Limiting dilution analysis of T helper cell heterogeneity: a single class of T cell makes both IL 2 and IL 3

We have previously described a limiting dilution assay (LDA) for estimating the frequency, in the spleens of unprimed mice, of alloantigen-responsive cells that, together with their immediate clonal progeny, can produce interleukin 2 (IL 2) in short-term culture. In this paper, we provide further evidence that the limiting cell in these cultures is, in fact, the immediate precursor of the IL 2-producing cell rather than merely a participant in a multicellular cascade that ultimately leads to production of this lymphokine. We also demonstrate the usefulness of the LDA method for estimating the frequency of the limiting cell for production of IL 3. By analyzing the supernatants of these short-term microcultures for both IL 2 and IL 3, we show that essentially all wells that produce IL 3 also produce IL 2. Furthermore, the amount of IL 2 produced in any individual well correlates strongly with the IL 3 production in the same well. Our data suggest that both these lymphokines are produced by a single class of T cell, and further that the regulatory events that control IL 2 generation in allostimulated helper cells act to control IL 3 levels in parallel.     

Frequency of human B cells that differentiate in response to anti-CD3-activated T cells

Activation of T cells by mAb to the CD3 molecular complex induces the differentiation of many more Ig-secreting cells (ISC) from resting human B cells in bulk cultures than do other modes of polyclonal B cell activation. In the current experiments, a limiting dilution assay was used to demonstrate that this increase in ISC generation reflects an increased frequency of responding B cells. Highly purified B cells were cultured at densities of between 1000 cells and 0.5 cell per microwell with fresh, mitomycin C-treated T cells (T mito) or T cell clones stimulated by immobilized mAb to CD3. After 5 days in culture, the number of wells containing ISC was determined, and the frequency of responding B cells was calculated. The proportion of B cells responding to anti-CD3-stimulated T cells was very large (10.7 +/- 2.8%) and greatly surpassed that induced by other polyclonal activators. B cells cultured with anti-CD3-stimulated T cell clones responded better than did those cultured with T mito. The addition of exogenous IL-2 or IL-6 to cultures supported by activated T mito enhanced the frequency of responding B cells, whereas IL-4 did not increase the generation of ISC and inhibited the augmentation of B cell responses induced by IL-2. Supplementation of cultures with mitomycin C-treated B cells as accessory cells had less of an effect. The addition of both accessory cells and IL-2 markedly increased B cell responsiveness, with precursor frequencies of 60 to 80% noted. In some experiments, cultures were carried out for 7 to 14 days and supernatants were analyzed for IgM, IgG, and IgA secretion. B cells activated by anti-CD3-stimulated T cells produced all three Ig isotypes. When the classes of Ig produced by single B cells were examined, it was observed that the stimulation of individual B cell precursors led to the production of multiple Ig isotypes, suggesting that isotype switching occurs in these cultures. These results demonstrate that under optimum culture conditions, T cells stimulated with immobilized anti-CD3 can activate the majority of human peripheral blood B cells to produce Ig and induce isotype switching by many.     

Induction of high affinity IL 2 receptors on B cells responding to anti-Ig and T cell-derived helper factors

We have reported that IL 2 is one of the essential helper factors in culture supernatants from concanavalin A-activated spleen cells or T cell hybridomas that support proliferation and immunoglobulin secretion in B cell cultures responding to anti-immunoglobulin. Here we show that cells in such cultures consume IL 2 and bear high affinity IL 2 receptors detected by binding of purified, radiolabeled IL 2. Induction of high affinity IL 2 receptors depends on addition of both anti-immunoglobulin and helper factors, and does not occur in cultures given only anti-Ig, only helper factors, concanavalin A plus helper factors, or LPS. The majority of IL 2 receptors are on cells that also bear endogenous membrane immunoglobulin, because they are found in the membrane immunoglobulin-positive fraction when cultured cells are separated by fluorescence sorting after overnight culture in the absence of anti-immunoglobulin to allow reexpression of membrane immunoglobulin.     

Induction of proliferation in vitro of resting human natural killer cells: IL 2 induces into cell cycle most peripheral blood NK cells, but only a minor subset of low density T cells

We report that resting human peripheral blood natural killer (NK) cells proliferate in response to recombinant interleukin 2 (rIL 2), and addition of irradiated lymphoblastoid B cells significantly increase their proliferative response. Interaction of IL 2 with the Tac IL 2 receptor expressed on activated NK cells is necessary to maintain continued growth of these cells. Experiments in which NK cell mitosis is prevented by colchicine show that the majority of peripheral blood NK cells are induced into the first cell cycle over a 6-day culture period in the presence of rIL 2. The addition of the irradiated lymphoblastoid B cell line, Daudi, to colchicine blocked cultures does not increase the proportion of cells entering cell cycle in response to rIL 2 alone. In limiting dilution analysis, only 1/1700 B73.1+ cells grow clonally in response to rIL 2. The frequency of clonal growth of NK cells in response to irradiated Daudi cells alone is minimal, whereas the addition of irradiated Daudi cells to rIL 2 stimulated cultures resulted in a 10-fold increase in clonal frequency compared with the cultures in rIL 2 alone. Therefore, Daudi cells may act by maintaining continuous proliferation of the NK cells originally responsive to IL 2. Unlike NK cells, only a minimal proportion of peripheral blood T cells proliferate in response to IL 2. These IL 2 responsive T cells are characterized by a lower bouyant density than the majority of peripheral blood T cells. These results indicate physiologic differences between peripheral blood resting NK and T cells in their ability to be induced to cycle. IL 2 is a growth factor for both cell types, but although the presence of the growth factor is sufficient for quiescent NK cells to be induced into cycle, T cells require antigenic or other mitogenic stimuli to respond to IL 2. The small proportion of light density IL 2 responsive T cells might represent in vivo activated T cells.     

Immobilized anti-CD3-induced T cell growth: comparison of the frequency of responding cells within various T cell subsets.

Human T cells can be divided into subsets based on the expression of CD29, CD45RA, CD45RO, LFA-3, or CD11a. It has been suggested that the subset of CD4+ T cells that expresses high densities of CD29, CD11a, CD45RO, and LFA-3 contains "memory" T cells, whereas the subset of cells that expresses CD45RA contains "naive" T cells. In order to obtain a more complete picture of the functional capacities of human naive and memory CD4+ and CD8+ T cell subsets, highly purified T cells were activated with a uniform stimulus and responses were examined in bulk cultures and under limiting dilution conditions. T cell activation was achieved with an immobilized mAb to the CD3 molecular complex, 64.1. In bulk cultures, immobilized 64.1 stimulated a vigorous response. Moreover, the number of cells entering the cell cycle, the magnitude of the [3H]thymidine incorporation, and the growth of the cells over 6 days in culture by naive and memory CD4+ T cells was comparable. To delineate the frequency of responsive cells in each subset more precisely, cells were cultured with immobilized 64.1 at limiting dilution and the precursor frequency of responding cells was assessed by examining wells microscopically for visible growth. Immobilized 64.1 was able to induce some T cells from each subset to grow in the complete absence of AC, when exogenous IL2 was present. The number of responding CD4+ and CD8+ cells was comparable. The percentage of naive cells responding in each population was approximately three times greater than the frequency of memory cells. IL4 could also support the growth of immobilized 64.1-activated CD4+ T cells, but the frequency of responding cells was much lower than that supported by IL2. The vast majority of the IL-4 responsive CD4+ cells resided within the naive cell subset. The data indicate that the response of CD4+ and CD8+ naive and memory T cell subsets to immobilized anti-CD3 depends on the density of responding cells. Naive T cells have an enhanced capacity to grow when cultured in the absence of other T cells or accessory cells. This ability may facilitate their expansion during primary immune responses.     

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

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

Modulation of IL 2-dependent growth of mouse NK cells by interferon and T lymphocytes

The regulatory role of interferon (IFN) on the growth of mouse natural killer (NK) cells in the presence of interleukin 2 (IL 2) was analyzed by the limiting dilution assay. Pretreatment for 5 hr with IFN (600 U/ml) was able to augment the frequency of proliferating cells and NK effector cells when spleen cells of BALB/c nu/+ and BALB/c nu/nu were cultured for 7 days in the presence of IL 2. When IFN was present during the 7-day culture period, we again found an increase in proliferative and cytotoxic frequencies in cultures of spleen cells from nude mice, but in contrast, found a decrease in these frequencies in cultures of spleen cells from euthymic mice. Addition of irradiated (3000 R) spleen or thymus feeder cells from euthymic mice to the nu/nu cultures caused an inhibitory activity of IFN also on nu/nu cells. These data indicate that IFN can have both positive and negative regulatory effects on the in vitro growth and differentiation of mouse NK cells and that the inhibitory effects are mediated via T lymphocytes.     

Precursor frequency of human T4 cells responding to stimulation through the CD3 molecular complex: role of various cytokines in promoting growth and IL2 production

The frequency of human T4 cells induced to grow and produce IL2 in response to the anti-CD3 mAb, 64.1, was examined. T4 cells were cultured at limiting dilution and stimulated with either soluble or immobilized 64.1 in the presence of various cytokines and/or irradiated B lymphoblastoid cells as accessory cells (AC). The frequency of responding cells was assessed by examining wells microscopically for visible growth and supernatants for IL2. Immobilized, but not soluble, 64.1 was able to induce T4 cells to grow in the complete absence of AC, but only when exogenous cytokines were present. IL2 was most effective at supporting T4 cell growth in this system, with a mean of 26.0 +/- 3.8% of immobilized 64.1-activated T4 cells generating a colony in cultures supplemented with IL2. IL4 could also support the growth of immobilized 64.1-activated T4 cells, but the frequency of responding cells was much lower (3.7 +/- 0.9%). The combination of IL2 and IL4 was not more effective than IL2 alone. TNF alpha, IL1 beta, and IL6 were unable to support T4 cell growth alone, but each increased the frequency of T4 cells responding in the presence of IL2. AC could support the growth of a small number of 64.1-stimulated T4 cells in the absence of exogenous IL2 and enhanced the frequency of T4 cells responding to immobilized 64.1 in the presence of IL2. The percentage of immobilized 64.1-stimulated T4 cells producing IL2 was also examined. Immobilized 64.1 stimulated less than 1.4 in 1000 T4 cells to produce IL2 in the absence of AC and neither IL4 nor TNF alpha enhanced this response. Fixed AC and IL1 beta, on the other hand, caused a small increase in the frequency of immobilized 64.1-activated T4 cells that secreted IL2. The frequency of T4 cells stimulated to produce IL2 by immobilized 64.1 was greatly enhanced by the addition of AC. The data indicate that in the absence of AC, a stimulatory matrix of immobilized 64.1 is sufficient for some T4 cells to be activated to become IL2 or IL4 responsive and for a smaller percentage to secrete IL2. Additional T4 cells require IL1 beta, TNF alpha, IL6, or AC to become IL2 responsive, whereas only IL1 beta and AC can promote IL2 production. In the presence of AC, the amount of cytokine produced endogenously appears to be sufficient to sustain the growth of some T4 cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Desferoxamine blocks IL 2 receptor expression on human T lymphocytes

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

Stages of T cell activation: continued antigen dependence of IL 2-producing cells after IL 2 receptor expression

Alloantigen stimulation leads, within 48 to 72 hr, to the expression of IL 2 receptors (IL 2R) on the surface of most of the helper T cells with specificity for the stimulating antigens. The IL 2R-bearing cells, separated by flow cytometry from 3-day human or mouse mixed lymphocyte cultures, were found by limiting dilution methods to be enriched 10- to 20-fold (compared to IL 2R- cells) for antigen-specific helper T cells detected by IL 2 production. Although these cells have been activated to an IL 2R+ stage, most of them are unable to produce detectable IL 2 unless they are cultured together with the original, activating antigen. Even when IL 2 is supplied, and lymphokine production measured by assay of a second factor, IL 3, the large majority of individual activated helper T cells remain dependent on further antigenic exposure for their continued maturation into lymphokine-secreting effectors. Helper T cells at this early stage of activation can therefore proliferate when given IL 2 alone, but lymphokine secretion involves a second antigen-dependent step.     

Production of IL 2 and IFN-gamma by T cells from malaria patients in response to Plasmodium falciparum or erythrocyte antigens in vitro

T cells from patients acutely infected with malaria exhibit a disease-related stimulation of DNA synthesis in response to Plasmodium falciparum antigen in vitro. This response is weak and short-lived, suggestive of induction of suppressor mechanisms. Exogenous T cell growth factor (IL 2) that was added to antigen-stimulated T cell cultures enhanced proliferation in antigen-responsive cultures, indicating that the lymphocytes expressed IL 2 receptors. In contrast, the addition of IL 2 to cultures that did not respond to antigen had no effect. Antigen-responsive cultures contained endogenous IL 2 as well, and the antigen-induced lymphocyte proliferation was correlated with IL 2 production. However, the results suggested that IL 2 production by the patients' T cells was insufficient or actively shut off, and that this was responsible for the premature cessation of their DNA synthesis. Supernatants from 60% of the T cell cultures treated with malaria antigen and from 30% treated with RBC ghost antigen contained interferon-gamma (IFN-gamma), as determined by a cytopathic effect inhibition assay combined with acid treatment and antibody neutralization or by an IFN-gamma-specific ELISA. There was no obvious correlation between antigen-induced lymphocyte proliferation and the presence of IFN-gamma in the culture supernatants. A high IFN-gamma activity was also seen in antigen-treated cultures from P. falciparum-immune donors living in highly endemic malaria areas. In contrast, no IFN-gamma was found in supernatants of antigen-treated T cells from healthy donors or patients with Plasmodium vivax malaria. Thus, the IFN-gamma activity of these cultures appears to reflect the presence of antigen-reactive T cells and may be useful as a sensitive indicator of cellular immunity in P. falciparum malaria.     

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

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

Interleukin 2 in cell-mediated immune responses

The lymphokine Interleukin 2 (IL2) restores T cell responses in a number of in vitro systems where immunogenicity has been compromised. UV irradiation of the stimulating allogeneic cells in a mixed leukocyte culture eliminates the production of cytotoxic T lymphocytes and greatly reduces the DNA synthesis response. IL2 restores both parameters. UV-irradiated stimulators are also unable to induce the normal production of IL2 which is observed in a mixed leukocyte culture. The cytotoxic activity of allogeneically stimulated thymocytes is almost completely lost within 24 hours after removal of IL2 at 5 days, indicating that the lymphokine is continuously required to maintain CTL. Thymocytes in 4-day cultures do not adsorb IL2 unless they are simultaneously activated with a mitogen. Finally, IL2 does not adequately restore a secondary response to the purified protein derivative of tuberculin (PPD) in adherent-cell-depleted cultures, indicating that macrophages, in addition to being required for IL2 production, have other functions. These probably include the presentation of soluble antigens to responding cells.     

Crosslinking of the CD5 antigen on human T cells induces functional IL2 receptors.

CD5 is a 67-kDa antigen that is expressed on the membrane of the majority of human T cells, and on a subset of B cells. Previous studies have demonstrated that anti-CD5 monoclonal antibodies (mAb) can provide a helper signal for T cell activation through the TCR/CD3 complex. We now demonstrate that when CD5 is crosslinked by immobilized anti-CD5 mAb in the absence of other activating stimuli, the T cells proliferate in response to recombinant interleukin 2 (rIL2) (but not to rIL4). Four different anti-CD5 mAb (anti-Leu1, 10.2, anti-T1, and OKT1) had a similar effect. IL2 responsiveness could be induced with immobilized anti-CD5 mAb in cultures of purified T cells, but was enhanced by the addition of monocytes, by monocyte culture supernatant, or by the combination of IL1 and IL6. Staining with an anti-IL2 receptor (p55) mAb demonstrated expression of IL2 receptors on about 10% of the anti-CD5-stimulated T cells. Both virgin (CD45RA+) and memory (CD45RO+) T cells were responsive. Our data provide further evidence for the involvement of CD5 in T cell activation.     

T cells from autoimmune "IL 2-defective" MRL-lpr/lpr mice continue to grow in vitro and produce IL 2 constitutively

MRL-lpr/lpr mice and other autoimmune strains that bear the lpr gene develop a profound lymphadenopathy characterized by an expansion of a unique dull Lyt-1+2- T cell population. Because fresh splenic and lymph node T cells from such mice stimulated Con A in vitro are extremely defective in IL 2 production and proliferation, T cell lines derived from MRL-lpr/lpr spleens were established and maintained for several months, and were analyzed for their factor production to define their growth requirements. The results indicate that cultivation in vitro leads to constitutive production of IL 2 and the capacity to respond to growth factors, thereby facilitating the continuous proliferation of T cells bearing the dull Lyt-1+2- phenotype in vitro in the absence of exogenous antigen or mitogen. These studies indicate that MRL-lpr/lpr T cells have the ability to produce IL 2 and to respond to IL 2 with long-term proliferation. In addition, the impaired responsiveness to Con A of fresh MRL-lpr/lpr lymph node T cells was found to be quite transitory, because even short-term culture allowed MRL lpr/lpr T cells to respond normally.     

Interleukin 2 enhancement of lymphokine secretion by T lymphocytes: analysis of established clones and primary limiting dilution microcultures

The effect of exogenous interleukin 2 (IL 2) on lymphokine production by T lymphocytes was examined in two systems: the secretion of macrophage-activating factor (MAF) and interferon (IFN) by cloned long-term T cell lines, and a limiting dilution system for estimating the frequency of precursors of MAF-secreting cells in normal spleen. An IL 2-containing, MAF- and IFN-free supernatant from the EL-4 thymoma (EL-4 SN) significantly enhanced release of MAF and IFN by mitogen- or antigen-stimulated, cytolytic or noncytolytic T lymphocyte clones directed against alloantigens or Moloney leukemia virus-associated antigens. Highly purified IL 2 produced equivalent enhancement as EL-4 SN in cultures of alloreactive clones stimulated with concanavalin A. Kinetics experiments showed that EL-4 SN increased both the rate and duration of MAF release by T cell clones. EL-4 SN also increased MAF production when added during restimulation of limiting dilution cultures of positively selected Lyt-2+ and Lyt-2- C57BL/6 splenic T lymphocytes activated against DBA/2 alloantigens. This enhancement resulted in a threefold increase in the apparent precursor frequency of MAF-secreting cells among Lyt-2+ lymphocytes, but did not affect the frequency among Lyt-2- cells. Additional analysis indicated that average MAF production in cultures of Lyt-2-+ cells was sixfold lower than in cultures of Lyt-2- cells, and hence that EL-4 SN allowed detection of a significant proportion of Lyt-2+ cell cultures secreting low levels of MAF. Under these improved conditions, the MAF assay detected the majority of responding Lyt-2+ and Lyt-2- lymphocytes.     

Biological and biochemical characterization of bovine interleukin 2. Studies with cloned bovine T cells

Bovine peripheral blood lymphocytes stimulated with the T cell mitogen concanavalin A (Con A) secrete a lymphokine with biological properties similar to T cell growth factor (TCGF) or interleukin 2 (IL 2) from other species. The material supports proliferation of Con A-derived T cell blasts, limiting dilution cloning of T cell blasts, and continuous growth of T cell clones for over 6 mo in vitro. A quantitative microassay with the use of TCGF-dependent, Con A-unresponsive cloned T cells was used to determine the biological activity during purification of IL 2. A single peak of activity with an apparent m.w. of 25,000 to 28,000 was recovered after gel filtration. This material eluted from DEAE-Sephacryl between 135 and 165 mM NaCl. After isoelectric focusing, high pressure liquid chromatography, and gel electrophoresis under reducing conditions, peak IL 2 activity was associated with proteins having m.w. of 20,000 and 23,000.     

Correction of defective IL 3 responses of T lymphocytes from autoimmune mice

MRL-+ and MRL-lpr congenic mice differ by the presence and expression of the homozygous recessive lymphoproliferation (lpr) gene. One manifestation of this gene is a massive T cell proliferation that results in a generalized lymphadenopathy in older animals. Interleukin 3 (IL 3), a recently described lymphokine, has been shown to influence lymphocyte differentiation. It was possible that abberrant IL 3 production was the mechanism responsible for the lpr controlled lymphadenopathy. Consequently, in this paper we tested the MRL congenic mice for their ability to produce IL 3. We report that the T lymphocytes from MRL-+ and MRL-lpr could neither respond to pokeweed mitogen in the induction of proliferation nor produce IL 3. Moreover, IL 3 was not produced constitutively nor could be induced at any time period up to 5 days in vitro. This hyporesponsiveness was shown to be controlled at the accessory cell level. Addition of T cell-depleted peritoneal exudate cells from normal major histocompatibility complex (MHC) compatible mice was able to restore the ability to secrete IL 3 in response to pokeweed mitogen in MRL-+ and young MRL-lpr mice. The defect in the accessory cells could be overridden by two means: the incorporation of phorbol myristate acetate in the induction system and preincubation of the cells in tissue culture.     

T cell synergy in the primary MLR: proliferative kinetics, effector cell generation, and IL 2 production

A primary rat MLR was initiated, and on each of 8 consecutive days during the evolving culture, an aliquot of cells was separated into its constitutive helper/inducer (W3/25+) and suppressor/cytotoxic (OX8+) T cell subsets by a monoclonal antibody, Degalan-bead immunoadsorbent column technique. This allowed a detailed kinetic analysis of T cell proliferation, the generation of effector cells, and the production of IL 2 by each subset relative to net whole culture supernatant IL 2 activity. The primary MLR demonstrates an early period of helper/inducer cell proliferation, IL 2 production and accumulation, followed by a period of suppressor/cytotoxic cell (OX8+) proliferation and IL 2 consumption during which there are distinct waves of allospecific suppressor, followed by cytotoxic activity. If fresh T cells of the helper/inducer or suppressor/cytotoxic phenotype were preseparated and then cultured alone with irradiated allogeneic stimulator cells, proliferation was noted in both subsets despite no demonstrable IL 2 activity in cultures of the suppressor/cytotoxic cells. Finally, a suppressed primary MLR exhibited proliferative inhibition of both T cell subsets.     

Enhancing effect of IFN-gamma on helper T cell activity and IL 2 production

A single injection of young murine immune interferon (IFN-gamma) in young (3 mo) or old (14 to 24 mo) mice 3 days before carrier-priming significantly enhances helper T cell activity of their spleen cells. Maximal enhancement is attained when IFN-gamma is injected once immediately before priming or for 4 consecutive days from the time of priming. Helper activity for anti-TNP antibody response was titrated in vitro by adding graded numbers of spleen cells from HRBC-primed mice of a given age to cultures containing a constant number of spleen cells from 3-mo-old normal mice and TNP-HRBC. When T cell-enriched spleen cells from HRBC-primed young or old mice, uninjected or injected with IFN-gamma, were separated by nylon wool filtration into passed (Thi) and adherent (Th2) cells, the helper activity of both T cell subpopulations was found to be enhanced by IFN-gamma injection. Helper activity of purified Th1 and Th2 cells was also increased by their in vitro preincubation with IFN-gamma. Furthermore, interleukin 2 (IL 2) production by mitogen-activated spleen cells from young and old mice is enhanced by addition of IFN-gamma to cultures. These data altogether indicate that IFN-gamma plays an important role in immunoregulation of helper T cell activity.