Evidence for the involvement of three distinct signals in the induction of IL-2 gene expression in human T lymphocytes

The regulation of IL-2 gene expression during T cell activation and proliferation has been investigated in primary cultures of purified human peripheral blood T cells. Prior results indicated that stimulation of T cells by anti-CD28 mAb plus PMA could induce IL-2 expression and T cell proliferation that was entirely resistant to cyclosporine. The present studies examined whether CD28 augments IL-2 expression by a unique pathway or merely acts at a point common to CD3-induced proliferation but distal to the effects of cyclosporine. The induction of maximal IL-2 gene expression required three signals provided by phorbol ester, calcium ionophore, and anti-CD28 mAb. Stimulation of cells by optimal amounts of calcium ionophore and PMA induced IL-2 mRNA that was completely suppressed by cyclosporine. The addition of anti-CD28 to T cells stimulated with PMA plus calcium ionophore induced a 5- to 100-fold increase in IL-2 gene expression and secretion that was resistant to cyclosporine. The CD28 signal was able to increase steady state IL-2 mRNA levels even in cells treated with maximally tolerated amounts of calcium ionophore and PMA. The three-signal requirement did not reflect differential regulation of lymphokine gene expression between the CD4 and CD8 T cell subsets or differences in the kinetics of IL-2 mRNA expression. The signal provided by CD28 is distinct from that of CD3 because although anti-CD28 plus PMA-induced proliferation is resistant to cyclosporine, anti-CD3 or anti-CD3 plus PMA-induced IL-2 expression is sensitive. Thus, these studies show that three biochemically distinct signals are required for maximal IL-2 gene expression. Furthermore, these studies suggest that lymphokine production in T cells is not controlled by an "on/off" switch, but rather, that CD28 regulates a distinct intracellular pathway which modulates the level of IL-2 production on a per cell basis. The observation that CD28 stimulation results in IL-2 concentrations that exceed 1000 U/m1 in tissue culture supernatants suggests that a role in vivo for CD28 might be to amplify immune responses initiated by the CD3/T cell receptor complex. Finally, the observation that CD28 interacts with the signals provided by PMA and calcium ionophore shows that the function of CD28 is not merely to act as a scaffold to stabilize or enhance signalling through the CD3/TCR complex.     

Extracellular release of free fatty acids by rat T lymphocytes is stimulus-dependent and is affected by dietary lipid manipulation

[(3)H]-Arachidonic acid-labelled rat T lymphocytes released radioactivity extracellularly when stimulated by the calcium ionophore A23187 or by monoclonal antibodies to some cell surface structures (CD2, CD5, CD11a, CD18, CD54, T-cell receptor) but not to others (CD49d, CD62L); release was greater with the calcium ionophore. Almost all of the radioactivity released from anti-CD2-stimulated lymphocytes was recovered in the free fatty acid fraction, whereas only about 50 per cent of that released after A23187 stimulation was recovered in this fraction. A23187 stimulation resulted in release of arachidonic acid from a variety of phospholipids (phosphatidylinositol, phosphatidylcholine and perhaps phosphatidylethanolamine), while the monoclonal antibody stimulation released arachidonic acid from phosphatidylinositol and perhaps phosphatidylcholine. Unstimulated lymphocytes released a range of fatty acids extracellularly, with palmitic acid accounting for 35-40 per cent and arachidonic acid for 5 per cent of released fatty acid. Stimulation of lymphocytes with either anti-CD2 or A23187 increased total fatty acid release 1.5- to 1.8-fold. In both cases palmitic acid remained the most predominant fatty acid released but the contribution of arachidonic acid increased. The type of lipid fed to the rats significantly influenced the amount and type of fatty acid released. Fish oil feeding significantly reduced extracellular fatty acid release by stimulated lymphocytes.     

Lysis of fresh solid tumor targets in the presence of Con A is mediated primarily by Leu 7+ peripheral blood T lymphocytes: blocking by the anti-CD3 monoclonal antibody and comparison with recombinant interleukin 2-induced lysis by natural killer cells

We investigated the lysis of fresh human solid tumor cells by peripheral blood T lymphocytes in the presence of lectins and anti-CD3 monoclonal antibodies (mAb). Addition of certain lectins (Con A, PHA, or WGA) directly into the 4-hr 51Cr-release assay caused significant lysis of (P less than 0.001) noncultured solid tumor targets by enriched populations of granular lymphocytes (GL). Significant levels (P at least less than 0.001) of Con A- or PHA-dependent solid tumor lysis by GL-enriched lymphocytes were observed in 32 of 39 donors (82%) and 14 of 20 donors (70%), respectively. In contrast, the addition of other lectins (PNA, PWM, or LPS) or anti-CD3 mAb did not cause cytotoxicity. The levels of Con A-dependent lysis were comparable to those of interleukin 2 (IL-2)-induced lysis by Leu 11b+ natural killer (NK) cells. The presence of lectins at the effector phase, but not of recombinant IL-2 (rIL-2), was required for the lysis of solid tumor targets. Both Con A-dependent and rIL-2-induced lysis were totally inhibited by treatment of the effector cells with the lysosomotropic agent L-leucine methyl ester (LeuOMe). Effector cells responsible for Con A-dependent lysis of solid tumors expressed T3 (CD3), T8 (CD8), and Leu 7 antigens, but lacked T4 (CD4) and Leu 11 (CD16) antigens as determined by both negative and positive cell selection studies. Con A-dependent lysis was inhibited at the effector phase by anti-CD3 (OKT3 or anti-Leu 4) or anti-CD2 (OKT11) mAb. On the basis of their phenotype (Leu 7+ CD3+ CD8+ CD16-), we hypothesize that these effector cells may contain a population of cytotoxic T cells (CTL) generated in vivo against autologous modified cells that can lyse fresh solid tumor target cells under conditions where the recognition requirements for the CTL are bypassed by lectin approximation.     

Requirements for triggering of lysis by cytolytic T lymphocyte clones

Cloned murine cytolytic T lymphocytes (CTL) having defined specificity were triggered by the phorbol ester together with a calcium ionophore (either A23187 or Ionomycin) to lyse syngeneic or third party target cells efficiently. Neither phorbol 12-myristate 13-acetate (PMA) nor calcium ionophore alone induced efficient lysis. The characteristics of the lytic process induced by these signals are similar to those of antigen-specific or lectin-facilitated lysis by CTL. Lysis is calcium and temperature dependent and shows kinetics which are not grossly different from lysis mediated via the antigen receptor. Two helper T lymphocyte clones were not induced to lyse efficiently EL-4 target cells by concanavalin A or PMA + ionophore. Triggering of lysis induced with PMA plus ionophore by the CTL clone L3 differed from antigen-mediated lysis in specificity and in the susceptibility to inhibition by cytochalasin B. Properties of the target cell determine which cell surface associative recognition structures are important in the efficient lysis of these cells. Anti-LFA-1 monoclonal antibodies inhibited efficiently both antigen-mediated and PMA + ionophore-induced lysis of P-815 or EL-4 target cells which are of hematopoietic origin. However, anti-LFA-1 antibodies do not inhibit antigen-mediated, lectin-facilitated, or PMA + Ionomycin-induced CTL cytolysis of target cells derived from the L cell fibroblast line. We conclude that two intracellular signals, which can be provided by the combination of PMA + ionophore, are required for efficient lysis by antigen-specific murine CTL clones. When the T cell receptor for antigen is bypassed using PMA + ionophore to trigger lysis, we show that Lyt-2 and LFA-1 molecules may be required for efficient lysis. These associative recognition structures appear to play an important role in postactivation steps leading to efficient delivery of the lethal hit to the target cell.     

Reduced proliferation in T lymphocytes in aged humans is predominantly in the CD8+ subset, and is unrelated to defects in transmembrane signaling which are predominantly in the CD4+ subset

Peripheral blood lymphocytes (PBL) from elderly donors have a reduced proliferative response to phytohemagglutinin (PHA) and anti-CD3 monoclonal antibodies (mAb) compared to those from young donors. To examine whether this is due to intrinsic deficiencies in proliferative potential of T-cell subsets, we compared the growth of unsorted PBL vs sorted CD4+ or CD8+ CD11- cells after anti-CD3 mAb or PHA stimulation. Unsorted PBL of elderly donors (greater than 65 years) showed a significant decrease in proliferation compared to young donors (20-30 years) when stimulated with anti-CD3 mAb or PHA. Sorted CD4+ and CD8+ cells were grown in culture in the absence of accessory cells under optimized growth conditions (CD28 mAb, interleukin 2 and beta-mercaptoethanol present). CD4+ cells from elderly donors showed no reduced growth after anti-CD3 mAb stimulation and only slightly decreased growth after stimulation with PHA. CD8+ CD11- cells from elderly donors, however, showed a 20-30% reduction in the proportion of cells proliferating in response to the mitogens and up to 40% reduction in the rate of cell-cycle progression of the responding cells. We examined whether this reduced proliferation is related to decreased efficiency of signal transduction by comparing this to the mobilization of intracellular free calcium ([Ca2+]i) and calcium channel activity after stimulation with anti-CD3 mAb or PHA. [Ca2+]i was measured in CD4 and CD8 subsets of young and elderly donors using a flow cytometric assay with the dye indo-1. Compared to cells from young donors, CD4+ cells from elderly donors showed a [Ca2+]i response which was up to 26% lower after stimulation with CD3 and 10% lower after stimulation with PHA. This appeared to be related to decreased calcium channel activity in elderly donors, rather than mobilization of intracellular Ca2+ stores. CD8+ cells from elderly donors, however, had a slightly, but significantly, greater [Ca2+]i response to CD3 mAb and PHA than did cells from young donors. Since the age-dependent defect in proliferation is mainly in CD8+ cells, but the [Ca2+]i decline is predominantly in the CD4+ subset, these results suggest that the reduced proliferation of T cells from older donors is not related to decreased efficiency of transmembrane signal transduction.     

Flow cytometric visualisation of cytokine production by CD3-CD56+ NK cells and CD3+CD56+ NK-T cells in whole blood

BACKGROUND: Natural killer (NK) cells produce multiple cytokines with potential immune regulatory roles. We standardised a whole-blood flow cytometry method to visualise intracellular cytokine production by NK cells for the study of NK cell biology and for clinical monitoring. METHODS: With a three-colour fluorescent labelling technique, specific cytokine production by NK or T cells was visualised directly in whole blood in the same sample after stimulation by phorbol 12-myristate 13-acetate (PMA) and ionomycin and by electronically gating on the CD3-ve/CD56+ve NK population or on the CD3+/CD56+ NK-T-cell population. RESULTS: Detectable levels of tumour necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) but not of interleukin-2 (IL-2) or IL-4 were easily observed in NK cells. The visualisation of the cytokine production by NK cells was dependent on the addition of a Golgi transport inhibitor, Brefeldin A. Other known stimuli for NK cells (IL-2 and CD16 monoclonal antibody and incubation with K562, the NK-sensitive cell line) promoted IFN-gamma and TNF-alpha production in NK cells to a lesser extent than did PMA and ionomycin stimulation. CONCLUSIONS: This whole-blood flow cytometric assay appears to be an useful and easy method to examine cytokine production by NK cells and/or by CD3+CD56+ NK-T lymphocytes in patients with relevant diseases.     

Inhibition of interleukin-2 receptor (CD25) expression induced on T cells from children with acute lymphoblastic leukemia

 Peripheral blood lymphocytes obtained from children with acute lymphoblastic leukemia (ALL) at onset were studied for the expression of interleukin-2 (IL-2) receptor α-chain (CD25) by two-color flow-cytometric analysis. Stimulated with anti-CD3 monoclonal antibody (mAb) alone, CD25 expression was significantly suppressed in CD4⁺ T cells from 27 of 48 (56.3%) cases and in CD8⁺ T cells from 29 of 48 (60.4%) cases. When stimulated with anti-CD3 mAb plus phorbol 12-myristate 13-acetate (PMA), CD25 expression was clearly restored in certain cases of ALL. When PMA plus ionomycin were used for stimulation of T cells, CD25 was inducible in a majority of cases. Interestingly CD25 expression upon anti-CD3 mAb stimulation was recovered after complete remission had been achieved. These observations suggest the presence in ALL children at onset of an in vitro defect in the signal transduction pathway of the T-cell-receptor/CD3 complex, resulting in inefficient CD25 expression. However, immune-staining analysis indicated that protein kinase C was normally translocated from the cytosol fraction to the cell membrane fraction. The mobilization of cytoplasmic free calcium is also normal. Received: 27 March 1996 / Accepted: 23 December 1996     

Lysis of tumor cells by CD3+4-8-16+ T cell receptor alpha beta- clones, regulated via CD3 and CD16 activation sites, recombinant interleukin 2, and interferon beta 1

A small subpopulation (about 2%) of normal CD3+ human T lymphocytes lacks both CD4 and CD8 antigens. We have cloned these cells from peripheral blood lymphocytes (PBL) obtained from healthy individuals and from a patient with severe combined immunodeficiency. Six out of seven CD3+4-8-clones exert strong cytolytic activity against a variety of so-called NK-susceptible and -nonsusceptible tumor target cells. Their target cell specificity spectrum can virtually be as wide as that of CD3-NK cell-derived clones, with strong lytic capacity. Some of these clones also exert antibody-dependent cellular cytotoxicity (ADCC), a characteristic of NK cell-derived clones but not of CD3+4+ or CD8+ mature T cell-derived clones. Such CD3+ T cell clones do not express the CD16 (IgG Fc receptor) antigen, but as we demonstrate here, the CD16 antigen can be identified on CD3+4-8-clones. Both ADCC activity and CD16 antigen expression are lower in CD3+4-8- than in CD3- NK cell clones. Lytic activity of mature CD3+4+ or CD8+ and CD3- NK cell clones can be augmented, respectively, by anti-CD3 or anti-CD16 monoclonal antibodies (MAb), but that of CD3+4-8- clones are augmented by both MAb. Lytic activity of CD3+4+ or CD8+ clones is considerably enhanced after 3 hr of incubation with recombinant IL 2, as found for CD3- NK cells. Enhancement of lytic activity of allospecific CD3+4+ or CD8+ clones requires 18 hr of incubation. Thus, CD3+4-8-16+ cells share several features with CD3- NK cells. However, they express the CD3 antigen, which is characteristic for CD4+ or CD8+ mature T cells. Our results also indicate that although CD3+4-8- clones react with five preparations of anti-CD3 MAb tested, these clones do not express a classical CD3+/Ti alpha, beta antigen receptor complex. This is suggested by the finding that the CD3+4-8- clones do virtually not express the common epitope of the T cell receptor alpha, beta-chains as identified by the WT31 MAb. These CD3+4-8- lymphocytes may represent functionally mature lymphocytes of a distinct T cell subpopulation having a particular immune function.     

The role of protein kinase C in transmembrane signaling by the T cell antigen receptor complex. Effects of stimulation with soluble or immobilized CD3 antibodies

Phorbol esters, such as phorbol myristate acetate (PMA), are known to be potent co-stimulants with calcium ionophores for activation of T lymphocytes. The most extensively studied intracellular effect of PMA is its ability to activate the cytoplasmic enzyme protein kinase C (pkC). Herein, we examined the role of pkC activation during T cell activation. During physiologic activation, this enzyme is activated by diacylglycerol which is generated through the hydrolysis of polyphosphoinositides. Therefore, we studied the activation of T lymphocytes induced by a synthetic diacylglycerol, dioctanoylglycerol. In contrast to PMA, this compound can be metabolized in T cells and presumably more closely mimics physiologic activation of pkC. Dioctanoylglycerol together with reagents that induce increases in intracellular free Ca2+ concentration, Ca2+ ionophores, or anti-cluster designation (CD)3 monoclonal antibodies (mAb) were able to induce interleukin 2 receptor expression and proliferation of T lymphocytes. Previous studies have demonstrated that the stimulation of T cells via the CD3/T cell antigen receptor complex by mAb against CD3 leads to an increase in cytoplasmic free Ca2+ and to an activation of pkC. Paradoxically, however, soluble CD3 antibodies do not cause proliferation of resting purified T cells. Inasmuch as immobilization of CD3 mAb has been shown to influence the agonist properties of such antibodies, we compared the ability of soluble and immobilized CD3 mAb to activate pkC. We demonstrated herein that soluble CD3 mAb cause only a very transient activation of pkC in the T cell leukemic line Jurkat. This pkC activation is markedly prolonged when Jurkat cells are stimulated with immobilized rather than soluble CD3 antibodies. These studies suggest that activation of pkC plays a major role in T cell activation and that the activation of pkC is influenced by the form in which CD3 mAb is presented to T cells.     

Cytokine production by mature and immature thymocytes.

We have studied the ability of subpopulations of activated thymocytes to produce four cytokines (IL-2, IL-4, IFN-gamma and TNF-alpha) which are believed to play roles in T cell development. Supernatants from various thymocyte subsets activated with calcium ionophore and PMA were tested for these cytokines. All CD3hi thymocyte subsets (CD4+8-, CD4-8- and CD4-8+) produced high titers of these four cytokines except CD3+4-8+ thymocytes, which did not produce IL-4. In contrast, CD4+8+ thymocytes did not produce any detectable cytokines. CD3-4-8- thymocytes produced IL-2, IFN-gamma, and TNF-alpha (but not IL-4) when activated by calcium ionophore + PMA and IL-1. We then separated CD3-4-8- thymocytes into IL-2R+ and IL-2R-. CD3-4-8-IL-2R+ thymocytes only produced small amounts of IL-2 when activated with calcium ionophore + PMA + IL-1, whereas CD3-4-8-IL-2R- thymocytes did not require IL-1 to produce IL-2, IFN-gamma, and TNF-alpha. Finally, CD4-8+3- thymocytes (an immature population believed to be an intermediate between CD3-4-8- and CD4+8+ thymocytes) only produced marginally detectable levels of IL-2 upon stimulation with calcium ionophore, PMA, and the addition of IL-1 did not result in increased levels of cytokine production. These observations indicate discrete patterns of cytokine production by the subsets studied and suggest specific controls of cytokine gene expression during T cell development.     

Contact of human immunodeficiency virus type 1-infected and uninfected CD4+ T lymphocytes is highly cytolytic for both cells.

Individuals infected with the human immunodeficiency virus (HIV) experience a marked loss of CD4+ T lymphocytes, leading to fatal immunodeficiency. The mechanisms causing the depletion of these cells are not yet understood. In this study, we observed that CD4+ T lymphocytes from HIV type 1 (HIV-1)-infected and uninfected individuals rapidly lysed B lymphoblasts expressing the HIV-1 envelope glycoprotein on the cell surface and Jurkat cells expressing the complete virus. Contact of uninfected CD4+ T cells with envelope glycoprotein-expressing cells also resulted in the lysis of the uninfected CD4+ T cells. Cytolysis did not require priming or in vitro stimulation of the CD4+ T cells and was not restricted by major histocompatibility complex molecules. Cytotoxicity was inhibited by soluble CD4 and anti-CD4 monoclonal antibodies that block binding of CD4 to gp120. In addition, neutralizing anti-CD4 and anti-gp120 monoclonal antibodies which block postbinding membrane fusion events and syncytium formation also inhibited cell lysis, suggesting that identical mechanisms in HIV-infected cultures underlie cell-cell fusion and the cytolysis observed. However, cytotoxicity was not always accompanied by the formation of visible syncytia. Rapid cell lysis after contact of uninfected and HIV-1-infected CD4+ T cells may explain CD4+ T-cell depletion in the absence of detectable syncytia in infected individuals. Moreover, because of its vigor, lysis of envelope-expressing targets by contact with unprimed CD4+ T lymphocytes may at first glance resemble antigen-specific immune responses and should be excluded when cytotoxic T-lymphocyte responses in infected individuals and vaccinees are evaluated.     

Stimulation of AIDS lymphocytes with calcium ionophore (A23187) and phorbol ester (PMA): studies of cytoplasmic free Ca, IL-2 receptor expression, IL-2 production, and proliferation

We have studied whether the decreased lymphocyte proliferative responses of AIDS lymphocytes to stimulation by mitogens and antigens may be overcome when challenged with a combination of calcium ionophore A23187 and phorbol ester PMA. Comparison of the proliferative response of lymphocytes from nine patients with AIDS with the response of lymphocytes from nine control subjects showed that the response of AIDS lymphocytes was severely decreased when stimulated with PHA and no further response could be achieved by stimulation with A23187/PMA. On the other hand, no significant difference between the PHA-induced rise of cytoplasmic free calcium concentration ([Ca2+]1) in normal and AIDS lymphocytes was observed. The percentage of cells expressing IL-2 receptors (CD25) was also normal both after addition of PHA and after addition of A23187/PMA and the expression was normal on both CD4 and CD8 cells. The production of IL-2 in normal lymphocytes stimulated with A23187/PMA was 33 times higher than that after stimulation with PHA. In AIDS lymphocytes the production of IL-2 induced by all activators was severely decreased compared to control subjects, although the production of IL-2 after stimulation with A23187/PMA was higher than that in control lymphocytes after stimulation with PHA. The present study shows that a direct activation of protein kinase C combined with mobilization of cytoplasmic calcium does not overcome the lymphocyte proliferative deficiency of AIDS lymphocytes.     

PGE2-induced cyclic AMP accumulation in human CD4+ T cells is strongly enhanced during the CD2-mediated activatory process

The effect of a mitogenic combination of two different anti-CD2 monoclonal antibodies on the PGE2-stimulated and basal cAMP production in human CD4+ T cell clones was investigated. The anti-CD2 stimulation strongly potentiates the PGE2-induced cAMP production while both PMA and A23187 produced a less potent effect. On the opposite the anti-CD2 treatment is without any effect on the basal cAMP level contrasting with a marked increase of intracellular cAMP concentrations with A23187 or the combination of A23187 and PMA. These results suggest that activation of CD4+ human T cells via the CD2 molecule significantly influences the cAMP-related transduction pathway. Although PMA and A23187 also modulate the activity of this pathway, their effect in this model is more likely mediated through an amplification of basal cAMP production.     

Antibodies to the L3T4 and Lyt-2 molecules interfere with antigen receptor-driven activation of cloned murine T cells

When L3T4+ cloned murine helper T lymphocytes (HTL) are stimulated with antigen or immobilized anti-T cell receptor (TCR) monoclonal antibodies (mAb) at concentrations which are optimal for proliferation, anti-L3T4 mAb inhibits activation as measured by proliferation and lymphokine production. Under similar conditions, IL 2-independent proliferation of Lyt-2+ cloned murine cytolytic T lymphocytes (CTL) stimulated by anti-TCR mAb is inhibited by anti-Lyt-2 antibodies. Proliferation of cloned HTL and CTL cells stimulated by IL 2 is not affected by the anti-L3T4 and anti-Lyt-2 mAb. The inhibition of TCR-induced activation of the T cell clones is not due to interference with the binding of the anti-TCR mAb. Stimulation of the TCR has been proposed to induce lymphokine secretion and proliferation by T cells through a pathway involving the activation of protein kinase C and the stimulation of an increase in the concentration of intracellular free calcium. However, proliferation of T cells stimulated by PMA (which activates protein kinase C) plus the calcium ionophore A23187 (which increases the concentration of intracellular free calcium) is not affected by mAb reactive with the Lyt-2 or L3T4 structures. If TCR stimulation does indeed activate T cells by activating protein kinase and increasing intracellular free calcium, then our data suggest that anti-L3T4 and anti-Lyt-2 mAb inhibit TCR-driven proliferation at some step before the activation of protein kinase C and the stimulation of a rise in intracellular free calcium concentration. Our results suggest that anti-L3T4 and anti-Lyt-2 mAb interfere with early biochemical processes induced by stimulation of the TCR. In HTL, which proliferate via an autocrine pathway, anti-L3T4 mAb appears to inhibit proliferation by interfering with signaling events involved in lymphokine production. Inhibition of IL 2-independent proliferation of Lyt-2+ cells by anti-Lyt-2 mAb appears to occur by a different mechanism. The precise molecular basis for the interference of each cell type has not yet been characterized.     

Human P40/IL-9. Expression in activated CD4+ T cells, genomic organization, and comparison with the mouse gene

P40 is a cytokine that was originally identified in the mouse as a T cell growth factor, but whose spectrum of potential targets was recently shown to include mast cells as well as megakaryoblastic leukemic cells. Given these multiple activities, it was proposed that the protein be renamed IL-9. The analysis of P40 genomic clones reported here shows that the human and mouse P40 genes consist of 5 exons spread over approximately 4 kb of DNA and organized in a similar fashion in both species. The two genes exhibit a high degree of identity in the coding sequence and in the 5' untranslated regions, which contain, among other consensus motifs, a conserved sequence for the binding of AP-1. Expression of human P40 was studied in PBMC. Treatment of the cells with PMA and a calcium ionophore induced strong expression of a 0.7-kb P40 mRNA. No message was detected in unstimulated cells or in cells stimulated with LPS or Staphylococcus aureus, indicating that P40 expression is not constitutive and suggesting that the gene is not easily activated in B lymphocytes and in monocytes. By contrast, T cell mitogens such as PHA or anti-CD3 antibodies induced a substantial P40 expression that was further enhanced in the presence of PMA. Cell fractionation experiments indicated that, under these conditions, the protein is preferentially induced in CD4+ T cells. The induction of P40 by anti-CD3 antibodies suggests that P40 production is part of the normal T cell response to antigenic stimulation.     

Importance of immunoglobulin isotype in therapy of experimental autoimmune encephalomyelitis with monoclonal anti-CD4 antibody

Experimental allergic encephalomyelitis (EAE) is an autoimmune disease mediated by CD4+ T cells. Prior studies have established that monoclonal anti-CD4 antibodies can reverse EAE. To determine whether immunoglobulin isotype plays a role in the therapy of EAE with anti-CD4 antibody, an isotype switch variant family of the mouse IgG1 anti-rat CD4 antibody W3/25 was isolated with the fluorescence-activated cell sorter. The IgG1, IgG2b, and IgG2a W3/25 isotype variants all had identical binding capacities for rat CD4+ T cells. Although all three W3/25 isotypes showed some beneficial effects in the amelioration of EAE, the IgG1 and IgG2a W3/25 antibodies were superior to the IgG2b W3/25 in the treatment of EAE. Multiparameter fluorescence-activated cell sorter analysis of T cell subpopulations from treated rats showed that none of the antibodies of the W3/25 isotype switch variant family substantially depleted CD4+ target cells in vivo. These experiments demonstrate that immunoglobulin isotype is important in the monoclonal antibody therapy of autoimmune disease. They indicate that therapy of EAE may be successful without a major depletion of CD4+ lymphocytes. Immunotherapy may be optimized by selecting an appropriate isotype of a monoclonal antibody.     

CD4+ and γδTCR+ T lymphocytes are sources of interleukin-17 in swine

In the veterinary field, only limited information is available about interleukin-17A (IL-17), despite the fact that this cytokine plays an important role during pro-inflammatory immune responses and induces the production of chemotactic factors for neutrophils. The aim of this study was to characterize porcine IL-17-producing cells. We tested the cross-reactivity of five anti-human IL-17 monoclonal antibodies because such antibodies against porcine IL-17 are currently unavailable. Whole blood cells (WBCs) were stimulated with phorbol-myristate-acetate (PMA) and ionomycin and subsequently analyzed by flow cytometry. The antibody clone SCPL1362 was found to cross-react with porcine IL-17, whereas the other four antibodies tested did not recognize this cytokine. Using this antibody, we characterized porcine WBC-secreting IL-17 after PMA and ionomycin stimulation. All IL-17-producing WBCs were positive for the T lymphocyte marker CD3. Myeloid cells (CD172α(+)) and B lymphocytes (CD79α(+)) were IL-17 negative. The major subset of IL-17 positive T lymphocytes was the CD4(+) lymphocytes (about 60% of all IL-17 positive WBCs). The remaining IL-17 positive WBCs were γδTCR(+) lymphocytes. CD8 positive and CD8 negative cells were found within both CD4(+) and γδTCR(+) cells producing the cytokine. Moreover, IL-17 positive cells were mostly CD45RA negative, therefore activated cells or memory cells. Flow cytometry data were confirmed using sorted cells. Both sorted CD4(+) and γδTCR(+) cells produced IL-17 at mRNA level after PMA and ionomycin stimulation while double negative CD4(-)γδTCR(-) cells were negative for IL-17. We can conclude that only two subpopulations of porcine WBCs are sources of IL-17 after non-specific stimulation: CD3(+)CD4(+) and CD3(+)γδTCR(+).     

CD11b and CD11c antigens are rapidly increased on human natural killer cells upon activation.

A brief incubation with PMA or other secretagogues has been reported to enhance the expression of C3 receptors on myeloid cells. We now observed increases up to threefold in the expression of the CD11b/CD18 Ag (CR3) and the CD11c/CD18 (CR4, p150,95) Ag after 30-min incubation with PMA on a subpopulation of PBL. The majority of these cells was CD56+ and CD16+. Isolated NK cells retained their ability to respond to PMA with increased CD11b and CD11c membrane Ag expression. Preincubation of the cells with cycloheximide did not abrogate the effects of PMA. Other membrane molecules on lymphocytes (CD11a, CD35, CD45, CD45R0, CD56) were not modulated by PMA. Purified C5a, FMLP, or LPS increased CR3 on myeloid cells but not on lymphocytes. In contrast, cell activation by K562 cells led to an augmentation of the CD11b Ag expression on CD56+ lymphocytes but not on other lymphocytes or monocytes. This increase was inhibitable by CD11a mAb. Rapid increases of CD11b and CD11c Ag on the membrane of NK cells may be of biologic significance because many functions have been attributed to these molecules.     

Mechanisms of immune memory. T cell activation and CD3 phosphorylation correlates with Ta1 (CDw26) expression

The Ta1 (CDw26) Ag distinguishes a subset of circulating T lymphocytes that is the major population proliferating to recall Ag challenge. Unlike receptors for growth factors such as IL-2 and transferrin, the Ta1 Ag is present on T cell lines and clones irrespective of cell cycle. The appearance of Ta1 on T cells that respond to recall Ag allowed us to investigate activation requirements that may be associated with T cell immune memory. Ta1+ peripheral blood T cells were induced to proliferate by mAb recognizing either the invariant chains of the TCR, or by pairs of mitogenic antibodies directed to the CD2 molecule. In contrast, Ta1- cells were not stimulated by these antibodies. In addition, Ta1-cells did not proliferate maximally after addition of the phorbol ester PMA in combination with the calcium ionophore Ionomycin, suggesting that the intracellular targets of these agents may not be fully active. Anti-CD3-induced elevation of intracellular calcium levels was equivalent in the two subpopulations, suggesting that calcium mobilization mechanisms were intact. In contrast, PMA-induced phosphorylation of TCR CD3 chains was significantly greater in Ta1+ cells as compared to Ta1- T cells. Taken together, our results indicate that Ta1 expression, which is associated with T cell activation and memory, may be causally related to TCR and CD2-mediated activation mechanisms. The PMA inducible TCR phosphorylation in Ta1+ memory cells associated with their increased ability to proliferate after CD3/TCR or CD2 stimulation suggests that intracellular phosphorylation events may be causally associated with T cell immune memory.     

Stepwise activation of T cells. Role of the calcium ionophore A23187

The calcium ionophore A23187, at a concentration of 1 microgram/ml, is able to stimulate proliferation of freshly isolated peripheral blood lymphocytes, CD4+-enriched cells, or CD8+-enriched cells as measured by [3H]thymidine incorporation. This proliferation is accompanied by an increase in interleukin 2 (IL-2) receptor expression but not by a detectable up-regulation in (IL-2) production or the development of cytotoxicity. Proliferation can be blocked by anti-CD3, CD4, or CD8 monoclonal antibodies, but not by anti-Tac. If CD8+-enriched cells are activated for 3 days with A23187 and the blasts present on day 3 are sorted and returned to culture, they rapidly develop cytolytic activity in the presence of recombinant IL-2 but not recombinant interferon-gamma. CD4+ enriched cells, after activation with A23187, do not become cytotoxic in the presence of either recombinant IL-2 or recombinant interferon-gamma. These findings permit study of the stepwise maturation of T cells in this alternative pathway by using "minimal signals" that do not, by themselves and as used in these studies, stimulate precursor Tc to mature to full effector cytotoxic function. These findings are consistent with the model that A23187 drives T cells only part way along a pathway of maturation and that an additional second signal must be given to effect maturation of cytotoxic status.