Interleukin 1 regulation of interleukin 2 and interferon-gamma gene activation in a human leukemic HSB.2 subclone

The role of interleukin 1 (IL1) in causing IL2 and interferon-gamma (IFN-gamma) production and their associated gene activation has been studied in a human leukemic HSB.2 subclone. One of the subclones, HSB.2-C5B2 clone #28, which produced only low levels of IL2 and IFN-gamma when stimulated with phytohemagglutinin (PHA) or with a combination of phorbol-myristate-acetate (PMA) and Ca2+ ionophore, ionomycin, showed marked IL2 and IFN-gamma production in the presence of IL1. The augmentation by IL1 was observed in both dot and Northern blot analysis, indicating that IL1 regulates lymphokine genes at the pretranslational level. The kinetics of IL2 and IFN-gamma production were essentially similar for both lymphokines except that there was a faster accumulation of IFN-gamma mRNA than IL2 mRNA. In contrast to the IL2 and IFN-gamma gene activation, IL2 receptor (Tac/p55 antigen) expression was induced directly by IL1 itself as with PMA in this subclone. In these studies, IL1 action was not replaced by the drugs raising intracellular cyclic AMP (cAMP). Taken collectively, these experiments support the notion that IL1 does not trigger IL2 gene activation per se, but amplifies the preactivated lymphokine genes initiated by PMA and ionomycin, whereas IL1 can activate the IL2 receptor gene without any other known signal requirements.     

Secretion of interleukin 2, macrophage-activating factor, interferon, and colony-stimulating factor by alloreactive T lymphocyte clones

Sixty-four murine alloreactive, cytolytic and noncytolytic , T lymphocyte clones were tested for the production of interleukin 2 (IL 2), macrophage-activating factor (MAF), interferon (IFN), and colony-stimulating factor (CSF). Approximately 90% of both cytolytic and noncytolytic clones secreted MAF and IFN upon antigen or mitogen stimulation. IL 2, in contrast, was only released in detectable amounts by 50% of noncytolytic clones and 50% of a subclass of cytolytic clones in which the proliferation was independent of exogenous IL 2 ("antigen-driven" clones); IL 2-dependent cytolytic clones did not release measurable IL 2. CSF was secreted by approximately 90% of noncytolytic and IL 2-independent cytolytic clones and 40% of IL 2-dependent cytolytic clones. The analysis reported here revealed a strong quantitative correlation between the titers of MAF and IFN released by the clones, suggesting that these two assays may measure the same lymphokine. Although the other activities measured were not directly correlated, a broad association was noted between IL 2 secretion and the production of high titers of MAF, IFN, and CSF. Thus, noncytolytic and IL 2-independent cytolytic clones on average released significantly higher titers of these factors than IL 2-dependent cytolytic clones.     

Production of interleukin 3 and gamma-interferon by an antigen-specific mouse suppressor T cell clone

An interleukin 2 (IL 2)-dependent, keyhole limpet hemocyanin (KLH)-specific, mouse suppressor T cell clone, 3D10, was found to produce interleukin 3 (IL 3) and gamma-interferon (IFN-gamma) in response to T cell mitogens Con A and PHA. Different from KLH-specific suppressor factor (TsF) that was spontaneously released into the medium when cultured in IL 2-containing conditioned medium, the production of IL 3 and IFN-gamma was induced by mitogenic stimuli. IL 3, IFN-gamma, and TsF were separable by gel filtration through a Sephadex G-100 column, being recovered in fractions of m.w. 25,000 to 30,000, 45,000 to 50,000 and 60,000 to 70,000, respectively. On the other hand, minimum size of IL 3 and IFN-gamma were shown to be about 25,000 and 20,000, respectively, by determining the lymphokine activities contained in the extracts from slices of SDS gels. These results indicate that IFN-gamma was present as a homodimer or hetero-complex with another carrier protein(s), whereas IL 3 was present as a monomeric form. A highly positive correlation (a correlation coefficient r = 0.96) between the titers of IL 3 and IFN-gamma produced by seven subclones derived from 3D10 was obtained, suggesting that IL 3 and IFN-gamma are induced by a process with a common mechanism. 3D10 also produced IL 3 and IFN-gamma when cultured with its specific antigen, KLH, in the presence of antigen-presenting cells. When Con A-stimulated 3D10 cells were labeled with L-[35S]methionine, we found that at least three proteins, with m.w. of 35,000, 25,000, and 20,000, were specifically released into medium by the stimulation. The latter two may be IL 3 and IFN-gamma described above, respectively, because of the similarities in m.w.     

Human T cell leukemia/lymphoma virus-infected antigen-specific T cell clones: indiscriminant helper function and lymphokine production

The ability of human T cell leukemia/lymphoma virus (HTLV)-I to alter the function of infected T lymphocytes was examined directly by investigating the properties of an antigen-specific T cell clone before and after transformation with HTLV-I. Following infection, the T4 antigen-specific clone manifested a tenfold increase in its surface interleukin 2 (IL 2) receptor (Tac) density and acquired the viral determinants p19, p24, and 4D12 not present in the uninfected clone. Prior to infection, the T cell clone responded to antigen stimulation in the presence of histocompatible antigen-presenting cells with proliferation and secretion of multiple lymphokines, including IL 2, B cell growth factor (BCGF), B cell differentiation factor (BCDF), and interferon-gamma (IFN-gamma). Following infection, the T cell clone both proliferated and produced constitutively three of these lymphokines (BCGF, BCDF, and IFN-gamma) in the absence of accessory cells or antigen. Co-cultivation with any accessory cells regardless of histocompatibility resulted in increased proliferation and lymphokine production. IL 2 production by the HTLV-I-transformed cell, however, could not be detected. Similarly, the uninfected clone was able to provide B cell help for Ig production only when stimulated with both histocompatible cells and antigen. In contrast, the infected cell provided T cell help to B cells in an unregulated manner, independent of antigen or histocompatibility. Thus, functions such as the induction of proliferation, B cell help, and lymphokine production, which are finely regulated in uninfected antigen-specific T cell clones, became indiscriminant after HTLV-I infection.     

Phenotypic and functional heterogeneity of human peripheral blood T lymphocytes producing colony stimulating factor. A clonal and precursor frequency analysis

In this report we describe the precursor frequency and the subset distribution of peripheral blood human T cells producing lymphokine(s) acting on the proliferation and differentiation of bone marrow precursors of the granulocyte/macrophage series, as assessed in a liquid microculture assay. Because the sensitivity of this system was similar to that of the classic colony formation assay in semi-solid (methylcellulose) medium, it is likely that the lymphokine activity measured in this assay corresponds to the colony-stimulating factor (CSF) activity. Single human T lymphocytes, isolated from peripheral blood by E rosetting and Ficoll-Hypaque gradients, were seeded into microculture wells by limiting dilution or micromanipulation techniques and were incubated under culture conditions that allow clonal expansion of essentially all T cells. After 15 to 20 days, microcultures were stimulated with PHA and CSF activity was assayed in culture supernatants 24 hr thereafter. About 45% (1/2.3) of peripheral blood T cells were found to give rise to CSF-producing progenies. Moreover, when fluorescence-activated cell sorter-purified T4+ and T4- (or T8- and T8+) were analyzed, the frequency of the precursors of CSF-producing cells was 1/1.5 in the T4+ subset, whereas approximately one-third of the T8+ cells had this functional potential. To additionally characterize T cells responsible for CSF production, unfractionated T cells as well as T4+ and T4- cells were cloned by single cell micromanipulation. The resulting clones were analyzed simultaneously for the production of IL 2, production of CSF and for cytolytic activity in a lectin-dependent assay. It was found that 25/48 clones obtained from unfractionated T cells produced CSF, whereas 23/48 and 19/48 produced IL 2 or had cytolytic activity respectively. Six of the 25 CSF-producing clones had only this functional capability, whereas the remaining clones in addition displayed cytolytic activity (4/25), IL 2 production (10/25), or both (5/25). A similar functional heterogeneity was observed among T4+ and T4- clones, thus indicating that T cells producing CSF are functionally heterogeneous within both the T4+ and T8+ subsets.     

A B cell growth factor-like activity is secreted by cloned, neoplastic B cells

Supernatants from synchronized clones of neoplastic B cells (BCL1) were found to contain a B cell growth factor (BCGFI)-like activity. The BCGF activity in the BCL1 supernatants (SN) could synergize with EL-4 SN in the late phases of an IL 1-dependent BCGF I assay (days 5 through 8). These SN did not contain any detectable BCGF II, IL, 1, or IL 2 activity. In contrast to EL-4-derived BCGF I, which has a m.w. of approximately 18,000, the BCL1-BCGF activity has a m.w. of approximately 4500. Because the BCGF activity in BCL1 SN fluctuates with cell cycle in synchronized cultures, this BCL1-BCGF may play an auto-stimulatory role in B cell proliferation.     

Characterization of interleukin 2-dependent cytotoxic T-cell clones. IV. Production of alpha, beta and gamma interferons and interleukin 2 by Lyt-2+ T cells

The production of alpha, beta and gamma interferons (IFN) and interleukin 2 (IL-2) by Lyt-2+-dependent cytotoxic T-cell lines/clones was investigated. Cloned and uncloned T-cell lines specific for H-2Dd or the unique RL male 1 leukemia antigen were studied. After infection with Sendai virus (SV) or Newcastle disease virus (NDV) all cell lines produced IFN-alpha and -beta. Induction of IFN-gamma was attempted with the mitogens Con A, PHA, PWM, SEA, and SEB, with poly(I:C), with antibodies Lyt-1.2, -2.2, and Thy-1.2, or with the target cells Meth A (H-2Dd+) and RL male 1. All mitogens were effective inducers. However, the antibodies and poly(I:C) were not. One uncloned RL male 1-specific cell line CTLL-RP, produced IFN-gamma after induction with RL male 1. Production of IFN-alpha, beta depended on IL-2, whereas production of IFN-gamma did not, although addition of highly purified IL-2 increased IFN-gamma production even in the absence of other inducers. Crude IL-2 inhibited the production of IFN-gamma but not IFN-alpha, beta. In response to mitogens, some T-cell clones also produced IL-2. The results demonstrate that Lyt-2+ cells can produce a broad spectrum of lymphokine activities after appropriate stimulation. Their availability now affords us the opportunity to study the regulation of lymphokine production at the clonal level.     

The role of arachidonic acid metabolism in the activities of interleukin 1 and 2

Several investigations have suggested that products of arachidonic acid metabolism have modulatory effects on the development of cellular immunity. In this report we have studied the role of arachidonic acid metabolism in the specific effects of interleukin 1 (IL 1) induction of interleukin 2 (IL 2), and also IL 2 stimulation of proliferation and interferon-gamma (IFN-gamma) production. Utilizing cell lines that are specifically responsive to IL 1 or IL 2, it was found that both interleukins stimulate lipoxygenation of arachidonic acid in their respective target cell. The ability of each interleukin to induce monohydroxyeicosatetraenoic acid (HETE) correlated with the induction of secondary lymphokine secretion. Utilizing selective and partially selective pharmacologic inhibitors of arachidonic acid metabolism, the data suggest that the participation of lipoxygenase activity is required for both IL 1 induction of IL 2 production and IL 2 regulation of proliferation and IFN-gamma secretion. The same requirement for lipoxygenase activity was seen when phorbol myristate acetate (PMA) was used as a secretory stimulant, suggesting a similar mode of action for stimulation-secretory activity between PMA and interleukins. Studies performed with an endogenous inhibitor of 5-lipoxygenase (15-HETE) demonstrated the requirement of this enzyme system for IL 2-dependent proliferation and IFN-gamma production. Although leukotrienes could replace IL 2 for IFN-gamma secretion, they had no effect on IL 2 growth promotion. The results suggest that both IL 1 and IL 2, and PMA, may share the lipoxygenase pathway of arachidonic acid metabolism which is a component of the intracellular signal transduction process that regulates secretory activity and/or cellular proliferation.     

Immunologic and molecular characterizations of T cell-derived T cell activating factor

Culture supernatants from several subclones of a human T hybrid line (24A) stimulated with PMA showed co-stimulatory activity in the proliferation of Con A-stimulated murine thymocytes, but did not show any IL 2 activity. Some subclones did not show co-stimulatory activity even when stimulated with PMA, excluding the possibility of a carry-over effect. The factor found in the culture supernatants increased IL 2 production in normal T cells stimulated with a suboptimal concentration of PHA. The factor also induced IL 2 production in a T hybrid clone, T-394.1, when the latter was stimulated with a suboptimal concentration of mitogens, indicating a direct effect by this T cell-derived factor on mitogen-stimulated T cells inducing IL 2 production. This factor also induced the generation of other lymphokines such as BCDF and IFN-gamma. Northern blot analysis showed that the factor induced an increase in mRNA for IL 2 as well as IL 2 receptor. These results indicated that T cells could secrete a factor with IL 1-like activity. However, Northern blot analysis showed that mRNA from a T hybrid clone does not cross-react with cDNA for IL 1 (beta) derived from human monocytes.     

IL 1 induction by murine T cell clones: detection of an IL 1-inducing lymphokine

T cell activation is widely believed to depend on interleukin 1 (IL 1) provided by antigen (Ag)-presenting cells (APC). Because IL 1 is not a constitutive product of APC, we examined the features of its production during the interaction of murine T cell clones and APC. We observed that IL 1 was detectable in supernatants of most myoglobin-specific T cell clones grown with APC and Ag. Two of these T cell clones induced exceptionally high levels of IL 1 in their supernatants, and these same clones demonstrated the unusual restriction to I-Ek, which is a low responder type for sperm whale myoglobin. One of these clones was characterized additionally as to the mechanism of IL 1 induction. This clone rapidly stimulated IL 1 production in the APC population (detectable at 4 hr of co-culture) or in macrophages (M phi) or a M phi-like cell line. IL 1 induction was Ag dependent and H-2 restricted. Induction was radioresistant, both on the part of the T cell and of the IL 1 producer. The IL 1-induction process was attributable to a lymphokine produced by the T cell clone. This lymphokine was distinct from IFN-gamma, TNF and CSF-1 and may account for a principal mechanism of T----APC signalling. The induced IL 1 was the same in size, co-mitogenicity, and pyrogenicity as lipopolysaccharide-induced IL 1.     

The relationship between immune interferon production and proliferation in antigen-specific, MHC-restricted T cell lines and clones

The release of immune or gamma interferon (IFN-gamma) by major histocompatibility complex (MHC)-restricted pigeon cytochrome c-specific Lyt 1+2-, interleukin 2 (IL 2)-producing proliferative T cell clones when cultured with antigen and antigen-presenting cells (APC) is a sensitive measure of the state of activation of the cell. In general, the fine specificity of T cell activation was similar when activation was measured either by IFN-gamma production or by proliferation. In response to antigen and the correct Ia molecule, the T cell clones produced both high titered IFN-gamma and a strong proliferative response. However, IFN-gamma production and the degree of proliferation of the T cell clones differed at high antigen concentrations. As antigen concentration increased, the magnitude of proliferation became submaximal whereas the IFN-gamma response became maximal suggesting that IFN-gamma produced by the cells might act as an autoregulatory molecule inhibiting the proliferative response. Stimulating the T cell to divide via its IL 2 receptor by adding exogenous IL 2 produced high levels of proliferation but only low titers of IFN-gamma activity. In addition, irradiation of the clone eliminated the IFN-gamma release induced by IL 2 but did not affect the IFN-gamma release induced by antigen and Ia. Thus proliferation is not essential for IFN-gamma production and unlike antigen and Ia, IL 2 functions predominantly as a proliferative signal and not as a signal for factor release. Two T cell clones showed a dissociation of IFN-gamma production and proliferation. In one case, a clone that proliferated in response to both allogeneic and antigenic stimuli released IFN-gamma in response to antigen but failed to produce IFN-gamma in response to the allogeneic stimulus. A second clone that showed a strong proliferative response to pigeon cytochrome c but no proliferative response to a species variant of cytochrome c, tobacco hornworm moth (THWM) cytochrome c, produced IFN-gamma when stimulated with either of these antigens. Thus, the sensitivity of detecting activation of T cell clones as measured by the release of an individual lymphokine varies from one clone to another.     

Differential effects of recombinant human interferon-gamma and interleukin 2 on natural killer cell activity of peripheral blood in early human development

Ontogenic development and the lymphokine responsiveness of human NK cell activity against K562 target cells in peripheral blood lymphocytes were evaluated in fetuses, premature infants, and term neonates by using a 4-hr 51Cr-release assay. Basal NK activity and NK boosting by lymphokines were comparatively assayed after an 18-hr incubation with medium alone, recombinant human IFN-gamma (1000 U/ml), and recombinant human IL 2 (25 U/ml), respectively. Lymphocytes from 20-wk-old fetuses lacked NK cell activity even after the pretreatment with IFN-gamma. Low, but significant levels of NK activity and NK boosting by IFN-gamma were observed in premature infants after 27 wk of gestation, with a progressive intrauterine maturation of these activities. Both basal NK activity and NK boosting by IFN-gamma in term neonates were still lower than those of adult controls. The grade of NK boosting by IFN-gamma appeared to depend on the development of basal NK activity. Contrary to IFN-gamma, IL 2 could induce marked NK activity even in 20-wk-old fetuses who lacked both basal and IFN-gamma inducible NK activities. NK boosting by IL 2 was much more efficient than that by IFN-gamma at any period of human life. The facts that IL 2-induced NK boosting could occur without any appreciable production of IFN-gamma in neonatal lymphocytes, and that ample neutralizing doses of anti-IFN-gamma antibody hardly suppressed IL 2-mediated NK boosting even in adult lymphocytes, indicated that the effect of IL 2 on NK boosting might be independent of IFN-gamma production. On the basis of the ontogenic differences in the development of the lymphokine responsiveness of NK cell activity and on the different NK boosting mechanisms of these lymphokines it was suggested that so-called human "pre-NK cells" might be divided into IFN-gamma sensitive and IL 2-sensitive cells. Whether these cell populations belong to different cell lineages or different maturation stages of the same cell line, however, remains unsettled.     

Alloreactive cloned T cell lines. VI. Multiple lymphokine activities secreted by helper and cytolytic cloned T lymphocytes

Culture supernatants generated by alloantigenic or lectin stimulation of a cloned helper T lymphocyte, designated L2, contain interleukin 2 (IL 2), granulocyte/macrophage colony-stimulating factor (CSF), B cell stimulating factor (BCSF), macrophage (Ia+)-recruiting factor (MIRF), (Ia+)-inducing activity, gamma-interferon, Fc receptor-enhancing activity, macrophage migration inhibitory factor (MIF), macrophage activation factor (MAF), interleukin 3 (IL 3), and a factor responsible for prolonging the synthesis and secretion of the fourth and second components of complement by guinea pig peritoneal macrophages. Erythropoietin was not detected. A spontaneously arising variant of L2, designated L2V, produces much lower quantities of macrophage-stimulating activities, IL 2, and interferon. However, when compared to L2, L2V produces much higher levels of BCSF, equivalent amounts of IL 3, and slightly smaller amounts of CSF. Unlike L2V, a cytolytic clone, designated L3, secretes lymphokines that primarily affect macrophage function. The time course of lymphokine production by L2 cells indicates that for the six lymphokine activities studied there are three different times at which maximal or near maximal levels are reached, as follows: 1) IL 2, 12 to 24 hr; 2) IL 3 and CSF, 24 to 48 hr; and 3) (Ia+)-inducing activity, MAF, and interferon, 48 hr or later. Only IL 2 activity disappears during the 8-day culture cycle. The time course data and the differential production of activities by the three types of lymphocyte clones suggest that at least four terminal effector lymphokine molecules account for the ten biologic activities tested.     

Signal requirement for interleukin-1-dependent interleukin 2 production by a human leukemia-derived HSB.2 subclone

We have previously established subclones from human leukemia-derived HSB.2 cell line that produced high levels of interleukin (IL) 2 when stimulated with phytohemagglutinin (PHA) and IL-1. Herein, we investigated the signal requirement for IL-2 production, particularly concerning the role of IL-1 in this system. PHA but not IL-1 rendered marked protein kinase C (PKC) activation and IL-2 production induced by PHA plus IL-1 was totally abrogated by a potent PKC inhibitor, H-7. Concomitantly, PHA alone caused marked Ca2+ influx, whereas IL-1 neither induced Ca2+ influx nor augmented PHA-induced Ca2+ influx. As expected, a signal delivered by PHA could be substituted by phorbol 12-myristate 13-acetate (PMA) and ionomycin while IL-1 was still indispensable, indicating that at least three signals, i.e., those delivered by IL-1 as well as PKC activation and Ca2+ influx were required for optimal IL-2 production. Kinetic study indicated that while PMA and ionomycin should be added at the initiation of culture, delayed addition of IL-1 up to 4 hr later induced even higher levels of IL-2 production, demonstrating the requirement for IL-1 after PKC activation and Ca2+ influx. In this system, it was revealed that IL-1 was not involved in PKC activation, Ca2+ influx, and breakdown of phosphatidylinositols. Whereas PMA, ionomycin, and IL-1 stimulated high levels of IL-2 production, those combinations of signals did not induce breakdown of phosphatidylinositols. It should be noted that IL-2 production induced by these three signals seemed to bypass hydrolysis of phosphatidylinositols in contrast to PHA plus IL-1 stimulation that was accompanied with a marked breakdown of phosphatidylinositols.     

Production of lymphokine mRNA by CD45R+ and CD45R- helper T cells from human peripheral blood and by human CD4+ T cell clones

The expression of lymphokine mRNA by human CD4+CD45R+ and CD4+CD45R- Th cells was assessed after mitogen stimulation. These Ag have previously been shown to relate closely to virgin and primed T cells, respectively. CD4+CD45R+ (virgin) and CD4+CD45R- (primed) cell fractions were isolated by sorting double-labeled cells with a fluorescence-activated cell sorter. CD4+CD45R+ cells produced high levels of IL-2 mRNA when stimulated with either PMA together with calcium ionophore, or with PHA, but they expressed only trace quantities of mRNA for IL-4 or IFN-gamma. In contrast, CD4+CD45R- cells produced high levels of mRNA for IL-2, IL-4, and IFN-gamma. After 14 days of continuous culture, CD4+CD45R+ Th cells lost expression of the CD45R Ag, but gained high level expression of CDw29, such that they were indistinguishable from the cell population which originally expressed this Ag. At the same time, they acquired the ability to synthesize IL-4 mRNA. It seemed likely that the broad lymphokine profile of primed Th cells might mask clonal heterogeneity. Analysis of 122 CD4+ T cell clones showed that all of them synthesized IL-2 mRNA. One clone failed to express IL-4 mRNA, but did produce those for IL-2 and IFN-gamma. A total of 34 of the clones was investigated to determine expression of IFN-gamma mRNA; two of these clones were negative for IFN-gamma mRNA, and both expressed IL-2 and IL-4 message. These data suggest that while fresh virgin and primed peripheral blood T cells show a clear resolution of lymphokine production, a simple subdivision of human CD4+ T cell clones on the basis of their lymphokine production (such as that reported for mouse Th cell clones) is not possible.     

Noncytotoxic functions of natural killer (NK) cells: large granular lymphocytes (LGL) produce a B cell growth factor (BCGF)

Highly purified human large granular (LGL), depleted of any detectable contaminant T and B cells or monocytes, were found to be potent producers in vitro of a soluble B cell growth factor (BCGF) able to sustain proliferation of B cells activated by anti-mu. Activation by lectins (phytohemagglutinin, PHA, concanavalin A, Con A; and pokeweed mitogen, PWM) was required to induce the production of high levels of this BCGF from cultured LGL. Production of BCGF was also detected after the binding of LGL with natural killer (NK)-sensitive (K562) but not with NK-resistant (RL male 1) target cells. In contrast to T cells, LGL did not need the additional presence of accessory cells to reach optimal production of BCGF by 72 hr of culture. The subpopulation of LGL responsible for the production of BCGF had phenotypic characteristics associated with NK cells (3G8+, HNK1+/OKT11+, DR-, OKT3-, Leu-M1-), and separated cells with these markers exerted high levels of NK activity. Selective production of BCGF also was obtained from cytotoxic clones derived from LGL. A partial characterization of the LGL-derived BCGF was performed by gel filtration. BCGF activity was detected in fractions with estimated m.w. of 20,000 and 45,000. The LGL-derived BCGF activity was resistant to reduction with 2-mercaptoethanol and was stable at -20 degrees C for months. Conversely, heating (56 degrees C for 1 hr) or digestion with trypsin greatly reduced the LGL-derived BCGF activity. These findings strongly suggest that LGL including those with NK activity can play an important positive role in the early events of the B cell-mediated immune response.     

Regulation of IFN-gamma induction in human peripheral blood cells by exogenous and endogenously produced interleukin 2

Interferon (IFN)-gamma production, stimulated by the addition of exogenous interleukin (IL) 2, T cell mitogens, or tuberculin purified protein derivative (PPD) was studied in cultures of separated human mononuclear cells or unseparated peripheral blood leukocytes (PBL). IFN-gamma was induced by the addition of IL 2 to cultures of otherwise unstimulated cells. The minimal concentration of exogenous IL 2 required to cause a reproducible stimulation of IFN-gamma was about 10 U/ml, i.e., approximately 50 times the minimal concentration required to stimulate proliferation in an IL 2-dependent murine cytotoxic T cell line. Approximately 500 to 1000 IL 2 U/ml were required to produce maximal stimulation of IFN-gamma production in otherwise unstimulated cultures. Monoclonal antibody anti-Tac, specific for an epitope associated with the IL 2 receptor (IL 2 R), inhibited IFN-gamma induction by exogenous IL 2 less strongly than induction by phytohemagglutinin (PHA) or concanavalin A (Con A). The highest degree of inhibition was exerted by anti-Tac on IFN-gamma production stimulated with PPD. Stimulation of IFN-gamma induction by exogenous IL 2 and the inhibitory action of anti-Tac on IFN-gamma production were also seen in cultures of irradiated (2000 R) cells. Treatment of cells with subinducing doses of Con A or phorbol myristate acetate increased IFN-gamma induction by exogenous IL 2. Taken together, the data suggest that endogenously generated IL 2 is a major mediator of IFN-gamma induction in PBL cultures stimulated with antigens or T cell mitogens.     

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.