Generation of cytotoxic T lymphocytes from thymocyte precursors to trinitrophenyl-modified self antigens. II. Establishment of a T cell hybrid clone constitutively producing killer-helper factor(s) (KHF) and functional analysis of released KHF

T cell hybridoma lines were constructed by fusion of Mycobacterium tuberculosis-primed and boosted BALB/c T cells with the AKR-derived T lymphoma cell line BW5147. Certain of the hybridomas prepared in this manner secreted constitutively into their culture supernatants biologically active molecules that displayed precursors of cytotoxic T cell activating properties characteristic of killer-helper factor (KHF). Cell surface analysis revealed that the hybridomas were indeed somatic cell hybrids between the two respective partner cells used for fusion. KHF properties of these hybridoma supernatants were verified by their capacity to stimulate peanut agglutinin-binding (PNA+) C3H/He thymocytes to respond in vitro to 2,4,6-trinitrophenyl(TNP)-modified syngeneic stimulator cells in conjunction with suboptimal doses (10 U/ml) of interleukin 2 (IL 2) for the generation of H-2-restricted, TNP-reactive cytotoxic T cells. The biologically active molecules secreted by a T cell hybrid clone (2Y4) were, like conventional KHF, distinct from IL 1, IL 2, or immune interferon (IFN-gamma). The partially purified KHF derived from 2Y4 cells shows activity at apparent m.w. range of 34,000 to 60,000 on gel permeation, and is relatively homogeneous with respect to isoelectric point, which was approximately 4.5 to 4.7. The partially purified 2Y4-KHF is able to augment proliferation of as well as the expression of IL 2 receptors on PNA+ thymocytes in conjunction with IL 2. Finally, addition of 2Y4-KHF on day 0, followed by the addition of IL 2 on day 2 for 7 days of culture was effective in generating potent CTL responses, whereas addition of IL 2 on day 0, followed by the addition of 2Y4-KHF on day 2 to the culture was ineffective.     

Intrathymic differentiation of cytotoxic T lymphocyte (CTL) precursors. I. The CTL immunocompetence of peanut agglutinin-positive (cortical) and negative (medullary) Lyt 123 thymocytes

To analyze the developmental and functional interrelationship between cortical and medullary thymocytes, the peanut agglutinin-(PNA) binding capacity was used to separate thymocytes into PNA+ (cortical) and PNA- (medullary) thymocytes. Virtually, all positively selected PNA+ thymocytes (90% of the overall thymocyte population) expressed the Lyt 123 phenotype, whereas 90% of negatively selected PNA- thymocytes expressed Lyt 1 alloantigens, about 10% being Lyt 123 thymocytes. Provided, the requirement of Lyt 1 T helper cells was bypassed by Interleukin 2, a nonspecific mediator of T help, PNA+ Lyt 123 thymocytes mounted cytotoxic T cell responses comparable in magnitude to that of peripheral T cells. Their repertoire included antigenic disparities coded for by the complete MHC complex, H-2K, I-A, H-2D, mutational events at H-2K, as well as antigenic disparities expressed on TNP conjugated- and Sendai virus-infected syngeneic cells. PNA- Lyt 123 thymocytes represent a highly reactive pool of primary cytotoxic T lymphocyte (CTL) precursors for both alloreactive and H-2-restricted CTL responses. Since PNA- thymocytes include also Lyt 1 T helper cells, PNA- responder thymocytes are able to mount autonomously (CTL responses. Our data are first to provide direct evidence that Lyt 123 cells represent a common source of alloreactive and H-2-restricted CTL precursors in unprimed lymphocyte populations. Moreover, the apparent immunocompetence of cortical PNA+ thymocytes is now explained by their lack of T helper cells.     

Biochemical relationship between murine immune interferon and a killer cell helper factor.

Concanavalin A and alloantigen-stimulated mouse spleen cells release into the supernatant at least two distinct antigen-nonspecific factors that enhance the generation of cytotoxic cells in vitro. As previously reported, analysis of the supernatant by ammonium sulfate fractionation, gel filtration, hydroxylapatite chromatography, and hydrophobic chromatographic showed one of the two killer cell helper factors (KHF) to be associated with thymocyte mitogenic factor. This report demonstrates the second KHF to be separable from thymocyte mitogenic factor but inseparable from type II (immune) interferon. In addition, this KHF exhibits the same sensitivity to exposure to pH-2 buffer as does immune interferon. The KHF activity of an unfractionated supernatant, which is greater than of either the TMF-associated or interferon-associated KHF alone, is the result of the additive activities of the two independently acting helper factors.     

Generation of alloreactive cytotoxic T lymphocytes: production of T cell and macrophage helper factors in addition to IL 1 and IL 2 by peritoneal cells from mice immunized to Listeria monocytogenes

We investigate the production and biological activity of soluble helper factors produced by peritoneal T cells and macrophage derived from mice primed in vivo with Listeria monocytogenes. Supernatant fluids from co-cultures of these immune T cells and activated macrophages contained Interleukin 1 (IL 1) and Interleukin 2 (IL 2), and had the ability to assist the generation of cytotoxic T lymphocytes (CTL) from a population of nylon wool nonadherent spleen cells sensitized to allogeneic heat-treated thymocytes. The ability to assist CTL development involved T cell and macrophage factors in addition to IL 1 and IL 2. Immune T cells cultured alone produced a factor, devoid of significant IL 2 activity, that assisted CTL development only if adherent cells were present in the responding population. Activated macrophage produced a 38,000 dalton component, distinct from IL 1 on the basis of m.w., that assisted the development of CTL from nylon wool nonadherent splenic cells. Supernatants fluids from co-cultures of immune T cells and allogeneic, nonactivated macrophage contained a CTL helper factor but did not contain IL 1 or IL 2 activities. In contrast, supernatant fluids from co-cultures of immune T cells and syngeneic, nonactivated macrophage contained all 3 activities. This suggests a genetic restriction for the production of IL 1 and IL 2 that does not restrict the production of a CTL helper factor. These results demonstrate that T cell- and macrophage-derived helper factors distinct from IL 1 and IL 2 participate in the development of CTL.     

Studies on T helper cells and the specificity of their soluble products for induction of cytotoxic T cells directed against trinitrophenyl-modified self

The role of T helper cells (Th) and their soluble products in the generation of a cytotoxic T-cell (CTL) response of thymocytes to trinitrophenyl (TNP)-modified syngeneic cells was investigated. The Th have a Thy 1⁺ Lyt 1⁺2^? surface phenotype, and produce at least two soluble helper factors. Production of factors requires stimulation of primed Th by specific antigen (self-TNP), and depends on a Thy 1⁺ Lyt 1⁺2^? cell. Factors present in supernatants after 5 hr of stimulation act preferentially on antiallogeneic precursor CTL (pCTL); factors present at 24 hr act preferentially on self-TNP-specific pCTL with a variable activity for alloantigen-specific pCTL. These results are interpreted as suggesting a possible role for helper factors having selective action in generation of CTL responses.     

Production of T cell differentiation factor in syngeneic lymphocyte macrophage culture for cytotoxic T lymphocyte generation

This study demonstrated that T cell differentiation factor (TCDF) was produced in syngeneic lymphocyte-macrophage cultures. Conditioned medium containing TCDF and interleukin 2 (IL 2) induced the differentiation of leukoagglutinin (LA)-activated cytotoxic T lymphocyte precursors (CTLp) into cytotoxic T lymphocyte (CTL) effectors. The production of TCDF and IL 2 peaked at day 4 to 5 in cultures containing normal spleen cells, syngeneic peritoneal macrophages, and indomethacin. Macrophages and T cells with Thy-1+, L3T4+, and Lyt-2- phenotype were needed for TCDF production. There was no requirement for xenogeneic serum in the culture medium; thus, TCDF could be produced in a syngeneic system. Recognition of self Ia molecules appeared to be essential for TCDF production, which was completely abolished by the addition of monoclonal anti-Ia antibody. In our experiments, removal of IL 2 from conditioned medium containing TCDF abolished its ability to generate LA-activated CTL. However, the cytotoxic response could be restored by the addition of a small amount (5 U/ml) of purified human recombinant IL 2 (HRIL 2), which alone was unable to generate LA-activated CTL at this dose. The generation of LA-activated CTL by high dose HRIL 2 (greater than 50 U/ml) was likely due to the endogenous production of TCDF. The bulk of TCDF could be separated from IL 2 by gel filtration in a Sephadex G-100 column. The peak of TCDF activity was concentrated at a m.w. of 16K dalton, and there was very little IL 2 activity in these fractions. When added alone to the LA-activated lymphocyte cultures, these active fractions were unable to induce CTL; supplementation of exogenous IL 2 was needed to restore the cytotoxic responses. Our findings indicate that both IL 2 and TCDF, which are needed in CTL generation. are produced in syngeneic cultures in the absence of antigenic or mitogenic stimulation.     

Requirement for three distinct lymphokines for the induction of cytotoxic T lymphocytes from thymocytes

The induction of cytotoxic T lymphocytes (CTL) from CTL precursors requires a combination of antigen and lymphokine signals. To investigate lymphokine requirements for CTL generation, we used an assay in which helper T cell and accessory cell-depleted spleen cells or whole thymocytes were cultured with lectin (Con A) and lymphokines. This culture was followed by assessment of lectin-dependent cytolysis. High concentrations of recombinant interleukin 2 (R-IL 2) (100 U/ml) alone were not sufficient for lectin-mediated CTL induction from thymocytes, whereas 20 to 100 U/ml of R-IL 2 alone could induce a significant lectin-mediated CTL response from accessory cell-depleted spleen cells. Using thymocytes as responders, we found purified or recombinant interferon-gamma (IFN-gamma) did not cause cytolytic activity either in the absence of or in the presence of R-IL 2. However, supernatant from Con A-stimulated rat spleen cells (rat Con A SN) in combination with R-IL 2 could induce cytolytic activity, suggesting that several factors are required for CTL induction. Con A SN was fractionated by gel filtration and the fractions were tested for ability to induce CTL. In the presence of a low level of R-IL 2 (5 U/ml), fractions with a Mr of approximately 31,000 could induce CTL, and this activity was referred to as CTL differentiation factor (CDF). The peak fractions containing CDF activity did not have detectable IL 1, IL 2, IFN-gamma, or CSF activity. However, by add-back experiments and the use of blocking antibodies, a monoclonal antibody against the IL 2 receptor or antibodies against murine IFN-gamma, we demonstrated that CTL induction from mature thymocytes (L3T4-, Lyt-2+) requires CDF activity in addition to IL 2 and IFN-gamma.     

Abrogation of anti-Pichinde virus cytotoxic T cell memory by cyclophosphamide and restoration by coinfection or interleukin 2

Previously, we demonstrated that memory cell-mediated immune responses can be generated in Pichinde virus (PV)-primed mice after secondary challenge in vivo with homologous virus. Further, treatment of mice with cyclophosphamide (CY) before primary infection with PV abrogated the generation of H-2-restricted, virus-specific cytotoxic T lymphocytes (CTL), and rechallenge of these mice was followed by neither a primary nor a secondary CTL response. Here, we demonstrate that this CY-induced block in memory anti-PV CTL generation was not due to establishment of a persistent infection. Interestingly, this CY-induced block in memory anti-PV CTL generation was overcome by secondarily coinfecting mice with PV and lymphocytic choriomeningitis virus (LCMV) or PV and Tacaribe virus. Secondary infection with LCMV or Tacaribe virus alone did not elicit anti-PV CTL. Coinfection resulted in the generation of a PV-specific memory CTL response as judged by maximal activity on day 4 after rechallenge. Co-infection with PV and vesicular stomatitis virus, an unrelated rhabdovirus, did not efficiently restore memory anti-PV CTL responses. Memory anti-PV CTL responses were also restored when interleukin 2 (IL 2)-containing supernatants were injected i.p. after rechallenge of CY-treated mice with PV. To demonstrate that IL 2 was the responsible lymphokine in these preparations, highly purified IL 2 was added to in vitro cultures of spleen cells from CY-treated PV-primed mice. In the presence of PV-infected syngeneic macrophages, addition of purified IL 2 resulted in a dose-dependent restoration of H-2-restricted anti-PV CTL activity. The CTL precursor (CTLp) frequency of CY-treated PV-primed mice was markedly decreased from that of normal PV-primed mice. Thus, the long-lasting block in the ability to generate a PV-specific memory CTL response after CY treatment appears to be due to both a lack of helper T cell activity and a significant reduction of CTLp. However, this block may be overcome by coinfecting with viruses that cross-react at the helper T cell level or by exogenous treatment with highly purified IL 2.     

T-cell responses induced by the parenteral injection of antigen-modified syngeneic cells. II. Mechanisms, specificity, and cellular analysis of 2,4,6-trinitrophenol (TNP)-specific cytolytic response priming by intravenous versus subcutaneous injection with TNP-modified syngeneic cells

We have examined the underlying mechanisms accounting for the enhanced in vitro TNP-specific cytotoxic T-lymphocyte (CTL) response following the parenteral injection of syngeneic hapten-modified lymphoid cells. Augmented CTL activity noted following parenteral injection (iv vs sc) of 2,4,6-trinitrophenol-modified syngeneic spleen cells (TNP-SC) is most apparent when limiting numbers of TNP-modified stimulator cells are used in the in vitro sensitization phase. Enhanced CTL responses seen following sc and iv priming is due to distinct mechanisms. Spleen and lymph node (LN) cells from sc primed mice were found to contain significant levels of radioresistant helper activity upon coculture with either viable normal spleen cells in bulk culture or with thymocytes as the source of precursor CTLs in a limiting dilution assay. The helper activity was found to be mediated by a Lyt 1+2- T cells. In addition, Lyt 2-depleted spleen and LN cells from sc primed BALB/c mice could restore the ability of tolerant spleen cells from 2,4,6-trinitrobenzenesulfonic acid (TNBS)-injected BALB/c mice to generate TNP-specific CTLs. Conversely, Lyt 2-depleted spleen and LN cells from iv primed mice provided no measurable helper activity either in bulk culture or in the limiting dilution assay and did not restore the ability of TNBS-tolerant BALB/c spleen cells to generate TNP-specific CTLs. CTL priming via the iv route was found to be completely antigen specific as iv injection of either 2,4-dinitrophenol (DNP)- or fluorescein isothiocyanatel (FITC)-modified cells caused no enhanced CTL activity. Priming via the sc route exhibited a unique specificity pattern as it was shown that sc injection of both TNP-SC and DNP-SC, but not FITC-SC, resulted in enhanced TNP-specific CTL responses. CTL T-helper (Th)-cell induction via the sc route was correlated with (1) the presence of H-2 I region determinants on the inducer cells as the sc injection of TNP-modified erythrocytes led to no enhanced CTL responses or CTL Th activity (while iv injection of TNP-erythrocytes did lead to enhanced CTL responses without detectable helper activity) and (2) the detection of both hapten-specific T-cell proliferation and Interleukin 2 (IL-2) production upon restimulation in culture. We conclude that the sc injection of TNP-SC leads preferentially to an increase of specific Lyt 1+ helper activity, while iv injection leads preferentially to an apparent expansion of Lyt 2+ prelytic effector CTLs.     

Acquisition of non-MHC restricted cytotoxic function by IL 2 activated thymocytes with an "immature" antigenic phenotype

Culture of human thymocytes in interleukin 2 (IL 2) results in the generation of cytotoxic T lymphocytes (CTL) that kill tumor cell targets without major histocompatibility complex (MHC) restriction. Thymic non-MHC restricted CTL expressed Leu-19 antigen, but were generated from thymic precursor cells that lacked expression of Leu-19. In contrast, short term culture in Il 2 of peripheral blood lymphocytes depleted of Leu-19+ lymphocytes did not result in the generation of cytotoxic activity. IL 2 was necessary and sufficient for the generation of cytotoxic thymocytes and induction of Leu-19 antigen expression. Thymic non-MHC restricted CTL were generated from precursor cells expressing CD1, an antigen present on the majority of thymocytes. Furthermore, cytotoxic activity was detected in IL 2 cultured thymocyte populations with an "immature" antigenic phenotype, i.e. CD1+ and CD4+, CD8+. Upon subsequent culture, thymic non-MHC restricted CTL lost expression of CD1, and developed an antigenic phenotype similar to peripheral blood non-MHC-restricted CTL, suggesting that peripheral non-MHC-restricted CTL may originate from these thymic precursors.     

Helper T cells against tumor-associated antigens (TAA): preferential induction of helper T cell activities involved in anti-TAA cytotoxic T lymphocyte and antibody responses

This study establishes assay systems for helper T cell activities assisting cytotoxic T lymphocyte (CTL) and antibody responses to tumor-associated antigens (TAA) and demonstrates the existence of TAA that induce preferentially anti-TAA CTL helper and B cell helper T cell activities in two syngeneic tumor models. C3H/HeN mice were immunized to the syngeneic X5563 plasmacytoma or MH134 hepatoma. Spleen cells from these mice were tested for anti-TAA helper T cell activity capable of augmenting anti-trinitrophenyl(TNP) CTL and anti-TNP antibody responses from anti-TNP CTL and B cell precursors (responding cells) by stimulation with TNP-modified X5563 or MH134 tumor cells. The results demonstrate that cultures of responding cells plus 85OR X-irradiated tumor-immunized spleen cells (helper cells) failed to enhance anti-TNP CTL or antibody responses when in vitro stimulation was provided by either unmodified tumor cells or TNP-modified syngeneic spleen cells (TNP-self). In contrast, these cultures resulted in appreciable augmentation of anti-TNP CTL or antibody response when stimulated by TNP-modified tumor cells. Such anti-TAA helper activities were revealed to be Lyt-1+2- T cell mediated and TAA specific. Most interestingly, immunization with X5563 tumor cells resulted in anti-TAA helper T cell activity involved in CTL, but not in antibody responses. Conversely, TAA of MH134 tumor cells induced selective generation of anti-TAA helper T cell activity responsible for antibody response. These results indicate that there exists the qualitative TAA-heterogeneity as evidenced by the preferential induction of anti-TAA CTL- and B cell-helper T cell activities. The results are discussed in the light of cellular mechanisms underlying the preferential anti-TAA immune responses, and the interrelationship between various types of cell functions including CTL- and B cell-help.     

The suppressor T cell induced by syngeneic splenic cell antigen down-regulates hapten-specific cytotoxic T cells by elaborating a factor inhibitory for IL2-dependent cell replication

An in vitro study has been made of the mechanism by which a suppressor T cell, that is induced in lymph nodes by a syngeneic splenic cell antigen, prevents generation of cytotoxic T cells specific for hapten-altered self antigens. When popliteal lymph node cells exposed in vivo to syngeneic splenic cells were immunized in vitro with heat-treated syngeneic TNP-coupled thymocytes and excess helper factors, the Ts remained inactive. In this condition the exposed popliteal lymph node cells routinely demonstrated approximately twice the CTL response developed by lymph node cells from normal mice. Nevertheless, when triggered in vitro by splenic antigen on either X-irradiated B or T cells, the exposed but not the normal lymph node cells exhibited reduced hapten-altered self-specific CTL responses. Furthermore, T cells within spleen cell-exposed popliteal lymph node cell populations when reexposed to splenic T cells made a factor that was found to be suppressive of CTL generation by normal lymph node cells in vitro. The nondialyzable T-cell suppressor factor (TsF) did not appear to act on lymph node precursor CTLs, nor on helper T cells but instead acted at the level of utilization of helper factors in the development of CTLs. In an examination of the effect of TsF on cellular replication, TsF was found to be nontoxic for CTLL-20, an IL-2-dependent T cell, and it did not hinder the uptake of IL-2 by receptor blockade of this cell. Nevertheless, the replication of CTLL-20 that is IL-2 driven was diminished in the presence of TsF. Similarly, TsF was found to be inhibitory for T-cell proliferation stimulated by mitogen but had no effect on a B myeloma cell proliferative response. Thus, TsF appears to act as an inhibitor of a T cell's capability to replicate despite the presence of the stimulus for replication, namely, IL-2.     

A human helper T cell clone secreting both killer helper factor(s) and T cell-replacing factor(s)

A human helper T cell clone (d4), which showed its helper effect on the differentiation of both T and B cells, was established by MLC reaction of normal T cells against a B lymphoblastoid cell line (CESS) followed by cloning in the presence of IL2 and x-irradiated CESS and autologous non-T cells. d4 cells helped the induction of cytotoxic T cells against UV-treated CESS cells. Antigen-stimulated d4 cells secreted helper factor(s) involved in the induction of cytotoxic T cells (killer helper factor(s), KHF), and KHF activity could be separated into two fractions, one with the m.w. of 15,000 to 20,000 and the other with the m.w. of 45,000 to 50,000. The factor with 15,000 to 20,000 m.w. showed IL 2 activity; the other factor showed gamma-interferon activity without IL 2 activity, suggesting that both IL 2 and gamma-interferon exerted KHF activity. d4 cells or their culture supernatant showed helper activity in the induction of IgG in a B cell line (CESS). The helper activity of the supernatant (TRF) was absorbed with CESS cells but not with IL 2-dependent CTLL, whereas KHF activity was absorbed with IL 2-dependent CTLL but not with CESS cells. The results showed that TRF and KHF were distinct molecules and a single helper T cell clone could secrete helper factors for both B and T cells.     

Regulation of the cytotoxic activity of alloreactive cytotoxic T lymphocytes by helper cells and lymphokines

The cytotoxic activity of alloreactive cytotoxic T lymphocytes (CTL) was maintained and augmented by transferring cells from a 5-day mixed lymphocyte culture MLC into a host culture (HC) containing indomethacin, freshly explanted normal spleen cells, and peritoneal cells which were syngeneic to the MLC cells. The MLC cells used in the transfer experiments were generated by culturing untreated H-2b splenic responders with irradiated H-2d stimulators, or were generated by culturing Lyt-2-depleted H-2b splenic responders with irradiated H-2d stimulators. The allo-CTL were found to be derived from the donor MLC (first culture) when unfractionated MLC cells were transferred into a host (second) culture and incubated for 5 days. In contrast, the allo-CTL were derived from host culture cells when Lyt-2-depleted MLC cells were transferred and the combined cultures incubated for 5 days. In the former case, the augmentation of MLC-derived cytotoxicity did not result from nonspecific expansion of all donor T cells; instead it was mediated by lymphokine(s), distinct from IL-2, produced by helper T cells generated in host culture, which appeared to selectively expand the antigen-specific CTL or to increase the cytotoxic activity of these CTL. The helper T cells were Thy-1+, L3T4+, and Lyt-2-. These findings indicate that antigen-nonspecific help was provided by helper cells or helper factors (lymphokines) generated in the host culture, which maintained and augmented the cytotoxic activity of the fully generated allo-CTL. This helper effect was also seen in the induction of primary allo-CTL responses which could be generated with fewer stimulating cells and with a stronger cytotoxic response at different R/S ratios tested. The generation of allo-CTL in second culture following transfer of Lyt-2-depleted MLC cells to host cultures appears to have involved antigen carryover from the MLC; however, antigen carryover alone was not sufficient. It appears that in the absence of Lyt-2+ suppressor T cells, antigen-specific help might be generated in donor cultures (Lyt-2-depleted MLC) which promoted or recruited the generation of antigen-specific CTL in host culture.     

Requirement for recognition of class II molecules and processed tumor antigen for optimal generation of syngeneic tumor-specific class I-restricted CTL

The roles of Class II-restricted L3T4+ T cells and of accessory cells (AC) during the in vitro generation of Class I-restricted Lyt-2+ cytotoxic T cells (CTL) specific for a Class II-negative syngeneic tumor cell line, FBL, was examined. Treatment of responder FBL-immune spleen cells with alpha L3T4 plus complement before culture, as well as the direct addition of alpha L3T4 to cultures, diminished the generation of FBL-specific CTL. The contribution of L3T4+ cells could be completely replaced by the addition of exogenous cytokines. The data demonstrate that the optimal generation of FBL-specific Lyt-2+ CTL requires the presence of L3T4+ cells, presumably to provide necessary lymphokines. FBL-specific CTL could not be generated from purified FBL-immune T cells in the absence of AC. Syngeneic Ia+ macrophages (M phi), added at the initiation of culture, restored the response of purified T cells. Pretreatment of M phi with ammonium chloride or chloroquine, or the addition of monoclonal alpha I-Ab antibody at the initiation of culture, inhibited the ability of M phi to reconstitute the CTL response. Finally, the addition of exogenous helper factors could replace M phi and reconstitute the FBL-specific response of AC-depleted immune T cells. These results suggest that during the generation of Lyt-2+ CTL to a syngeneic tumor expressing only Class I MHC antigens, Ia+ AC are required to biochemically process antigen released from the tumor cells and present this modified antigen to Class II-restricted T helper cells.     

Regulation of the production of immune interferon and cytotoxic T lymphocytes by interleukin 2

The activation of alloantigen-specific cytotoxic T lymphocyte precursors is dependent upon the presence of both macrophages and helper T cells or regulatory molecules derived from these facilitative cells. Three biochemically distinct helper factors have been identified: interleukin 1 (macrophage-derived), Interleukin 2 (T cell derived), and immune interferon. All 3 factors are found in supernatants of mixed lymphocyte cultures (MLC), however, the removal of macrophages from these cultures completely ablates the production of these factors as well as the induction of cytotoxic T lymphocytes (CTL). The addition of IL 2 to these macrophage-depleted MLC restores the ability of responder T cells to: 1) bypass the requirement for macrophage soluble function, 2) produce immune interferon, and 3) generate CTL. The kinetics and dose response of immune interferon production in response to IL 2 correlates with the generation of CTL. The production of immune interferon as well as the generation of CTL requires T cells, alloantigen, and IL2. Furthermore, the induction of CTL by IL2 was neutralized by the addition of anti-immune interferon. These data suggest that: 1) the regulation of immune interferon production is based on a T to T cell interaction mediated by IL 2, and 2) immune interferon production may be required for IL 2 induction of CTL. These findings are consistent with the hypothesis that the induction of CTL involves a linear cell-factor interaction in which IL 1 (macrophage-derived) stimulates T cells to produce IL 2, which in turn stimulates other T cells to produce immune interferon and become cytotoxic.     

T helper cells in immune mice amplify the primary anti-tumor cytotoxic response

In this report we examine the influence of splenic helper cells in the primary cytotoxic T lymphocyte (CTL) response against syngeneic murine leukemia virus-(MuLV) induced tumor cells. We identify an Lyt-1+ 800 R radiation-resistant helper T cell that will amplify the in vitro generation of CTL against syngeneic tumor cells from nonimmune spleen cells.     

Differential helper and effector responses of Lyt-2+ T cells to H-2Kb mutant (Kbm) determinants and the appearance of thymic influence on anti-Kbm CTL responsiveness

The goal of this study was to assess and compare the allorecognition requirements for eliciting Lyt-2+ helper and effector functions from primary T cell populations. By using interleukin 2 (IL 2) secretion as a measure of T helper (Th) function, and cytolytic T lymphocyte (CTL) generation as a measure of effector function, this study compared the responses of Lyt-2+ T cells from wild-type B6 mice against a series of H-2Kb mutant determinants. Although all Kbm determinants stimulated B6 Lyt-2+ T cells to become cytolytic effector cells, the various Kbm determinants differed dramatically in their ability to stimulate Lyt-2+ T cells to function as IL 2-secreting helper cells. For example, in contrast to Kbm1 determinants that stimulated both helper and effector functions, Kbm6 determinants only stimulated B6 Lyt-2+ T cells to become cytolytic and failed to stimulate them to secrete IL 2. The distinct functional responses of Lyt-2+ T cells to Kbm6 determinants was documented by precursor frequency determinations, and was not due to an inability of the Kbm6 molecule to stimulate Lyt-2+ Th cells to secrete IL 2. Rather, it was the specific recognition and response of Lyt-2+ T cells to novel mutant epitopes on the Kbm6 molecule that was defective, such that anti-Kbm6 Lyt-2+ T cells only functioned as CTL effectors and did not function as IL 2-secreting Th cells. The failure of Lyt-2+ anti-Kbm6 T cells to function as IL 2-secreting Th cells was a characteristic of all Lyt-2+ T cell populations examined in which the response to novel mutant epitopes could be distinguished from the response to other epitopes expressed on the Kbm6 molecule. The absence of significant numbers of anti-Kbm6 Th cells in Lyt-2+ T cell populations was examined for its functional consequences on anti-Kbm6 CTL responsiveness. It was found that primary anti-Kbm6 CTL responses could be readily generated in vitro, but unlike responses to most class I alloantigens that can be mediated by Lyt-2+ Th cells, anti-Kbm6 CTL responses were strictly dependent upon self-Ia-restricted L3T4+ Th cells. Because the restriction specificity of L3T4+ Th cells is determined by the thymus, in which their precursors had differentiated, anti-Kbm6 CTL responsiveness, unlike responsiveness to most class I alloantigens, was significantly influenced by the Ia phenotype of the thymus in which the responder cells had differentiated.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of helper factors distinct from interleukin 2 necessary for the generation of allospecific cytolytic T lymphocytes

The in vitro generation of primary murine allospecific cytolytic T lymphocytes (CTL) from BALB/c (H-2d) spleen cell precursors in response to x-irradiated RDM4 (H-2k) tumor cells did not occur unless the cultures were supplemented with exogenous helper factors. Such CTL helper factors (CHF) could be provided by conditioned medium from cultures in which Sendai virus-immune BALB/c spleen cells were stimulated either with Sendai-infected cells (SC-CM) or with peptides cleaved by CNBr from intact virions (SP-CM). CHF activity stimulated by both antigens reached a maximum after day 3 of culture. In contrast, interleukin 2 (IL 2) activity peaked at day 2 and had essentially disappeared by day 4. Fractionation of day-4 SC-CM and SP-CM preparations by gel filtration revealed peaks of activity at apparent m.w. of 17,000 (CHF17) and 30,000 (CHF30). Under certain conditions, a peak of CHF activity appeared in the void volume with an apparent m.w. of 75,000 or greater. These results indicate that CHF activity is mediated by molecules distinct from IL 2.     

Helper factor production in murine secondary syngeneic mixed leukocyte reactions

Culture supernatants of murine thymocytes or spleen cells responding in a secondary syngeneic mixed leukocyte reaction (SMLR) were studied for their biologic effects on cell-mediated immune responses in vitro. Such supernatants contained helper factor(s) that facilitated the development of alloantigen-specific cytotoxic T lymphocyte (CTL) responses from thymocyte precursors. Thymocytes, but not spleen cells, required activation by allogeneic effect factor (AEF) in primary culture in order to proliferate and produce biologically active mediator(s) during a secondary SMLR. The same culture supernatants possessed, in some instances, weak T cell growth factor (TCGF; IL 2) activity. However, TCGF activity could be dissociated from helper factor(s) active in the CTL induction assay because some culture supernatants that had potent helper activity were devoid of TCGF activity. This lack of TCGF activity was not due to a lower degree of sensitivity of the TCGF assay or to the presence of a selective TCGF inhibitor in the SMLR-derived supernatants, indicating that the helper factor(s) studied is distinct from TCGF. Production of immunoregulatory lymphokines during the SMLR may serve as a physiologically relevant model for studying the role of T cell-derived lymphokines in immunoregulation.