Cyclosporin A inhibits initiation but not progression of human T cell proliferation triggered by phorbol esters and calcium ionophores

Cyclosporin A (CsA) is a potent inhibitor of T lymphocyte proliferation induced by Ag and mitogens. In an attempt to further delineate the mechanism of action of CsA, we have examined its effects on T cell proliferation induced by the combination of the phorbol ester, phorbol 12,13-dibutyrate (PDB), and the calcium ionophore, ionomycin. T cells were rendered competent as the result of a 30-min initial incubation with both drugs, after which the drugs were washed out. Competence is defined as the ability to subsequently proliferate in response to exogenously added IL-2 or PDB in the second phase of the culture, but not to synthesize IL-2 or proliferate without these additions. Addition of CsA (1 microgram/ml) to the cells in the initial, competence-inducing 30-min incubation with PDB/ionomycin abrogated their subsequent response to IL-2 or PDB. In contrast, addition of CsA to cells after they had been treated for 30 min with PDB/ionomycin and then washed did not affect their responses to subsequent addition of either IL-2 or PDB. Treatment with CsA during induction of competence prevented the expression of the 55-kDa IL-2R gene during competence induction and inhibited IL-2 gene expression and IL-2 production in response to PDB in the second phase. These results indicate that the effects of CsA are limited to the initiation (competence induction) period of T cell activation, that CsA apparently affects expression of more than one gene, and in competent cells, CsA does not affect their ability to progress to DNA synthesis.     

Requirements for the simultaneous presence of phorbol esters and calcium ionophores in the expression of human T lymphocyte proliferation-related genes

We have investigated the synergistic effects of phorbol ester and calcium ionophore on human T lymphocyte proliferation and the expression of the proliferation-related genes, c-myc, c-fos, interleukin 2 receptors (IL-2R) and interleukin 2 (IL-2). Incubation of T lymphocytes with both the phorbol ester, phorbol 12,13-dibutyrate (PDB), and the calcium ionophore, ionomycin, leads to the expression of a series of proliferation-related genes, followed by T cell proliferation. In contrast, stimulation of T cells sequentially with PDB and then ionomycin did not induce mitogenesis, demonstrating that simultaneous exposure to both agents is necessary for proliferation. Exposure of T cells to both agents together for different time periods resulted in a proliferative response in proportion to the duration of the exposure, with more than 6 hr required for maximum proliferation. In contrast, a 1-hr exposure to both drugs was sufficient for maximum expression of c-fos or c-myc proto-oncogene mRNA. The expression of IL-2R and the production of IL-2 were also dependent on the duration of simultaneous exposure to both phorbol ester and calcium ionophore. Levels of IL-2 mRNA became detectable at 1 hr and peaked at 3 hr after stimulation. The induction of IL-2 mRNA occurred only in the presence of both agents and became undetectable within 2 hr after the drugs were removed. In contrast, the expression of IL-2R mRNA became detectable at 1 hr, but was maintained even after the drugs were removed and reached a peak at 24 hr. Both IL-2 and IL-2R mRNA accumulated in proportion to the duration of the exposure. Augmentation of cell proliferation by exogenous IL-2 was observed in T cells exposed to the drugs for less than 3 hr. These data demonstrated that the induction of maximum expression of the nuclear proto-oncogenes c-myc and c-fos was not sufficient for PDB-ionomycin-induced T cell proliferation. The level of IL-2 mRNA accumulation and resultant IL-2 secretion is one of the limiting factors for proliferation of T cells exposed to the drugs for less than 3 hr, but not for longer exposures. Additional events such as accumulation of IL-2R mRNA and protein triggered by a long exposure to the drugs were obligatory for obtaining maximum proliferation.     

Comparison of phorbol ester/calcium ionophore and phytohemagglutinin-induced signaling in human T lymphocytes. Demonstration of interleukin 2-independent transferrin receptor gene expression

The proliferation of human T lymphocytes is regulated, in part, by the coordinated expression of genes encoding T cell growth factor (interleukin 2 (IL-2), IL-2 receptors, and transferrin receptors (TFR). We examined the time course of accumulation of mRNA for these genes in T cells stimulated with the phorbol ester, phorbol 12,13-dibutyrate (PDB) and the calcium ionophore, ionomycin, and compared their expression to T cells stimulated with phytohemagglutinin. In cells treated with PDB/ionomycin, maximum expression was observed at 3 hr for IL-2 mRNA and at 6 hr for TFR mRNA, whereas the level of IL-2 receptor mRNA reached a peak 24 to 48 hr after stimulation. In phytohemagglutinin-stimulated T cells IL-2 mRNA was detectable within 3 hr but peaked later at 12 hr; the level of IL-2 receptor mRNA similarly peaked 24 to 48 hr later. Accumulation of TFR mRNA in phytohemagglutinin-stimulated T cells, however, was not detectable at 6 hr and reached a peak only between 12 to 24 hr. The early accumulation of TFR mRNA in PDB/ionomycin-stimulated T cells seemed, in part, independent of the interaction of IL-2 with its own receptor, because TFR mRNA was detectable as early as 1 hr after stimulation and addition of cycloheximide before addition of PDB/ionomycin did not abolish the PDB/ionomycin-induced accumulation of TFR mRNA. In addition, either PDB or ionomycin used alone induced the expression of TFR mRNA but not IL-2 mRNA. These results indicated that the combination of PDB/ionomycin accelerated the expression of IL-2 and TFR genes in T cells compared to phytohemagglutinin and triggered an IL-2-independent pathway for the induction of TFR mRNA.     

Calcium ionophore plus phorbol ester can substitute for antigen in the induction of cytolytic T lymphocytes from specifically primed precursors

Previous studies indicated that Ca++ ionophores and phorbol esters in synergy could substitute for the initial activation step of normal T lymphocytes or T cell clones leading to increased expression of receptors for the growth factor interleukin 2 (IL 2) and secretion of interleukins, with the mitogenic signal for T cell proliferation being dependent on the presence of IL 2. In this study, the question was addressed as to whether T lymphocytes activated through the Ca++ ionophore ionomycin and the phorbol ester 12-o-tetradecanoyl phorbol 3-acetate (TPA) also acquired the competence to kill relevant target cells. The results indicate that T lymphocytes from primed mice proliferate and lyse the relevant allogeneic target cells after in vitro stimulation with ionomycin plus TPA, and that T lymphocyte preparations enriched for a subpopulation bearing the Lyt-2 marker are dependent on exogeneous sources of IL 2 to proliferate and become competent killer cells, whereas preparations enriched for subpopulations bearing the L3T4 marker grow independently of exogenous IL 2.     

T cell activation induced by anti-CD3 antibodies requires prolonged stimulation of protein kinase C

Accessory cell-depleted T cells required the presence of a protein kinase C (PKC) stimulating phorbol ester, such as phorbol 12,13-dibutyrate (PDB), to be activated by soluble antibodies to the CD3 molecular complex. To determine the duration of PDB costimulation necessary to induce a proliferative response, highly purified T cells were pulsed with anti-CD3, incubated with PDB for limited periods of time, and then washed and recultured in the absence of PDB. T cells stimulated with anti-CD3 and PDB for 2 hr were unable to proliferate unless IL-2 or PDB was added to the second culture. With more prolonged exposure to PDB (4-18 hr), anti-CD3-pulsed cells exhibited an increased capacity to proliferate in the absence of additional PDB. Proliferation could be augmented by exogenous IL-2, but remained submaximal. Optimal DNA synthetic responses required the presence of PDB throughout the entire culture. Despite this, costimulation with anti-CD3 and PDB induced a significant number of cells to express IL-2 receptors and enter the cell cycle after 18 hr of costimulation with PDB. Moreover, T cells costimulated by anti-CD3 and PDB produced IL-2 within 4 hr. However, T cells that were stimulated with anti-CD3 and PDB for 4 hr, washed, and recultured rapidly lost the ability to continue to produce IL-2, which reflected a decrease in the content of mRNA encoding IL-2. This loss of IL-2 production was prevented by reculturing the cells with PDB. These studies therefore indicate that after initial T cell activation by anti-CD3, continued stimulation of PKC is necessary for ongoing IL-2 production. These results suggest a model of T cell activation in which sustained stimulation of PKC after cell cycle entry is required to maintain growth factor production and continued proliferation.     

Molecular signals in B cell activation. I. Differential refractory effects of incomplete signaling by ionomycin or PMA relate to autocrine IL-2 production and IL-2R expression

The molecular signals required by resting (G0) B cells for the induction of cell cycle entry, IL-2 production, and high-affinity IL-2 receptor (IL-2R) expression were defined and the effects of incomplete activation signals on the subsequent response to complete signals were examined. Highly enriched rabbit peripheral blood B cells were activated with a calcium ionophore, ionomycin, and a protein kinase C (PKC) activating phorbol ester, phorbol myristate acetate (PMA). It was observed that cell cycle entry to early G1 was induced by either reagent acting alone, but both reagents were required to stimulate IL-2 production, IL-2R expression, and DNA synthesis. These effects of ionomycin and PMA were shown to be mediated by increased intracellular calcium ion concentration [Ca2+]i and PKC activation, respectively. Although, increased [Ca2+]i or PKC activation each led to cell cycle entry, the subsequent response of these preactivated cells to complete activation with both signals was different: Cells pretreated with PMA alone for up to 24 hr could progress further to DNA synthesis after the addition of ionomycin. In contrast, cells activated with ionomycin alone, or those cultured without any stimulus, progressively lost the ability to show DNA synthesis after complete activation. The failure to progress to DNA synthesis in these two cases was, however, differentially regulated by the ability of these cells to produce IL-2 and to express IL-2R. Ionomycin-pretreated cells retained the ability to produce IL-2 but showed about 70% reduction in the numbers of IL-2R; whereas cells cultured without any stimulus lost the ability to produce IL-2 after subsequent complete activation, but showed lesser reduction in IL-2R expression.     

An intracellular calcium increase and protein kinase C activation fail to initiate T cell proliferation in the absence of a costimulatory signal

Resting T lymphocytes proliferate in response to a combination of a calcium ionophore and a phorbol ester. This observation suggests that an increase in intracellular calcium free ion concentration [Ca2+]i and activation of protein kinase C (PKC) are sufficient signaling events for the initiation of T cell proliferation. In contrast, an accessory cell-generated costimulatory signal, acting independently of the rise in [Ca2+]i and PKC activation, is required for Ag-induced proliferation of type I T cell clones. We now report that this costimulatory signal is unexpectedly also being delivered via a cell-cell interaction during the response to ionomycin and phorbol ester. In the absence of this signal (at limiting cell numbers), T cells fail to divide. We also demonstrate that proliferation in response to immobilized anti-CD3 mAb requires the cell-cell interaction. These results suggest a model of T cell stimulation in which activation of a costimulatory signaling pathway is important in the regulation of the IL-2 gene, and only in the presence of this (third) signal can an increase in [Ca2+]i and PKC activity induce T cell proliferation. Such a model predicts that IL-2-dependent expansion of T cell clones in vivo in response to Ag receptor occupancy requires the delivery of an independent accessory cell-derived co-stimulatory signal.     

Comparative study of the functional expression of the Na/K-pump in human lymphocytes, activated by phytohemagglutinin, phorbol ester, ionomycin, and interleukin-2

Rubidium (Rb) influxes via Na/K pump and ouabain-resistant pathways, and protein, RNA and DNA syntheses have been studied in human blood lymphocytes during the cell transit from quiescence to proliferation. In lymphocytes, stimulated either by phytohemagglutinin (PHA), phorbol 12,13-dibutyrate (PDBu) calcium ionophore, ionomycin, or by PDBu and interleukin-2 (IL-2), the late stages of the G0/G1-->S transit are accompanied by sustained 3-fold increased ouabain-sensitive Rb influxes. Using a two-pulse activation by a brief (1 h) PDBu/ionomycin treatment, followed by incubation with PDBu or IL-2 for 48 h, it has been found that both IL-2 and IL-2 receptor (IL-2R) are necessary for a long-term enhancement of Na/K pump. When present at the early stage of PDBu and ionomycin induction, cyclosporin A (CsA, 1 microgram/ml) inhibits the late increase in pump-mediated Rb influxes. However, when applied after the competence induction, CsA produced no effect on the flux increase at the progression stage. It is concluded that in activated human lymphocytes the functional expression of Na/K pump may by associated with IL-2-dependent progression of competent cells in the cell cycle.     

Tumor-promoting phorbol esters stimulate the proliferation of interleukin-3 dependent cells

To determine whether activation of protein kinase C is involved in the proliferation of interleukin-3 (IL-3) -dependent cells, we examined the effect of tumor-promoting phorbol esters on the in vitro proliferation of the IL-3-dependent cell lines FD and DA-1. The viability of FD and DA-1 cells cultured for 24 hours in 100 nM phorbol myristate acetate (PMA) and 10% FCS was similar to that of cells cultured in 25% WEHI-3 conditioned medium as a source of IL-3, and 10% FCS. FD cells failed to proliferate in concentrations of FCS of up to 50%, while DA-1 cell proliferation was not markedly influenced by FCS. By contrast, PMA promoted the proliferation of FD and DA-1 cells in the absence of FCS and enhanced their proliferation in the presence of 10% FCS, 60- and 20-fold, respectively. Stimulation of proliferation was achieved with as little as 10 nM PMA and was maximal at 100 nM PMA. Low concentrations (0.05-0.1%) of WEHI-3 CM promoted the proliferative response of FD and DA-1 cells to PMA, but at concentrations of WEHI-3 CM greater than 0.8%, no further increment in proliferation was obtained with PMA. As little as 1/2 hour of exposure to phorbol esters was sufficient to cause translocation of protein kinase C from the cytosol to the membranes of DA-1 cells, and 1 hour of exposure to phorbol esters was sufficient to stimulate DNA synthesis. A protein kinase C inhibitor, H-7, at a concentration of 10 microM inhibited phorbol ester-induced stimulation of DA-1 cell proliferation. When DA-1 cells were exposed to the calcium ionophore A23187 in addition to both a phorbol ester and IL-3, their proliferation was enhanced over that stimulated by only the phorbol ester and IL-3. The data indicate that stimulation of proliferation of IL-3-dependent cells involves the activation of protein kinase C.     

Mechanisms of T cell activation by the calcium ionophore ionomycin

We have investigated signaling mechanisms that may underlie the T cell mitogenic properties of the Ca2+ ionophore ionomycin. Ionomycin induces highly purified resting human T cells to proliferate in the presence of monocytes with accompanying IL-2R expression and IL-2 synthesis. Treatment of T cells with ionomycin triggers the hydrolysis of phosphoinositides, as evidenced by the accumulation of the hydrolytic by-products phosphatidic acid and inositol phosphates. Ionomycin also induces the activation of protein kinase C (PKC), as demonstrated by the auto-phosphorylation of PKC and the phosphorylation of the PKC target proteins CD4 and CD8. Ionomycin synergizes with PMA in enhancing the activation of PKC. It is concluded that, in addition to its putative activation of Ca2+/calmodulin-dependent signaling pathways, ionomycin induces the hydrolysis of phosphoinositides and the activation of PKC in human T cells. The synergy of ionomycin with phorbol esters in triggering T cell activation may relate, at least in part, to enhanced activation of PKC.     

Diacylglycerol, but not inositol 1,4,5-trisphosphate, accounts for platelet-derived growth factor-stimulated proliferation of BALB 3T3 cells

Recently we found that an intracellular event related to phosphatidylinositol 4,5-bisphosphate (PIP2) is crucial for platelet-derived growth factor (PDGF)-induced mitogenesis in fibroblastic cells (Matuoka, K., et al.: Science 239:640-643, 1988). In the present study we examined the mitogenic effects of PIP2 and its hydrolysis products introduced into the cytoplasm of BALB 3T3 cells by micro-injection to confirm the role of PIP2 hydrolysis in PDGF stimulation of cell proliferation. Injection of 1,2-dioleylglycerol (diolein) into serum-deprived quiescent cells induced DNA synthesis with the same time course as that induced by exposure of the cells to PDGF and, in the presence of PDGF, caused no additional increase in the cell population entering S phase. The injection of PIP2, inositol 1,4,5-trisphosphate, or 1,2-dioleylphosphatidic acid into the cells did not induce mitogenesis. Consistent results were obtained in experiments in which the cells were exposed to 1-oleyl-2-acetylglycerol (OAG) and ionomycin; namely, OAG stimulated proliferation of BALB 3T3 cells, but ionomycin did not induce any mitogenesis. Desensitization of the protein kinase C pathway by prolonged exposure of the cells to phorbol ester abolished the induction of cell proliferation by subsequent injection of diolein or exposure to phorbol ester or OAG as well as by PDGF challenge. These findings strongly suggest that activation of the protein kinase C system following formation of diacylglycerol by PIP2 hydrolysis is mainly responsible for the mitogenic action of PDGF on BALB 3T3 cells.     

Homologous and heterologous mitogenic desensitization of Swiss 3T3 cells to phorbol esters and vasopressin: role of receptor and postreceptor steps

Prolonged treatment of Swiss 3T3 cells with phorbol 12,13 dibutyrate (PDB) rendered the cells refractory to subsequent mitogenic stimulation by both PDB and vasopressin. In contrast, the cells retained full responsiveness to a wide variety of other mitogens. An early response to vasopressin and phorbol esters, inhibition of (125I)-labeled epidermal growth factor [(125I)-EGF] binding, was also substantially decreased in PDB pretreated cells. The cross desensitization was not produced by vasopressin; this ligand induced homologous but not heterologous desensitization. Exposure of Swiss 3T3 cells to PDB caused a down regulation of (3H)-PDB receptors but did not reduce the binding of vasopressin to refractory cells. The time-course (t1/2 = 7 h) and dependence on PDB concentration (half maximal at 20 nM) for this phorbol ester receptor loss paralleled the induction of the mitogenic desensitizations to both PDB and vasopressin. However, the time-course of recovery revealed an important dissociation between receptor presence and mitogenic response. When Swiss 3T3 cultures, which had been pretreated with PDB, were washed to remove this ligand and incubated in its absence for 24 h, both (3H)-PDB receptors and PDB or vasopressin inhibition of (125I)-EGF binding were almost completely restored to control levels. However the homologous and heterologous mitogenic desensitizations showed a very different reversal time. After a 24-h recovery period PDB-treated refractory cells were still unable to synthesize DNA in response to PDB or vasopressin. The mitogenic desensitizations were however completely reversible; after a 48-h incubation in the absence of PDB the cells responded fully to the mitogenic actions of PDB or vasopressin. This finding suggests that a further postreceptor step was also desensitized by prolonged PDB treatment. The presence of a low level of cycloheximide during the PDB pretreatment blocked induction of this postreceptor refractoriness. We propose that this refractory postreceptor step selectively blocks both PDB and vasopressin stimulation of DNA synthesis and may represent the point at which the mitogenic pathways of phorbol esters and vasopressin converge.     

Immunodeficiency of aging: restorative effects of phorbol ester combined with calcium ionophore

Current models for lectin-induced T cell proliferation suggest that activation of protein kinase C (PK-C) and elevation of cytoplasmic Ca2+ may both play important roles in the earliest phases of signal transduction. To learn more about the relative inability of T cells from old mice to proliferate in response to mitogenic stimuli, we attempted to stimulate T cells by the synergistic effects of a PK-C activator, phorbol myristate acetate (PMA), and the calcium ionophore ionomycin. T cells from young mice respond as well to optimal combinations of these agents as they do to the strong polyclonal activator Con A, but T cells from old mice respond much better to PMA plus ionomycin than they do to Con A. This result suggests that an inability to transduce the signal supplied by extracellular ligands into the intracellular signals represented by Ca2+ and PK-C activators may underlie the age-associated loss of T cell reactivity. We also found evidence for a second defect in old T cells related to their response to elevated intracellular Ca2+: old T cells, compared with young, required higher levels of ionomycin for maximal proliferation.     

Activation of human T lymphocytes by bryostatin

The immunologic effects of bryostatin (Bryo), a PKC activator with antineoplastic activity, were assessed and compared to PMA. Bryo induced IL-2R expression on CD4+ and CD8+ human T lymphocytes with a dose response comparable to PMA. However, Bryo induced only a marginal proliferative response as compared with the vigorous response induced by PMA. Bryo mediated functional receptor expression because the proliferative response was enhanced by addition of rIL-2. Furthermore, the proliferative response was inhibited by the relatively specific Ca+, phospholipid-dependent protein kinase (PKC) inhibitor, H-7, indicating a role of PKC in Bryo-induced activation. Addition of the calcium ionophore, ionomycin, to Bryo-stimulated lymphocytes resulted in the production and secretion of IL-2 with a concomitant proliferative response. This effect of the calcium ionophore could be inhibited by cyclosporine with identical results obtained in PMA-stimulated cultures. A most intriguing finding was that Bryo could effectively antagonize PMA-induced T cell proliferation. Although this mechanism of inhibition is unclear, a discussion with respect to differential effects on potential intracellular PKC isoforms is provided. These studies indicated that Bryo has potent immunopotentiating properties that share some similar effects of the phorbol ester, PMA, but offers the additional property of modulating other phorbol ester effects on proliferation.     

Activation of a suicide process of thymocytes through DNA fragmentation by calcium ionophores and phorbol esters

Calcium ionophore, A23187, is known to be a comitogen, but it activates a suicide process characterized by DNA fragmentation at linker regions in mouse immature thymocytes. It did not induce DNA fragmentation in T lymphocytes prepared from lymph node and spleen cells. Induction of DNA fragmentation by A23187 depends on protein phosphorylation and synthesis of mRNA and protein, because an inhibitor of protein kinase, 1-(5-isoquinolinesulfonyl)-2-methyl-piperazine dihydrochloride (H-7), actinomycin D, and cycloheximide, respectively, inhibits the DNA fragmentation and cell death. Studies adding the inhibitors at various times show that protein phosphorylation and mRNA synthesis occur within a few hours after incubation with A23187 followed by the protein synthesis responsible for inducing DNA fragmentation. Phorbol esters, 12-O-tetradecanoyl 13-acetate (TPA) and phorbol 12,13-dibutyrate (PBD), which are capable of activating protein kinase C, also induced similar DNA fragmentation in immature thymocytes, followed by cell death. PBD committed the suicide process after 6 h of incubation, because the DNA fragmentation above the control level was not induced when PDB was removed from the medium before 6 h of incubation. A23187 or a phorbol ester alone induced DNA fragmentation followed by cell death, whereas the addition of TPA at low concentration inhibited the DNA fragmentation induced by A23187 accompanied with an increase in DNA synthesis. The result suggests that TPA switched a suicide process induced by A23187 to an opposite process: stimulation of DNA synthesis. Physiologic factors and mechanisms which regulate cell proliferation and death in the thymus are not known at present, but the signals by protein kinases and calcium ions may regulate both cell proliferation and death, independently, synergistically or antagonistically.     

Functional expression of the Na/K pump is controlled via a cyclosporin A-sensitive signalling pathway in activated human lymphocytes.

An immunosuppressant cyclosporin A (CsA) inhibits T-cell proliferation by blocking the nuclear factor of activated T-cells (NFAT) required for expression of the interleukin-2 (IL-2) gene. This work has demonstrated for the first time that in human blood lymphocytes (HBLs) activated by phytohemagglutinin (PHA), CsA at anti-proliferative doses inhibits the late sustained increase in ouabain-sensitive Rb(K) influxes, which accompanies the growth phase of G0/G1/S transition. CsA affects neither the initial, transient activation of the pump in response to PHA nor the ouabain-resistant ion fluxes during cell cycle progression. When the HBLs were rendered competent to proliferate by phorbol 12,13-dibutyrate ester and ionomycin in the presence of CsA, the exogenous IL-2 did not bypass the initial inhibitory effect of CsA on the long-term pump enhancement. When applied after the competence induction, CsA produced no effect on the sustained increase in ouabain-sensitive Rb influxes during the IL-2-induced progression phase. These results indicate that in activated HBLs, (1) IL-2 is involved in functional expression of the Na/K pump during cell transition from quiescence to proliferation, (2) the cell cycle-associated upregulation of the pump is related to a CsA-sensitive signalling pathway.     

Monoclonal antibodies directed to different epitopes in the CD3-TCR complex induce different states of competence in resting human T cells.

After the initial stages of activation, T cells are not able to proliferate on their own but become competent to proliferate in response to exogenously added lymphokines. In the present study we compared the capacity of mAb directed to CD3 (OKT3, Leu4, UCHT1) or to common epitopes on the alpha/beta T-cell receptor (BMA 031, BMA 032) to induce competence in purified resting T cells. Stimulation with either soluble anti-CD3 or anti-alpha/beta TCR mAb rendered cells competent to progress to DNA synthesis in response to exogenous IL-2. In contrast, only soluble BMA 031 and BMA 032 were able to induce responsiveness to IL-4; anti-CD3 mAb had either to be immobilized or used in combination with anti-CD28 mAb to induce responsiveness to IL-4. Further, BMA 031-induced IL-4 responsiveness was selectively found in the CD45RA+ T cell subset. Analysis of early activation events revealed that the capacity of soluble BMA 031 and BMA 032 to induce responsiveness to IL-4 did not correlate with the ability of these mAb to increase the level of cytosolic Ca2+ or to induce detectable tyrosine phosphorylation. On the other hand, soluble Leu4 (anti-CD3) triggered an increase in both intracellular Ca2+ and tyrosine phosphorylation but was unable to induce IL-4 responsiveness. These data indicate that the induction of IL-2 and IL-4 responsiveness requires different sets of activation signals which can be induced by stimulating different epitopes in the CD3-TCR complex. This supports the concept that distinct activation pathways are coupled to the CD3-TCR complex.     

Protein kinase C is required for responses to T cell receptor ligands but not to interleukin-2 in T cells

We have tested the role of protein kinase C in mRNA expression and T cell proliferation mediated through the T cell receptor and through the interleukin-2 (IL-2) receptor. Chronic treatment of a mouse T cell clone with phorbol esters caused a complete loss of protein kinase C activity and a concomitant loss of proliferation to T cell receptor ligands (antigen, lectins, antireceptor antibodies). In contrast, kinase C-depleted T cells retained the ability to proliferate to IL-2. Loss of the T cell receptor response was not due to decreased cell surface expression of receptor or impairment of early receptor function (phosphatidylinositol turnover, calcium mobilization). Kinase C-depleted T cells showed no induction of mRNAs for activation-associated genes on exposure to the T cell receptor ligand Concanavalin A; expression of a subset of the same mRNAs in response to IL-2 was unaffected. We conclude that kinase C is required for mRNA expression and subsequent proliferation mediated through the T cell receptor pathway but is not involved in mRNA expression and proliferation in response to IL-2.