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.     

Interleukin 2 inhibits antigen-stimulated lymphokine synthesis in helper T cells by inhibiting calcium-dependent signalling

Certain L3T4+, Lyt-2- cloned murine helper T lymphocytes (HTL), when cultured with a high concentration of interleukin 2 (IL 2), become temporarily unresponsive to antigenic stimulation, as indicated by failure to proliferate and by reduced secretion of lymphokines when challenged with antigen. Exposure of cloned HTL to IL 2 also renders these cells less responsive to concanavalin A (Con A). Here we demonstrate that antigen-unresponsive HTL also accumulate reduced levels of lymphokine mRNA, thus indicating a pretranslational block of the response to antigen. However, HTL which had been pretreated with IL 2 and were unresponsive to antigen responded strongly to antigen + A23187 or to A23187 + PMA but failed to respond to antigen + PMA. With HTL made unresponsive to antigen or to Con A by exposure to IL 2, increases in intracellular calcium ion levels stimulated by Con A also were reduced. Thus, for mouse HTL clones, the IL 2-induced state of unresponsiveness to antigen or Con A appears to reflect an inability of such HTL to increase intracellular free calcium to a level sufficient for activation of lymphokine genes.     

Protein kinase C-dependent and -independent mechanisms of cloned murine T cell proliferation. The role of protein kinase C translocation and protein kinase C activity

PMA can induce the proliferation of several CTL clones but not of several Th clones derived and tested in our laboratory. The PMA-stimulated proliferation of our CTL clones (which do not make IL-2 mRNA or protein) occurs independently of IL-2 and is not accompanied by lymphokine release. We now report, however, that protein kinase C (PKC) translocation is induced by PMA in CTL clones as well as in Th clones, which lack a proliferative response to PMA. These results suggest that PKC translocation itself is not a sufficient regulatory mechanism to account for cloned T cell proliferation. Moreover, IL-2 did not induce PKC translocation in a CTL clone, which proliferates when stimulated with IL-2. Thus, PKC translocation may not be necessary for activation of CTL proliferation. Nonetheless, cellular PKC activity appears to be required for the proliferative response of T cell clones after stimulation by PMA/PMA + calcium ionophore (A23187) or by triggering through the TCR: chronic PMA treatment, which depletes intracellular PKC activity, abrogates the proliferative response of T cell clones stimulated by PMA/PMA + A23187 or triggered through the TCR. T cell clones depleted of PKC activity, however, retain the ability to proliferate when challenged with IL-2. Murine T cell clones, therefore, possess PKC-dependent and PKC-independent pathways of proliferation that are not regulated by PKC translocation alone.     

Distinct signals are required for proliferation and lymphokine gene expression in murine T cell clones

Experiments were performed to assess the capacity of lectin (Con A), ionomycin, phorbol ester (PMA), and recombinant IL 2 to mediate proliferation as well as the expression of cell surface IL 2 receptors, two lymphokine genes, IL 2 and IFN-gamma, and the c-myc proto-oncogene in cloned T cell populations. Stimulation of T cell clones with recombinant IL 2 resulted in proliferation and sustained expression of the c-myc cellular proto-oncogene, but did not induce the expression of mRNA for the lymphokines IFN-gamma and IL 2. In contrast, stimulation of cloned T cells with lectin alone induced significant IFN-gamma and IL 2 mRNA expression, up-regulation of the number of cell surface IL 2 receptors, and transient c-myc expression. Ionomycin alone was not a sufficient signal for lymphokine mRNA induction. The phorbol ester PMA alone induced neither proliferation nor lymphokine gene expression but potentiated lectin and ionomycin-mediated signals. We also performed experiments to examine whether the T cell response to extracellular stimuli was a function of the activation state of the cell. Reexposure of 48-hr antigen-activated cloned cells to identical stimuli revealed several differences. Low but significant levels of IFN-gamma mRNA were now also reinduced in activated clones cells in response to IL 2 or PMA alone. Activated cells were refractory to reinduction of IL 2 mRNA by any stimulus, which may reflect a physiologic mechanism to limit clonal expansion after antigenic stimulation. This could be partially reversed by restimulation with lectin in the presence of cycloheximide, suggesting a role for a labile protein repressor in the down-regulation of IL 2 mRNA expression. PMA alone induced an IL 2-independent proliferative response. We demonstrate that distinct signals are required for lymphokine gene expression vs cellular proliferation in cloned T lymphocyte populations, and that the capacity of extracellular stimuli to reinduce expression of lymphokine genes or to mediate cell proliferation is altered by prior activation.     

Inhibition of IL 2-driven proliferation of murine T lymphocyte clones by supraoptimal levels of immobilized anti-T cell receptor monoclonal antibody

Both cloned murine helper T lymphocytes (HTL) and cytolytic T lymphocytes (CTL) proliferated and secreted lymphokines when stimulated with immobilized anti-T cell receptor monoclonal antibody (anti-TCR mAb). However, although proliferation of CTL increased and reached plateau levels as concentrations of anti-TCR mAb were increased, the proliferation of HTL decreased with high concentrations of anti-TCR mAb. A reduction of IL 2-dependent proliferation by CTL was observed when IL 2 was added to cultures of CTL in the presence of high concentrations of anti-TCR mAb, whereas IL 2-independent proliferation appeared to be unaffected by these concentrations of anti-TCR mAb. Inhibition of IL 2-driven proliferation caused by high concentrations of immobilized anti-TCR mAb did not seem to be mediated by soluble factors. Cells continued to express cell surface receptors for IL 2 and transferrin after treatment with immobilized anti-TCR mAb. Inhibition of IL 2-driven proliferation by high concentrations of immobilized anti-TCR mAb may represent a mechanism for regulating the proliferation of T lymphocytes. This inhibitory mechanism is initiated by stimulation of the T cell receptor, in this case by immobilized anti-TCR mAb, and is independent of other cells and factors.     

Reversal of phorbol ester-mediated reduction of cloned T lymphocyte cytolysis by interleukin 2

During previous studies on the regulation of cloned T lymphocyte function, we observed that murine cytotoxic T lymphocyte (CTL) clones progressively lose the ability to lyse appropriate target cells during prolonged (24 to 48 hr) incubation with the tumor promoter phorbol myristic acetate (PMA). We further observed that the cytolytic function of PMA-treated CTL clones can be restored by incubation with secondary MLC supernatant (2 degrees MLC SN), a potent source of cytokines. We now report our observations on the nature of the cytokine(s) responsible for recovery of CTL activity. Like 2 degrees MLC SN, the lectin-induced SN from a cloned helper T cell and the lectin-induced SN from a T cell hybridoma can restore cytolytic activity to cloned CTL treated with PMA. In contrast, supernatants from L929 cells, WEHI-3 cells, and P388D1 cells fail to restore cytolytic activity to similarly treated cloned CTL. These data suggest that IL 2 and/or gamma-IFN, but not CSF-1, CSF-GM, IL 3, or IL 1, can influence expression of cytolysis by cloned CTL. Furthermore, highly purified IL 2 can restore cytolytic activity, even when cytosine arabinoside is present to inhibit clonal expansion. Our studies indicate that cytolysis is a reversible function of cloned CTL, and that cytolysis may not necessarily represent an end-stage feature of CTL maturation. Our studies further show that IL 2 is both necessary and sufficient for resumption of cytolytic function by "deactivated" CTL. As such, these observations suggest that IL 2 can regulate not only T cell proliferation but also the expression of cytolysis by some cytolytic T cell populations.     

Activation of IL 1-dependent and IL 1-independent T cell lines by calcium ionophore and phorbol ester

We have studied the activation of interleukin 1 (IL 1)-dependent and IL 1-independent T cell lines, specifically their capacity to produce and secrete interleukin 2 (IL 2). The IL 1-dependent T cell lymphoma LBRM33-1A5.47, which requires phytohemagglutinin (PHA) and IL 1 to produce IL 2, was compared with the IL 1-independent T cell lymphoma LBRM33-5A4 and T cell hybridomas DO-11.10/S4.4 and 3DO-54.8. The latter hybridomas do not require exogenous IL 1 to produce IL 2 in response to mitogens or ovalbumin (OVA)/I-Ad. Even though IL 1 is not required by these IL 1-independent T cell lines, we tested whether IL 1 could modulate their response but found no significant effect of exogenous IL 1. We then studied the activation of these T cell lines by the calcium ionophore A23187 and phorbol myristate acetate (PMA). In the case of the IL 1-dependent line LBRM33-1A5.47, there was a strong response when both A23187 and PMA were used simultaneously. We subsequently found that A23187 can replace PHA, and PMA can replace IL 1 in the activation of this cell line to IL 2 production. These observations suggest that the signal(s) provided by PHA and IL 1 involve at least in part a calcium flux, and activation of protein kinase C. Parallel experiments with the use of the IL 1-independent T cell lines showed a strong response to both agents when used simultaneously. A modest response observed to A23187 alone was always enhanced by the addition of PMA. No response was observed to PMA alone. IL 1-rich P388D1 supernatant could replace the enhancing effect of PMA in the response of the IL 1-independent T cell lines. We suggest that the activating signals provided by A23187 and PMA are at least part of the sequence of events that lead to production of IL 2 in either IL 1-dependent or IL 1-independent T cell lines. In IL 1-independent T cell lines, however, both of the activating signals studied may be delivered through stimulation of the Antigen-MHC T cell receptor.     

Cholera toxin discriminates between murine T lymphocyte proliferation stimulated by activators of protein kinase C and proliferation stimulated by IL-2. Possible role for intracellular cAMP

The regulation of the activation of T lymphocyte proliferation is not well understood. It is known that the tumor promoter, PMA, which activates protein kinase C (PKC), can induce the proliferation of several murine CTL clones; in combination with calcium ionophores, which raise the level of intracellular Ca2+, PMA can also stimulate the proliferation of several HTL clones. Activation of the TCR is believed to result in the liberation of diacylglycerol, which is an activator of PKC, and inositol 1,4,5-trisphosphate, which stimulates an increase in intracellular levels of calcium. We now report that pretreatment with cholera toxin (CT) inhibits the proliferation of murine T cell clones stimulated through the TCR/CD3 complex. In addition, CT-pretreatment blocks the proliferation of CTL clones activated with PMA or of HTL clones activated with PMA + calcium ionophore. In contrast, CT-pre-treatment inhibits much less effectively (100- to 1000-fold) the proliferation of these T cell clones stimulated with IL-2. Furthermore, activators of PKC, but not IL-2, potentiate the CT-induced cAMP elevation in T cell clones. The ability of CT to inhibit much more effectively the proliferation triggered by putative activators of PKC than that induced by IL-2 may be mediated by cAMP-dependent mechanisms.     

Novel immunosuppressive agent, FK506. In vitro effects on the cloned T cell activation

The present study shows the in vitro effects of a novel immunosuppressive agent, FK506, in comparison with cyclosporin A (CsA). FK506 inhibited concanavalin A response and allo-mixed lymphocyte reaction of murine splenic lymphocytes in a dose-dependent manner, and at 40- to 200-fold lower concentrations than CsA. Allo-cytolytic T lymphocyte induction from murine thymocytes was also inhibited by FK506, whereas the ability of cytolytic T lymphocyte to lyse targets was not affected by the agent. Immunosuppressive effects of FK506 were further characterized by using antigen specific-proliferative T lymphocyte clones, BC.21 and KO.6. FK506 inhibited the proliferation of T cell clones stimulated with specific antigens in a dose-dependent manner, and at about 100-fold lower concentrations than CsA. However, cloned T cells, once activated, were scarcely affected by the agent; interleukin-2 (IL-2) driven proliferation of cloned T cells was not inhibited. On the other hand, it was found that FK506 inhibited both IL-2 secretion and IL-2 receptor expression of BC.21 after stimulation with the specific antigen. FK506 also inhibited the proliferation of BC.21 stimulated with phorbol 12-myristate 13-acetate plus calcium ionophore, indicating that it directly affected the signaling pathway downward from the perturbation of the Ti/T3 complex. Finally, it was suggested that FK506 and CsA synergistically inhibited the antigen-driven proliferation of cloned T cells. These results indicate that the novel immunosuppressive agent, FK506, affects T cell activation with mechanisms similar to those of CsA but at considerably lower concentrations.     

Effects of anti-Lyt-2 and anti-L3T4 monoclonal antibodies on the function of cytotoxic T lymphocyte/helper T lymphocyte hybrid T cell clones

CTL/HTL hybrid clones provide a unique system that allows detailed analysis of the role of Lyt-2, L3T4, and other structures involved in T cell functions. We have demonstrated previously that the fusion of cloned murine CTL and helper T lymphocytes with defined specificity generated hybrid cells that expressed both Lyt-2 and L3T4 as well as two TCR. Data obtained with these hybrid clones demonstrated that cytolysis is closely linked to the CTL TCR. We have analyzed the effects of anti-Lyt-2 and anti-L3T4 as well as anti-TCR mAb on cytolysis, proliferation, and lymphokine release by a number of hybrid clones. We found that anti-Lyt-2 and anti-L3T4 mAb were able to inhibit both proliferation and lymphokine release by the hybrid clones in response to stimulation of either the CTL or helper T lymphocyte parent TCR. In contrast, only anti-Lyt-2 and anti-CTL TCR mAb were able to block cytolysis of target cells bearing the Ag recognized by the CTL TCR. These results provide further evidence that cytolysis is closely linked to the CTL TCR and that Lyt-2 and L3T4 have more than a passive role as accessory molecules on the surface of T lymphocytes.     

Regulation of interleukin 2 receptor expression on murine cytotoxic T lymphocyte clones

We have previously reported that influenza virus-specific cytotoxic T lymphocyte (CTL) clones require antigen and exogenous growth factors for continued proliferation in culture. In this report we show that after stimulation with specific antigen, cloned CTL are capable of limited proliferation in response to interleukin 2 (IL 2) alone but with time these large blast-like cells revert to smaller, quiescent cells that are no longer responsive to IL 2. The IL 2-unresponsive CTL can not be driven to proliferate by supra-optimal concentrations of IL 2, and unresponsiveness correlates with decreased ability to absorb IL 2 from conditioned medium at 0 degrees C, suggesting that unresponsiveness is due to diminished IL 2 receptors. Stimulation of the unresponsive CTL with antigen leads to re-expression of the IL 2 receptor. Decreased absorbing capacity of the unresponsive cells could not be accounted for by their smaller surface area, and the IL 2-unresponsive cells seemed not to down-regulate all their immune functions, as they remained cytotoxic. These results provide a basis for the role of specific antigen in maintaining CTL clones in vitro. Furthermore, these results suggest that antigen-dependent CTL lines can be regulated and that antigen and IL 2 both play a role in their regulation.     

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.     

Helper-independent CD8+ cytotoxic T lymphocytes express IL-1 receptors and require IL-1 for secretion of IL-2

The purpose of this study was to examine the role of IL-1 on the activation of CD8+/CD4- class I-restricted helper cell-independent cytolytic T cell (HITc) clones known to produce IL-2 and proliferate in vitro after Ag stimulation with a Friend retrovirus-induced leukemia (FBL). The functional role of IL-1 in Ag-specific proliferation and IL-2 secretion was assessed by stimulating the T cell clones with FBL either in the presence or absence of macrophages (M phi), rIL-1, or rIL-2. Resting cloned HITc cells, purified from residual accessory cells, failed to proliferate in response to FBL alone, but proliferated in response to FBL plus M phi, rIL-1 or rIL-2. Stimulation with FBL alone in the absence of M phi or IL-1 was sufficient for induction of IL-2R expression, and rendered cells responsive to IL-2, but M phi or IL-1 were also required to induce production of IL-2. The activity of IL-1 was further examined by measuring the binding of [125I]rIL-1 alpha, which demonstrated that resting cloned HITc cells expressed IL-1R that increased in number after activation with Ag. This expression of IL-1R and requirement for IL-1 by CD8+ HITc was surprising because previous studies examining T cell populations after mitogen stimulation have not detected IL-1R on the CD8+ population. Therefore, the role of IL-1 in the activation of CD8+ CTL that do not secrete IL-2 after activation was assessed. By contrast to HITc, CD8+ CTL required exogenous IL-2 to proliferate in vitro and did not express IL-1R. These data demonstrate that the subset of CD8+ T cells responsible for IL-2 production express IL-1R and that triggering this receptor with IL-1 after Ag stimulation results in the production of IL-2 and subsequent proliferation.     

Molecular mechanisms involved in T cell activation. I. Evidence for independent signal-transducing pathways in lymphokine production vs proliferation in cloned cytotoxic T lymphocytes

It is well-established that activated T cells proliferate in response to interleukin 2 (IL 2) and produce various soluble lymphokines such as macrophage-activating factor (MAF) in response to antigen. Prior to investigating the molecular events involved in signaling the initiation of these responses in cloned murine cytotoxic T lymphocytes (CTL), we determined whether these responses could occur independently, and we established for each response the time during which signal transducing mechanisms may function. It was found that this cloned CTL population was in a resting state (G1 phase of cell cycle) 7 days after stimulation with antigen plus IL 2. At this time, the incubation of these resting CTL with IL 2 for 4 to 6 hr resulted in a maximal proliferative response that was not accompanied by the production of MAF. Conversely, the incubation of resting CTL with antigen or lectin (in the absence of IL 2) for at least 8 hr resulted in the maximal production of MAF at 24 hr without inducing a proliferative response. In addition, antigen or lectin, but not IL 2, triggered an immediate (less than 1 min) and sustained (at least 8 hr) mobilization of intracellular calcium. The kinetics of this calcium response paralleled the minimum time (8 hr) that was required for resting CTL to interact with either antigen or lectin in order to produce maximal titers of MAF. These results indicate that proliferation and lymphokine (MAF) production in cloned murine CTL are independent events. In these resting CTL, the signal mechanisms that mediate the production of lymphokines are most likely restricted to the initial 8 hr of stimulation by antigen or lectin and involve the rapid and prolonged mobilization of cytoplasmic calcium. Proliferative signals, however, are probably complete within 4 to 6 hr after stimulation by IL 2 and do not involve readily demonstrable fluxes of cytoplasmic calcium, as determined by the fluorescent calcium probe Quin 2.     

Phorbol myristate acetate and in vitro T lymphocyte function. II. Influence of PMA and supernatants from PMA-treated P388D1 cells on the proliferation of cloned T cells

Neither the culture supernatants from P388D1 cells pulsed with phorbol myristate acetate (PMA), nor PMA itself in concentrations ranging from 10(-6) M to 10(-9) M, are directly mitogenic for murine T lymphocyte clones, yet both markedly augment the antigen-driven proliferation of many, but not all, cloned T lymphocytes. The component of PMA-induced P388D1 supernatant responsible for its co-mitogenic activity is probably PMA, rather than interleukin 1. For responsive clones, the co-mitogenic effect of PMA requires stimulator cells that display the specific allogeneic determinants recognized by the clones. This response persists after T cells are removed from the stimulating population, ruling out induction of mitogenic lymphokines from stimulator T cells by PMA as a primary mechanism for augmentation of clonal proliferation. Both splenocytes and thymocytes cooperate with PMA for enhanced clonal expansion, but heat treatment (45 degrees C, 45 min) of thymocytes destroys their cooperative capacity. PMA can also potentiate the lymphokine-driven proliferation of cloned T cells, indicating that PMA can, under certain conditions, influence T cell clonal expansion by a direct action on T lymphocytes.     

Activation of virus specific CTL clones: antigen-dependent regulation of interleukin 2 receptor expression

Interleukin 2 (IL 2) is a lymphocyte-specific growth hormone, whose effect on lymphocyte proliferation is exerted through a cell surface receptor expressed on activated lymphocytes. In this report we have used monoclonal antibodies directed to the murine IL 2 receptor to examine the regulation of the IL 2 receptor expression on cloned populations of influenza virus-specific CTL. The CTL clones, which are dependent on both specific antigenic stimulation and exogenous IL 2 for continuous in vitro propagation, express high levels of the IL 2 receptor shortly after antigenic stimulation (day 2 or 3). Over the next 5 to 8 days of in vitro cultivation in IL 2-containing medium, these cloned CTL cells express decreasing levels of IL 2 receptor. Concomitant with this fall in IL 2 receptor expression, the cells become refractory to the IL 2 proliferative stimulus. The cloned cells remain refractory to IL 2 until specifically stimulated by antigen, which induces high levels of the IL 2 receptor on the cells and renders the cells sensitive to IL 2 once again. These results support the concept that IL 2 receptor expression on activated T lymphocytes is transitory and that receptor expression is endogenously regulated in the activated T lymphocytes. These results also suggest that antigen plays a primary role in regulating T lymphocyte proliferation by maintaining IL 2 receptor levels.     

Cytokine-Independent Proliferation of IL-2-Nonproducing CTL Clones in Association with High TCR-Signal Transduction Responses

Alloreactive CTL clone D2-23 proliferated in response to antigenic cells without IL-2 production. Among subclones of D2-23, the F1 but not F2 clone proliferated in response to soluble aCD3 or PMA, although both clones proliferated in response to immobilized aCD3, antigenic cells or soluble aCD3 plus costimulatory cells. The difference in responsiveness between F1 and F2 was not caused by distinct expression of CD3 or Fc receptors. Cyclosporin A, which totally blocks IL-2 production of Th1 cells, barely or only partially inhibited PMA- or aCD3-induced proliferation of F1. F1 did not produce cytokines for proliferation of F2 in response to soluble aCD3. Tyrosine phosphorylation developed for various proteins of F1 and F2 at the levels apparently correlated to the extent of cell proliferation when the cells were stimulated with soluble aCD3 or PMA. The proliferative responsiveness of F1 and F2 to the described stimulators was maintained by stimulation with IL-2 plus antigenic cells, or even IL-2 alone, but was decreased during resting culture or by stimulation with immobilized aCD3. These results show evidence of a new TCR-linked mechanism for CTL proliferation that is independent of costimulatory cell- or cytokine-mediated signaling, but is originally prepared by prior stimulation with IL-2.     

Analysis of cloned T cell function. I. Dissection of cloned T cell proliferative responses using cyclosporin A

CsA interferes in a specific manner with the expansion of T cell clones in that it inhibits the antigen-driven component of the proliferative responses made by cloned helper T cells, cloned conventional cytolytic T cells, and cloned helper-independent cytolytic T cells. Cloned helper T cells and helper-independent cytolytic T cells, which share the ability to proliferate when cultured with specific alloantigen, fail to proliferate when cultured with specific alloantigen, fail to proliferate in response to this stimulus in the presence of CsA (10 to 100 ng/ml). In contrast, the proliferation observed when these cells are cultured with exogenous growth factors (but not alloantigen) is little influenced by as much as 1000 ng/ml CsA. When cloned helper T cells or helper-independent cytotoxic T cells are cultured with alloantigen plus exogenous growth factor, additive or synergistic proliferation occurs. However, CsA (10 to 1000 ng/ml) blocks only the component of proliferation induced by alloantigen, and leaves the lymphokine-driven component intact. CsA has similar effects on the proliferation of cloned conventional cytolytic T cells. Thus, CsA separates cloned T cell proliferation into two components: one driven by contact with alloantigens, the other driven by contact with mitogenic lymphokines.     

Characterization and function of autoreactive T-lymphocyte clones isolated from normal, unprimed mice

Self-Ia-reactive cloned T-cell lines, designated PK, were established by long-term culture of T cells from normal DBA/2 mice with irradiated syngeneic splenic adherent cells (SAC), rich in macrophages and dendritic cells. The cell lines were Thy 1+, Lyt 1+, Lyt 2-, produced IL-2 following stimulation with syngeneic spleen cells, and did not exhibit alloreactivity when screened against six different H-2 haplotypes. Of the five cloned PK cell lines tested, four were I-Ed restricted while one was I-Ad restricted as determined by genetic mapping and blocking studies carried out with monoclonal anti-Ia sera. Extensive specificity studies suggested that the PK cells reacted to syngeneic Ia molecules alone and not to foreign antigens such as fetal calf serum (FCS) used in the culture medium, in association with self-Ia. SAC pulsed with FCS or other protein antigens such as turkey gamma-globulin (TGG) were tested for their ability to induce proliferation of autoreactive T cells and other antigen-specific T cells using culture conditions consisting of serumless medium and interleukin 2 (IL-2). The data showed that the autoreactive T cells proliferated better in response to antigen-unpulsed SAC, while FCS-specific and TGG-specific cell lines, developed independently, proliferated only in response to FCS- or TGG-pulsed SAC, respectively, but not to antigen-unpulsed SAC. These results clearly distinguished the autoreactive T-cell clones from the antigen-specific T-cell clones. Preliminary studies carried out to investigate the functions of autoreactive T cells suggested that these cells helped in the in vitro differentiation of alloantigen-specific cytotoxic T lymphocytes (CTL) from CTL precursors obtained from the thymus and augmented syngeneic, allogeneic, and antigen-specific immune responses in vitro. The autoreactive T cells were also capable of inducing both proliferation and differentiation of antigen-specific populations of B cells in the absence of antigen. The present investigation suggests that autoreactive, non-antigen-reactive T cells can be cloned from normal, unimmunized mice and that such cell lines may provide a powerful tool for analyzing the role of the syngeneic mixed lymphocyte reaction in induction and maintenance of both T-and B-cell immune responses.