of the fatty acids to suppress IL-2 production. Time course experiments showed that DGLA and AA inhibited IL-2 production even at times of minimal or no PGE release by the treated cultures. Moreover, DGLA and AA inhibited IL-2 production by the human leukemia T cell line Jurkat which, when appropriately induced, is able to release high levels of IL-2 in the absence of accessory cells and measurable PGE production. Taken together, these data indicate that essential fatty acids inhibit IL-2 production directly without conversion into their cyclo-oxygenase pathway products, and suggest that human lymphocyte function may be altered profoundly by small changes in their fatty acid profile.