Antigen-specific and -nonspecific mitogenic signals in the activation of human T cell clones

We have directly compared the signals required for: induction of the [Ca+2]i response, expression of Tac antigen, and proliferation in antigen-specific human T cell clones. We have previously shown that antigen-specific activation of cloned T cells under conditions leading to proliferation is accompanied by a rapid increase in [Ca+2]i. Cloned T cells showed increased [Ca+2]i, enhanced Tac expression, and proliferated in response to specific antigen in the presence of viable, genetically appropriate antigen-presenting cells. Paraformaldehyde fixation of antigen-presenting cells after "pulsing" with antigen prevented proliferation, but did not affect MHC-restricted [Ca+2]i or Tac responses. Treatment of cloned T cells with monoclonal anti-T3 antibody also increased [Ca+2]i and Tac expression but did not induce proliferation. Proliferation was restored by viable autologous or allogenic APC or exogenous IL 2, but not by IL 1. In contrast to resting T cells, T cell clones were insensitive to the mitogenic effects of lectins or of ionophores and phorbol esters. These results suggest that activation of antigen-specific T cells requires the sequential action of at least two signals. The first is MHC restricted and is mediated by interaction of antigen + MHC class II products with the T cell receptor (T3-Ti) complex. This leads to Tac expression and increased [Ca+2]i, but is not sufficient for proliferation. This signal can be bypassed by anti-T3 monoclonal antibodies. Proliferation requires a second, nonantigen-specific, non-MHC-restricted antigen-presenting cell signal, which cannot be replaced by IL 1 in our system. This signal can be bypassed, however, by the addition of exogenous IL 2 to cells that have received the first signal and express Tac, suggesting that it is required for IL 2 synthesis and secretion. T cell clones therefore provide a useful model for studying antigen-dependent and -independent events in cell activation.     

The role of T3 surface molecules in the activation of human T cells: a two-stimulus requirement for IL 2 production reflects events occurring at a pre-translational level

The human T cell leukemia Jurkat was used as a model to examine the requirements of T cell activation. These studies demonstrated that antibodies reactive with the T cell-specific T3 antigen were insufficient to result in the activation of Jurkat cells, determined by the secretion of IL 2. IL 2 production occurred only in the presence of a second stimulus, the phorbol ester PMA. With the use of an IL 2-specific cDNA probe, the appearance of IL 2 RNA, similarly, occurred only when cells were stimulated with both anti-T3 antibodies and PMA. These results demonstrate a two-stimulus requirement for gene expression in human T cells.     

IL 2 receptor induction on human T lymphocytes: role for IL 2 and monocytes

In this report we studied the requirements for the activation and proliferation of highly purified human T lymphocytes. Purified T cells incubated for 3 days with PHA neither proliferate nor express IL 2 receptors as detected by FACS analysis with the use of anti-Tac antibodies. However, purified T cells incubated with Con A or anti-T3 moAb do not proliferate, albeit 30 to 35% T cells express Tac epitopes. The addition of IL 2, either natural purified or recombinant, resulted in both the appearance of Tac antigen and the proliferation of PHA-activated T cells. Much to our surprise, IL 2 did not induce proliferation of Tac-positive T cells activated by Con A or soluble anti-T3 unless monocytes were added to the cultures. These data suggested that two classes of IL 2 receptors might exist on T cells, one of which was not functionally involved in T cell proliferation. In keeping with this interpretation, we have been able to demonstrate, using a radiolabeled IL 2 binding assay, that anti-T3 moAb induced almost exclusively IL 2 receptors of low affinity (Kd = 30 to 70 X 10(-9) M) and that additional signals, provided by monocytes, are required for the acquisition of high affinity receptors. IL 2 itself can induce high affinity receptors on PHA-stimulated T cells but not on cells activated by Con A or anti-T3. In this latter case the physical presence of monocytes is required and cannot be substituted by IL 1, thus indicating a previously unreported role for monocytes. It is postulated that the contact of monocytes with T cells induces a switch from an inactive low affinity conformation of the IL 2 receptor to a functional high affinity one.     

Spontaneous production of a suppressor factor by a human macrophage-like cell line U937. II. Suppression of antigen- and mitogen-induced blastogenesis, IL 2 production and IL 2 receptor expression in T lymphocytes

U937, a human macrophage-like cell line, spontaneously produces a factor which inhibited blastogenic responses of human blood T lymphocytes stimulated with tuberculin-purified protein derivative (PPD) or phytohemagglutinin (PHA). We investigated the mechanism of suppressor action of the U937 factor. The U937 suppressor factor inhibited interleukin 2 (IL 2) production by human blood T lymphocytes stimulated with PPD or PHA. IL 1 did not overcome the inhibitory action of the U937 factor on PPD-induced IL 2 production by human blood T lymphocytes. The U937 factor also inhibited the production of IL 2 by a human leukemic cell line, JURKAT, stimulated with PHA. The U937 suppressor factor interfered with the expression of Tac antigen (IL 2 receptor) on PPD- or PHA-stimulated blood T lymphocytes. The inhibitory activity of the U937 factor on Tac expression was not affected by the addition of IL 2 or a crude lymphokine-containing T cell supernatant. Tac expression was more sensitive than IL 2 production to inhibition by U937-conditioned medium. The U937 suppressor factor was precipitable by 33 to 67% saturated ammonium sulfate and was inactivated at pH 2 or pH 11. Sephacryl S-200 Gel filtration analysis of U937 culture supernatants revealed that the inhibitory activities for blastogenesis, IL 2 production, and Tac expression co-purified in fractions with an apparent m.w. between 67,000 and 130,000. These data indicate that U937 spontaneously produces a macromolecular suppressive factor with major locus of action on the production of IL 2 and the expression of the IL 2 receptor.     

Identity of common phosphoprotein substrates stimulated by interleukin 2 and diacylglycerol suggests a role of protein kinase C for IL 2 signal transduction

Interleukin 2 (IL 2) is a polypeptide growth factor essential for the proliferation and differentiation of T lymphocytes, large granulocytic lymphocytes, and, potentially, cells of the antibody-producing lineage, B lymphocytes. Many of the biological properties of IL 2 may be mimicked or potentiated by a potent class of tumor promoters, phorbol esters. Phorbol esters have recently been shown to associate with and activate a unique phospholipid/Ca2+-dependent phosphotransferase, protein kinase C (PK-C). Utilizing two-dimensional gel electrophoresis, we have compared the IL 2 and diacylglycerol-induced protein phosphorylation patterns of several IL 2-dependent murine cell lines. Both IL 2 and synthetic diacylglycerol, 1-oleyl-2-acetylglycerol (OAG), stimulated phosphorylation of a number of protein substrates in intact cells compared to unstimulated controls. Three groups of substrates were identified; the first showed increased phosphorylation following stimulation with either IL 2 or OAG, while the second and third groups showed increased phosphorylation following stimulation with IL 2 but not OAG, and with OAG but not IL 2, respectively. Here, we characterize the kinetics of phosphorylation of one cellular substrate, p68, which appears to be phosphorylated in response to direct activators of PK-C or lymphoid or myeloid growth factors in their respective lineage cell lines. The observation that IL 2 also stimulates a unique series of phosphoproteins in addition to those induced by direct PK-C activators suggests that IL 2 may initiate additional protein kinase activities, unrelated to PK-C, which may also be critical for the ligand-receptor signal transduction process regulating growth and gene expression.     

Desferoxamine blocks IL 2 receptor expression on human T lymphocytes

Thymidine uptake by PHA-stimulated human lymphocytes is reduced in the presence of 100 microM or greater concentrations of the iron-chelating agent desferoxamine (DF). We assessed expression of IL 2 receptor, 4F2 and Ia antigens, IL 2 production, and cell cycle progression by blood mononuclear cells (MNC) stimulated by PHA in the presence or absence of DF to determine whether the lack of T cell proliferation was a manifestation of inhibition of an earlier activation event. Tac antigen expression on PHA-stimulated MNC was inhibited by DF throughout 8 days of culture, and those cells which were positive had a low density of Tac antigen as compared with controls without DF. Expression of other activation antigens, 4F2 and Ia, was not impaired by DF. The supernatants of the DF-containing and control cultures contained equivalent IL 2 activity, as measured on the HT-2 cell line. Cell cycle analysis of these cultures shows that the addition of DF at the beginning of culture blocks most cells from undergoing G0 to G1 transition, whereas later addition of DF arrests the progression of the T cell blasts through the cell cycle. Separation of cells cultured with PHA and DF into Tac+ and Tac- subsets showed that progression from G0 to G1 was restricted to the former subset. These results suggest that interference with IL 2 receptor expression might contribute to the block in mitogen-induced proliferation caused by DF.     

The anti-T cell monoclonal antibody 9.3 (anti-CD28) provides a helper signal and bypasses the need for accessory cells in T cell activation with immobilized anti-CD3 and mitogens

CD28 is an antigen of 44 kDa which is expressed on the membrane of the majority of human T cells. The present study examines the functional effects of an anti-CD28 monoclonal antibody (mAb 9.3) on T cell activation induced with immobilized anti-CD3 mAb OKT3 or with mitogens, in the absence of accessory cells. To this end, we used blood resting T cells that were completely depleted of accessory cells (monocytes, B cells, and natural killer cells), and consequently did not respond to recombinant interleukin-2 (rIL-2), to immobilized OKT3, to PHA, or to Con A. Addition of mAb 9.3 to the cultures enhanced IL-2 receptor expression (Tac antigen) on PHA- or immobilized OKT3-stimulated T cells and induced IL-2 receptors on Con A-stimulated T cells. Moreover, addition of mAb 9.3 to cultures of T cells stimulated with PHA, Con A, or immobilized OKT3 resulted in IL-2 production. Soluble mAb 9.3 was a sufficient helper signal for T cell proliferation in response to PHA or immobilized OKT3. Crosslinking of mAb 9.3 by culture on anti-mouse IgG-coated plates enhanced the helper effect and was an essential requirement for the induction of T cell proliferation in response to Con A. No other anti-T cell mAb (anti-CD2, -CD4, -CD5, -CD7, -CD8) was found to provide a complete accessory signal for PHA or Con A stimulation of purified T cells. T cell proliferation induced by the combination of PHA and mAb 9.3 was strongly inhibited by the anti-IL-2 receptor mAb anti-Tac. In conclusion, mAb 9.3 can provide a signal bypassing monocyte requirement in T cell activation with immobilized OKT3, PHA, and Con A, resulting in an autocrine IL-2-dependent pathway of proliferation.     

Synergistic induction of interleukin 2 receptor (TAC) expression on YT cells by simultaneous activation of distinct signal transduction pathways

The human NK-like leukemic cell line YT was used to study interleukin 2 receptor (IL-2R; Tac) expression induced by activators of distinct signal transduction pathways. Tac expression was induced by active phorbol esters (12-O-tetradecanoylphorbol 13-acetate [TPA] and 4 beta-phorbol 12,13-didecanoate), which directly activate protein kinase C (PKC), as well as forskolin (FK), a stimulator of adenylate cyclase. A synergistic effect on Tac expression was obtained by simultaneous stimulation with optimal concentrations of phorbol esters and FK. Inactive phorbol esters (4 beta-phorbol, 4 alpha-phorbol 12,13-didecanoate) and the inactive analog of FK (1,9-dideoxyforskolin) had no effect on Tac expression. The active phorbol esters synergized also with interleukin 1 (IL-1) and tumor necrosis factor alpha (TNF alpha) in Tac expression. Staurosporine, a potent inhibitor of PKC in vitro, inhibited Tac expression marginally in YT cells stimulated with FK, and enhanced Tac expression in cultures treated with TPA, TNF alpha, or IL-1. Based on the assumption that synergistic effects are observed when two agonists use different signaling pathways, these findings provide evidence that IL-1, TNF, and TPA use different pathways/regulatory elements to regulate Tac expression on the cell surface. Synergistic upregulation of Tac expression by simultaneous activation of distinct pathways may be an important mechanism to modulate the immune response.     

Defect of CD2- and CD3-mediated activation pathways in T cells of atopic patients: role of interleukin 2.

In the present work we analyzed the proliferative response of T lymphocytes from 11 atopic patients stimulated in vitro via either the CD2 or the CD3 pathway of cell activation. In both cases we found a significant decrease of thymidine incorporation in cell DNA in comparison with T cells from normal donors. The mechanism of this impaired proliferative response was analyzed. Atopic patients' T cells were found to secrete low quantities of interleukin 2 (IL2) and to express low amounts of Tac antigen, measured as both a percentage of Tac-positive cells and a mean fluorescence intensity of Tac antigen per cell. Addition of recombinant IL2 to cultures completely restored both cell proliferative response and Tac antigen expression. This effect was specific of IL2 since addition of IL1 or IL4 did not significantly affect T cell proliferative response. We conclude that atopic patients' T lymphocytes have a defect in both CD2 and CD3 pathways of cell activation relying on impairment of IL2 production, without involving IL2 responsiveness or other lymphokine defects.     

Augmentation of lymphocyte responses by monoclonal antibodies to the gangliosides GD3 and GD2: the role of protein kinase C, cyclic nucleotides, and intracellular calcium

Previous studies have shown that MAb's against the gangliosides GD3 and GD2 may augment T cell responses to a variety of stimuli. We present evidence that antiganglioside MAb's, like PHA, increase intracellular cGMP and protein kinase C yet have no effect on intracellular Ca2+. Stimulation of T cells with MAb's to GD3 was associated with increased cGMP levels, particularly in the CD8+ T cell subset which showed the highest degree of potentiation by the MAb's. Augmentation of T cell responses by the MAb's to GD3 and GD2 was also mimicked by activation of PKC with phorbol esters but both agents together produced marked synergistic effects on cell division, suggesting they had different but complementary modes of action. Furthermore, use of neomycin to inhibit PKC activation only partially reversed the augmentation of proliferative responses by the antiganglioside MAb's. It did however inhibit the MAb-induced increase in IL2 production and IL2 receptor (Tac) expression. These studies suggest therefore that the potentiation of IL2 production by the MAb's against GD2 and GD3 was due to enhanced activation of PKC whereas their augmentation of proliferative responses appeared to be due to effects on late events in T cell activation and was associated with both increased cGMP levels and activation of PKC.     

Mechanisms of human T cell response to mitogens: IL 2 induces IL 2 receptor expression and proliferation but not IL 2 synthesis in PHA-stimulated T cells

Human peripheral blood T cells were purified by a four-step procedure which included depletion of plastic-adherent cells, rosetting with sheep red blood cells, nylon wool passage, and treatment with mouse monoclonal antibodies to human Ia antigens plus complement. The purified T cells completely failed to proliferate to phytohemagglutinin (PHA). Bacterially derived recombinant human interleukin 2 (IL 2) reconstituted the proliferative response of resting T cells to PHA. The optimal concentration of IL 2 required was 100 to 200 U/ml. IL 2 alone caused no T cell proliferation. Both PHA and IL 2 needed to be present together for the proliferation of T cells to occur. Incubation of T cells with either PHA or IL 2 alone for up to 18 hr, followed by washing, then by the addition of the reciprocal reagent, resulted in no T cell proliferation. Expression of IL 2 receptors and of Ia antigens, as assessed by indirect immunofluorescent staining, revealed that both PHA and IL 2 needed to be present for Tac and Ia antigen expression by T cells. T cells incubated with PHA and IL 2 for 18 to 42 hr acquired responsiveness to IL 2. These T cells remained absolutely dependent on IL 2 for proliferation to occur. In contrast to T cells stimulated with PHA in the presence of monocytes, T cells stimulated with PHA and IL 2 released no detectable IL 2. The failure of IL 2 secretion was not caused by down-regulation of IL 2 production by IL 2 itself, because the addition of IL 2 to cultures of T cells stimulated with PHA in the presence of monocytes did not interfere with IL 2 production. These results indicate that IL 2 is a sufficient signal to induce the expression of its receptor in PHA-stimulated T cells and subsequent proliferation but is not sufficient to cause endogenous IL 2 release.     

Direct phosphorylation of the IL-2 receptor Tac antigen epitope by protein kinase C

Phorbol esters induce a rapid phosphorylation of the antigenic epitope of the human IL-2 receptor identified by anti-Tac monoclonal antibody. The physiological activator of protein kinase C, diacylglycerol also stimulated the phosphorylation of the Tac epitope in intact activated human T lymphocytes. Stable derivatives of cyclic nucleotides had no effect on the stimulation of Tac phosphorylation with cultured lymphocytes. Immunoprecipitated Tac derived from particulate membranes could serve as a direct substrate for purified protein kinase C in vitro. The Ca2+/phospholipid dependency of the in vitro phosphorylation reaction substantiated that the phosphorylation of Tac observed in intact cells stimulated by phorbol ester or diacylglycerol was the result of the physiological activation of protein kinase C.     

In vitro maturation of B cells in chronic lymphocytic leukemia. I. Synergistic action of phorbol ester and interleukin 2 in the induction of Tac antigen expression and interleukin 2 responsiveness in leukemic B cells

Recent evidence indicates that interleukin 2 (IL 2), formerly thought to serve as growth factor exclusively for activated T cells, is directly involved in human B cell differentiation. We have investigated the role of IL 2 and IL 2 receptors (as defined by monoclonal anti-Tac antibody) in the phorbol ester-induced in vitro maturation of leukemic B cells from patients with chronic lymphocytic leukemia (CLL). Peripheral blood lymphocytes from B cells from CLL patients with high (greater than 10(5)/microliters) white blood cell counts were depleted of residual T lymphocytes and low-density cells (primarily macrophages) by consecutive steps of E rosetting, complement-mediated lysis of OKT3+ and OKT4+ cells, and Percoll density gradient centrifugation. No OKT3+ T cells were detectable in these cell populations before or after culture. When incubated for 3 days with phorbol ester plus recombinant human IL 2 (rIL 2), 12 to 57% of highly purified B cells from four of five tested patients expressed Tac antigen. Both phorbol ester and rIL 2 were required for maximal Tac antigen expression. Functional studies revealed that phorbol ester-activated (but not resting) CLL B cells responded to rIL 2 with [3H]thymidine incorporation and with enhanced secretion of IgM. Tac+ B cells were isolated in two cases on a fluorescence-activated cell sorter. In one patient, stimulation of Tac+ B cells with rIL 2 resulted in enhanced [3H]thymidine incorporation but no change in IgM secretion, as compared with Tac- B cells; in the second patient, stimulation of Tac+ B cells with rIL 2 did not result in [3H]thymidine uptake, but did result in significant IgM secretion. These findings indicate that certain leukemic B lymphocytes can be induced to express IL 2 receptors and respond to IL 2. The use of resting clonal B cell populations arrested at distinct stages of differentiation may help to better define the stage(s) at which IL 2 acts directly on B cells to induce proliferation and/or terminal differentiation.     

Cell matrix adhesion-related proteins VLA-1 and VLA-2: regulation of expression on T cells

The mitogens phytohemagglutinin (PHA) and concanavalin A inhibited the appearance of the very late activation antigen (VLA)-1, but did not inhibit VLA-2 expression on cultured activated T cells. In contrast to diminished VLA-1 expression, mitogen treatment caused increased cell surface expression of other activation antigens such as T10, HLA-DR, interleukin 2 (IL 2) receptor, and 4F2, and greater cell proliferation. Conversely, when T cells were not repetitively restimulated with mitogen, these less proliferative "postactivated" T cells had elevated VLA-1 expression. The diminished expression of VLA-1 caused by PHA was reversible since subsequent removal of mitogen was associated with increased VLA-1, paralleled by a decrease in interleukin 2 receptor levels. In addition to preventing or delaying the initial appearance of VLA-1, PHA stimulation also was somewhat effective in causing the disappearance of VLA-1 already present, especially on recently established cultures. However, cultures that had either never seen PHA, not seen PHA for several weeks, or been stimulated regularly with PHA, but were several months old, did not lose VLA-1 in response to PHA stimulation, suggesting that a state of insensitivity to PHA effects could be attained. Unlike PHA-stimulated T cells, T cells repetitively restimulated with alloantigen or the monoclonal antibody T3 did not show a marked absence of VLA-1 but rather showed an increased level of VLA-2 relative to VLA-1. Taken together, results of stimulation by either mitogen, alloantigen, or anti-T3 monoclonal antibody support the conclusion that T cell stimulation in general can cause a decreased VLA-1:VLA-2 ratio, whether by decreased VLA-1 or increased VLA-2. These shifts in VLA-1:VLA-2 ratios are probably not simply the result of shifts in the relative proportions of different subpopulations, because similar growth-related changes in this ratio were observed on the T cell line ANITA, which is a homogeneous population of cells. Because both VLA-1 and VLA-2 are differentially regulated on cultured, long term activated T cells depending on stage of activation and growth conditions, and are members of a family of at least five heterodimers that includes cell matrix adhesion molecules, we suggest that these studies will provide clues to novel aspects of T cell growth regulation, perhaps relating to T cell-matrix adhesion.     

Human T lymphocyte activation by tumor promoters: role of protein kinase C

Protein kinase C (PKC) has a major role in a ligand-receptor-mediated signal transduction system in a variety of cell types including T lymphocytes. One of the early phenotypic changes associated with T cell activation is the expression of cell surface receptors for interleukin 2 (IL 2). To test the role of PKC in regulation of IL 2 receptor (IL 2-R) expression and T cell activation in general, we used tumor promoters (TP) as modulators of PKC and compared their effects on intact human T cells and on the enzymatic activity of T cell-derived PKC in a cellfree system. In T cells, the phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA) induced IL 2-R expression and proliferation associated with cytosol-to-membrane PKC translocation. A dose of TPA (1 to 4 ng/ml) that induced about 50% of the maximal activation of PKC in the enzymatic assay also induced half-maximal effects on cell proliferation, IL 2-R expression, and PKC redistribution in intact T cells. Structure-function studies with several phorbol ester analogs and non-phorbol ester TP directly correlated tumor promotion activity with the ability to activate PKC and induce IL 2-R. An inhibitor of PKC, chlorpromazine, was found to suppress TPA-mediated proliferation and IL 2-R expression, and inhibited T cell-derived PKC by competing with the phospholipid. Ca2+ ionophore, which synergizes with TPA in induction of T cell proliferation, facilitated the TPA-induced PKC translocation to the membrane. The results thus demonstrate a direct correlation between the effects of various chemicals on: subcellular redistribution of PKC in T cells; induction of T cell proliferation and IL 2-R expression; and activation of T cell-derived PKC in vitro. These data provide further support for the role of PKC in transduction of activation signals in T cells and in regulation of IL 2-R expression.     

Functional properties of the 50 kd protein associated with the E-receptor on human T lymphocytes: suppression of IL 2 production by anti-p50 monoclonal antibodies

Monoclonal antibody 9.6 is specific for a 50 kd T cell surface protein (p50) associated with the sheep erythrocyte (E)-receptor on human T lymphocytes. This antibody interferes with many T cell functions. We have examined the effect of antibody 9.6 on lymphocyte proliferation and interleukin 2 (IL 2) production triggered by mitogens, soluble antigens, and alloantigens to elucidate the mechanism(s) of its immunosuppressive action. At concentrations as low as 50 ng/ml, 9.6 suppressed lymphocyte proliferation and the elaboration of IL 2 by T cells stimulated by PHA, alloantigens, or low concentrations of the phorbol ester TPA (less than or equal to ng/ml). Furthermore, in cultures stimulated by a combination of PHA plus TPA, 9.6 did not inhibit the acquisition of IL 2 receptors but inhibited proliferation and IL 2 production. Immunoaffinity-purified IL 2 completely restored lymphocyte proliferation in cultures inhibited by 9.6. Studies of kinetics of inhibition by 9.6 showed that this antibody inhibited lymphocyte proliferation induced by PHA, alloantigen, and PPD even when added at 24, 48, and 72 hr, respectively, after the initiation of these cultures, suggesting that 9.6 does not block lectin binding or antigen recognition by T cells and that it can inhibit lymphocyte proliferation even after cells have undergone one or more rounds of cell division. A dose-response analysis of lymphocyte proliferation induced by PHA or by TPA demonstrated that the degree of inhibition by 9.6 decreased with increasing concentrations of these mitogens. Antibody 9.6 did not inhibit lymphocyte response induced by optimal concentrations of PHA (50 to 100 micrograms/ml; PHA-M) but inhibited proliferation of maximally induced lymphocytes by using a synergistic combination of low concentrations of PHA (5 micrograms/ml, PHA-M) plus TPA (1 ng/ml). Taken together, these findings indicate that 1) 9.6 inhibits lymphocyte proliferation by affecting IL 2 production, 2) 9.6 does not inhibit the acquisition of 9.6 receptors induced by a synergistic combination of PHA plus TPA, and 3) p50 molecules may be involved in multiple pathways of T cell activation.     

Regulation of the alternative pathway of T cell activation by anti-T3 monoclonal antibody

T cell activation may be triggered either through the T3-Ti antigen receptor complex or via an alternative macrophage-independent pathway involving the 50KD T11 sheep erythrocyte-binding glycoprotein. Monoclonal antibodies anti-T11(2) and anti-T11(3), directed at distinct epitopes of the T11 molecule, trigger mature T cells to proliferate and express their functional programs, and induce expression of IL 2 receptors on both T3+ and T3- thymocytes. We now show that a non-mitogenic anti-T3 antibody blocks activation via the T11 pathway of not only peripheral blood T cells, but also T3+ thymocytes. Anti-T3 does not affect surface expression of T11 or the rapid augmentation of T11(3) expression after incubation of cells with anti-T11(2). However, anti-T3 inhibits generation of IL 2 receptors and production of IL 2 by T lineage cells cultured with anti-T11(2) plus anti-T11(3). In contrast, modulation of the T11 molecule by a non-mitogenic anti-T11 antibody does not inhibit activation of T cells by a mitogenic anti-T3 antibody. The ability of anti-T3 to block expression of IL 2 receptors on both thymocytes and mature T cells activated by the T11 pathway suggests that a regulatory interaction may be important during T cell ontogeny to provide a mechanism for inhibiting expansion of autoreactive clones.     

Cyclosporin A does not prevent expression of Tac antigen, a probable TCGF receptor molecule, on mitogen-stimulated human T cells

Results of recent studies indicated that a monoclonal anti-Tac antibody might recognize the receptor sites or closely related structures for T cell growth factor (TCGF) on activated human T cells. In the present study, we examined the effect of cyclosporin A (CsA) on the expression of Tac antigen by mitogen-stimulated T cells. CsA inhibited the proliferative response of T cells to Con A and PHA in a dose-dependent manner. Both Con A- and PHA-induced cellular proliferation were decreased to about 10% of controls at 5 micrograms/ml of CsA. When T cells were stimulated with these mitogens, many of them expressed Tac antigen on their surfaces, assessed by the immunoperoxidase method. The appearance of Tac-positive cells occurred earlier than a rise of cellular DNA synthesis. Characteristically, CsA showed no inhibitory effect on the expression of Tac antigen by mitogen-stimulated T cells, even at a relatively high concentration of 5 micrograms/ml, whereas the expression of other "activation" antigens reactive with monoclonal anti-Ia, OKT9, or OKT10 antibodies by T cells was blocked completely by CsA. Morphologically, the majority of Tac-positive cells in culture with mitogens alone showed the characteristics of blastoid cells; Tac-positive cells in the culture containing CsA mainly consisted of medium-sized cells, indicating these cells probably accumulated at a stage of partial activation. T cells, once stimulated with Con A or PHA for 3 days whether in the presence or in the absence of CsA, were able to absorb TCGF activity from TCGF-containing media similarly. In addition, T cells, even stimulated in the presence of CsA with these mitogens for 24 hr, were capable of responding to TCGF with the same grade of proliferation as did T cells stimulated with mitogen alone. CsA showed no appreciable inhibition in a TCGF-dependent proliferation of such prestimulated cells. These functional properties of activated T cells might be correlated with their ability to express Tac antigen. These experimental findings present some evidence that CsA might not prevent the expression of probable functional receptor sites for TCGF in mitogen-dependent activation of human T cells.