Mouse T lymphocytes proliferative responses specific for human MHC products in mouse anti-human xenogeneic MLR

It has been reported that human T cells recognize the polymorphism of murine Ia antigens in the human anti-mouse xenogeneic mixed lymphocyte reactions (MLR). In this study, murine T cell recognition of human Class II antigens of the major histocompatibility complex (MHC) was analyzed in mouse anti-human xenogeneic MLR responses. The xenoreactive murine T cell proliferative response was blocked by adding anti-HLA-DR monoclonal antibody to the xenogeneic MLR culture. The specificity of xenoreactive murine T cells was examined with regard to the secondary and tertiary xenogeneic MLR system. The xenoreactive murine T cells were restimulated by distinct human stimulator cells that had no shared HLA antigens with the stimulator used in the primary MLR. The data presented here show that the murine xenoreactive T cells recognize the shared determinant(s) of HLA-DR antigen on non-T, non-B stimulator cells. The xenoreactive murine T cell proliferative responses were mediated by Thy-1+, Lyt-1+, and Lyt-2- cells. Furthermore, the xenoreactive T cell responses required Ia+ cells, and Ia antigen on accessory cells plays a crucial role in eliciting the xenoreactive responses against human stimulator cells, while Ia+ accessory cells in the responding cell population are not essential for the elicitation of allogeneic MLR responses, as reported previously.     

Antigen presentation by human antigen-presenting cells to antigen-specific xenogeneic murine T cells

Successful antigen presentation by xenogeneic human antigen-presenting cells (APC) to stimulate the proliferation of antigen-specific, keyhole limpet hemocyanin (KLH)-specific, ovalbumin (OVA)-specific, and purified protein derivative of Mycobacterium tuberculosis (PPD)-specific murine T cells was observed. Evidence indicating a direct cell interaction between antigen-specific murine T cells and xenogeneic human APC was given by experiments using antigen-specific murine T cell clones. The OVA-specific B10.S(9R) T cell line (9-0-A1) and PPD-specific B10.A(4R) T cell line (4-P-1) were stimulated by both xenogeneic human APC and murine APC from syngeneic or I-A compatible strains, while the PPD-specific human T cell line (Y-P-5) was stimulated by autologous human APC but not by murine APC. Anti-HLA-DR monoclonal antibodies (MoAb) blocked the xenogeneic human APC-antigen-specific murine T cell clone interaction. Thus, human xenogeneic APC can stimulate antigen-specific murine T cells through HLA-DR molecules in the same manner as syngeneic murine APC do through Ia molecules coded for by the I region of the H-2 complex, while murine APC failed to present antigen to stimulate human antigen-specific T cells.     

Regulatory mechanisms in cytotoxic T lymphocyte development. III. Induction, specificity, and genetic restriction of an in vitro suppressor T cell

We addressed questions pertaining to the immunogenetics of an in vitro alloinduced suppressor T cell (Ts) previously shown to inhibit cytotoxic T-lymphocyte (CTL) development by suppressing CTL precursor proliferation. Using intra-MHC recombinant strains of B10 congenic mice, the requirements for H-2 differences to induce Ts activity, the antigen specificity of the Ts, and the genetic restriction of Ts function were studied. It was found that differences at the K, D, or I regions alone can induce strong suppressor activity. Suppression of CTL development does not appear to be genetically restricted since the Ts inhibit CTL from responder cells disparate at K, K and D, I, or K and I. The alloinduced Ts is specific for the antigen stimulating its induction, but also inhibits CTL responses against immunologically unrelated determinants, even between class I and class II antigens, provided those determinants are carried on cells expressing the original inducing antigen. Ts can be triggered by antigens present on the responder cells but absent on the stimulator cells, indicating that the suppressive signal may be exerted directly on the responder population without specific interaction with stimulator 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)     

Role of accessory cell processing and presentation of shed H-2 alloantigens in allospecific cytotoxic T lymphocyte responses

The present study was undertaken to evaluate the role of accessory cell processing of MHC alloantigens in the initiation of primary allospecific CTL responses. To first determine whether antigen processing by accessory cells is involved in the initiation of allospecific CTL responses, accessory cells were retreated with the lysosomotropic drug chloroquine before their addition to culture. It was found that chloroquine pretreatment abrogated their ability to function as accessory cells only when they were of responder haplotype and had no effect when the accessory cells were of stimulator haplotype. Although accessory cells of either responder or stimulator haplotype can initiate allospecific CTL responses, we have previously demonstrated that they do so by activating distinct classes of T helper TH) cells. Indeed, the differential effects of chloroquine on accessory cells of responder or stimulator haplotypes were shown to reflect the fact that chloroquine pretreatment markedly impaired the ability of accessory cells to activate self-Ia-restricted TH cells, but had little effect on the ability of the same accessory cells to activate either allo-class I- or allo-class II-specific TH cells. We next examined the possibility that accessory cells of responder haplotype mediate alloresponses by acquiring and processing shed MHC alloantigens derived from the stimulator cell population. In these experiments, accessory cell-depleted stimulator cells were fixed with paraformaldehyde to inhibit shedding of their surface MHC alloantigens. It was observed that even though mixed stimulator cells were recognized normally by allospecific CTL precursors, they completely failed to stimulate CTL responses mediated by responder haplotype accessory cells, indicating that the function of such accessory cells is dependent upon their acquisition of shed MHC alloantigens. Taken together, the data presented in this report demonstrate that accessory cells of responder haplotype function in allospecific CTL responses by acquiring and processing shed class I MHC alloantigens, and by then presenting the processed alloantigens in association with self-Ia determinants to self-Ia-restricted TH cells. Thus, these data indicate that the self-Ia-restricted TH cells that are involved in allospecific CTL responses recognize processed class I alloantigens in association with self-Ia determinants.     

Modification of tumor cells by a low dose of Newcastle disease virus. III. Potentiation of tumor-specific cytolytic T cell activity via induction of interferon-alpha/beta

To investigate possibilities of augmenting tumor-specific immune responses against the highly metastatic murine lymphoma ESb, we tested the effects of the interferon inducer newcastle disease virus (NDV) or of interferon-alpha/beta as costimulator in mixed lymphocyte-tumor cell cultures (MLTC) on the tumor-specific cytolytic T cell (CTL) response. Both approaches, namely stimulation of ESb immune spleen cells with NDV-modified stimulator cells or with ESb stimulator cells and exogenous IFN-alpha/beta, led to a selective potentiation of tumor-specific CTL activity. The potent activation of tumor-specific CTL precursor (CTLP) required the simultaneous presence of the specific ESb tumor antigen--possibly to mediate a signal via the corresponding T cell receptor--and costimulators--possibly to mediate second activation signals. Increased CTL activity required only very low amounts of NDV or IFN-alpha/beta. The generation of CTL activity in the MLTC cultures could be blocked by antisera to IFN-alpha/beta, not, however by control sera. Similar effects were observed in vivo, suggesting that IFN-alpha/beta not only caused an increase in CTL activity, but was essential for the generation of CTL activity. The reduction of the generation of CTL by antiserum to IFN-alpha/beta could be overcome by excess interferon, especially when using ESb-NDV as stimulator cells.     

Structural and functional studies of HLA-DR restricted antigen recognition by human helper T lymphocyte clones by using transfected murine cell lines

Murine L cells expressing the products of transfected HLA-DR1 genes functioned as APC for two influenza-specific, human Th cell clones with comparable efficiency to a DR1-expressing human lymphoblastoid cell line. In order to investigate the restriction specificity of the two Th clones, a transfectant expressing the species-mismatched MHC class II dimer DR1:I-E was tested as an APC. Both T cells showed no loss of Ag sensitivity due to substitution of the murine chain. One of the Th clones, TLC 72, showed even greater degeneracy by responding to Ag in the context of I-Ek. Taking into account the lower level of MHC class II expression on the I-Ek transfectant, there is remarkably little loss of efficiency of Ag-induced T cell activation due to the substitution of I-E for DR as restriction element. The Ag-specific responses of both clones were inhibited by anti-CD4 antibody when DR-transfected L cells or human lymphoblastoid cells were used as APC. This inhibition was also seen when Ag was presented to TLC72 by the I-Ek-expressing transfectant. Whether this inhibition is the result of negative signaling or of blocking an interaction between human CD4 and I-Ek is discussed. Similarly the inhibitory effects of mAb against the T cell accessory molecule LFA/1 were the same for both clones when either the transfectants or the lymphoblastoid cell line were used as APC, suggesting that L cells may express a molecule that is capable of acting as a ligand for human LFA/1. The results presented here further illustrate the value of transfectants in analyzing T cell recognition and accessory cell requirements. The patterns of degeneracy of MHC restriction exhibited by these clones provides a platform for a more detailed analysis of key residues involved in MHC class II-restricted T cell Ag recognition.     

Induction and characterization of minor histocompatibility antigens. Specific primary cytotoxic T lymphocyte responses in vitro

A definite cytotoxic activity was developed in a BALB/c (H-2d) anti-DBA/2 primary mixed leukocyte culture (MLC), which received interleukin 2 (IL-2) on day 3 of culture. This cytotoxic activity was minor histocompatibility antigens (MIHA)-specific at the stimulator level, and was not developed in a syngeneic (BALB/c anti-BALB/c) MLC. The addition of IL-2 on day 3 of culture was crucial; no or very weak cytotoxic activity was developed in MLC receiving IL-2 on day 0 or on both day 0 and day 3. Only appropriate MIHA-allogeneic tumor cells were lysed as the target of the cytotoxic activity. The cytotoxic activity seemed MIHA-specific also at the target level; it lysed tumor cells of DBA/2 mouse origin but not those of BALB/c (syngeneic) origin. Phenotypes of the cytotoxic effector cell were Thy-1+ Lyt-2+. We concluded from these results that MIHA-specific cytotoxic T lymphocytes (CTL) were generated in the MIHA-allogeneic primary MLC. In this newly developed system, we studied genetic and antigenic requirements for primary anti-MIHA CTL responses in vitro. We demonstrated; among spleen cells (SC) of seven B10 H-2-congenic strains only SC of B10.D2 strain whose major histocompatibility complex (MHC) (H-2d) was compatible with the responder MHC effectively stimulated responder BALB/c (H-2d) SC for an anti-MIHA (DBA-C57BL-common) CTL response. Similarly, only SC of two out of seven C x B recombinant inbred strains (C x B.H and C x B.D), which were compatible at the MHC with responder SC, activated responder BALB/c SC for the response. The possibility that cells responding to H-2 alloantigens suppressed the anti-MIHA response was ruled out. Additional experiments showed that compatibility at the H-2K-end or the H-2D-end of the MHC was sufficient for a definite anti-MIHA response. These provided formal evidence that primary anti-MIHA CTL responses in vitro were MHC-restricted at the stimulator level. We then showed that sonication-disrupted SC or Sephadex G-10 column-passed nonadherent SC failed to stimulate responder SC for a primary anti-MIHA CTL response, whereas G-10-passed nonadherent SC responded well to adherent stimulator cells. Further study demonstrated that Ia+ adherent cells were the most active cell type as stimulator. Finally, we confirmed that the primary anti-MIHA CTL responses to adherent stimulator cells was MHC-restricted.     

T helper cells in cytotoxic T lymphocyte development: role of L3T4(+)-dependent and -independent T helper cell pathways in virus-specific and alloreactive cytotoxic T lymphocyte responses

I have compared the requirements for T helper (Th) cell function during the generation of virus-specific and alloreactive cytotoxic thymus (T)-derived lymphocyte (CTL) responses. Restimulation of vesicular stomatitis virus (VSV)-immune T cells (VSV memory CTLs) with VSV-infected stimulators resulted in the generation of class I-restricted, VSV-specific CTLs. Progression of VSV memory CTLs (Lyt-1-2+) into VSV-specific CTLs required inductive signals derived from VSV-induced, Lyt-1+2- Th cells because: (i) cultures depleted by negative selection of Lyt-1+ T cells failed to generate CTLs; (ii) titration of VSV memory CTLs into a limiting dilution (LD) microculture system depleted of Th cells generated curves which were not consistent with a single limiting cell type; (iii) LD analysis of VSV memory CTLs did produce single-hit curves in the presence of Lyt-1+2- T cells sensitized against VSV; and (iv) monoclonal anti-L3T4 antibody completely abrogated CTL generation against VSV. Similar results were also obtained with Sendai virus (SV), a member of the paramyxovirus family. The notion that a class II-restricted, L3T4+ Th cell plays an obligatory role in the generation of CTLs against these viruses is also supported by the observation that purified T cell lymphoblasts (class II antigen negative) failed to function as antigen-presenting cells for CTL responses against VSV and SV. T cell lymphoblasts were efficiently lysed by class I-restricted, anti-VSV and -SV CTLs, indicating that activated T cells expressed the appropriate viral peptides for CTL recognition. Furthermore, heterogeneity in the VSV-induced Th cell population was detected by LD analysis, suggesting that at least two types of Th cells were required for the generation of an anti-VSV CTL response. VSV-induced Th cell function could not simply be replaced by exogenous IL-2 because this lymphokine induced cytotoxic cells that had the characteristics of lymphokine-activated killer (LAK) cells and not anti-viral CTLs. In contrast, CTL responses against allogeneic determinants could not be completely blocked with antibodies against L3T4 and depletion of L3T4+ cells did not prevent the generation of alloreactive CTLs in cultures stimulated with allogeneic spleen cells or activated T cell lymphoblasts. Thus, these studies demonstrate an obligatory requirement for an L3T4-dependent Th cell pathway for CTL responses against viruses such as VSV and SV; whereas, CTL responses against allogeneic determinants can utilize an L3T4-independent pathway.     

Studies on the capacity of B cells as well as T cells to serve as accessory cells for the activation of herpes simplex virus-specific cytolytic T cells

Experiments were conducted in an effort to determine the ability of B and T lymphocytes to serve as APC for the activation of HSV-primed splenic T cells to become class I-restricted, HSV-specific CTL. The results showed that both freshly isolated splenic B cells as well as LPS and dextran sulfate (L/D)-activated B cells were effective at stimulating the generation of CTL during a 5-day in vitro culture. There was no requirement for the addition of exogenous IL-2 to the culture and, since murine B cells do not appear to express either membrane or secreted IL-1, this lymphokine appears to either not be required for the activation of virus-specific CTL or to be provided by the T cells themselves. When normal B cells were separated into fractions enriched for resting vs activated cells and then tested for their ability to stimulate the generation of HSV-specific CTL, it was found that while the activated B cells were quite effective at stimulating the generation of CTL, resting B cells were ineffective at carrying out this function. In contrast to normal B cells, normal T cells were unable to act as APC. However, Con A-activated T lymphoblasts were equivalent to L/D B cells in their ability to mediate the generation of CTL activity. L/D B cells that had been pulsed with HSV and then incubated at 37 degrees C for greater than 1 h could be fixed with paraformaldehyde and were still able to function as APC. The finding that L/D B cells, that had been fixed at 1 h or less after exposure to HSV, were unable to function as APC suggested that either active Ag "processing" steps may be required for the presentation of Ag in the context of class I molecules or that there is a requirement for the synthesis of viral protein Ag before presentation.     

AKR.H-2b lymphocytes inhibit the secondary in vitro cytotoxic T-lymphocyte response of primed responder cells to AKR/Gross murine leukemia virus-induced tumor cell stimulation.

We have previously shown that AKR.H-2b congenic mice, though carrying the responder H-2b major histocompatibility complex haplotype, are unable to generate secondary cytolytic T-lymphocyte (CTL) responses specific for AKR/Gross murine leukemia virus (MuLV). Our published work has shown that this nonresponsive state is specific and not due to clonal deletion or irreversible functional inactivation of antiviral CTL precursors. In the present study, an alternative mechanism based on the presence of inhibitory AKR.H-2b cells was examined. Irradiated or mitomycin C-treated AKR.H-2b spleen cells function as in vitro stimulator cells in the generation of C57BL/6 (B6) anti-AKR/Gross virus CTL, consistent with their expression of viral antigens. In contrast, untreated viable AKR.H-2b spleen cells functioned very poorly as stimulators in vitro. Viable AKR.H-2b spleen cells were also able to cause dramatic (up to > or = 25-fold) inhibition of antiviral CTL responses stimulated in vitro by standard AKR/Gross MuLV-induced tumor cells. This inhibition was specific: AKR.H-2b modulator spleen cells did not inhibit allogeneic major histocompatibility complex-specific CTL production, even when a concurrent antiviral CTL response in the same culture well was inhibited by the modulator cells. These results and those of experiments in which either semipermeable membranes were used to separate AKR.H-2b modulator spleen cells from AKR/Gross MuLV-primed responder cells or the direct transfer of supernatants from wells where inhibition was demonstrated to wells where there was antiviral CTL responsiveness argued against a role for soluble factors as the cause of the inhibition. Rather, the inhibition was dependent on direct contact of AKR.H-2b cells in a dose-dependent manner with the responder cell population. Inhibition was shown not to be due to the ability of AKR.H-2b cells to function as unlabeled competitive target cells. Exogenous interleukin-2 added at the onset of the in vitro CTL-generating cultures partially restored the antiviral response that was decreased by AKR.H-2b spleen cells. Positive and negative cell selection studies and the development of inhibitory cell lines indicated that B lymphocytes and both CD4- CD8+ and CD4+ CD8- T lymphocytes from AKR.H-2b mice could inhibit the generation of AKR/Gross virus-specific CTL in vitro. AKR.H-2b macrophages were shown not to be required to demonstrate AKR/Gross MuLV-specific inhibition, however, confirming that the inhibition by T-cell (or B-cell)-depleted spleen populations was dependent on the enriched B-cell (T-cell) population per se.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential sensitivity of human T helper cell pathways by in vitro exposure to cyclosporin A

Cyclosporin A (CsA) is a widely used agent for the prevention of tissue allograft rejection in human transplantation. As a result of the recent demonstration that the allospecific Th cell response of human PBL can be generated by three distinct pathways of Th cell and APC interactions, we investigated the sensitivity of these three Th-APC pathways, as well as the Th response to recall Ag, to different concentrations of CsA. PBL from healthy volunteer donors were set up as primary in vitro cultures either without antigenic stimulation, or with influenza A virus, tetanus toxoid, or HLA alloantigenic (ALLO) stimulation. Ag-stimulated IL-2 production and proliferation were measured to assess Th cell function. To study the effect of CsA on Th function, different concentrations of CsA (0.001 to 0.1 micrograms/ml final) were added to the cultures at the time of stimulation. Th responses to influenza A virus and tetanus toxoid were more sensitive to CsA than the Th response to ALLO. By selective depletion of either responder or stimulator APC and/or of CD4+ or CD8+ cells, we 1) verified that the human ALLO Th response can be mediated by three distinct Th-APC pathways; 2) demonstrated that the ALLO response mediated by CD4+ Th and self-APC (the same helper pathway used by recall Ag) is as sensitive to CsA as the responses to recall Ag; and 3) showed that there is a hierarchy of sensitivity of these three allospecific pathways. The results are discussed with respect to the potential significance of the differential sensitivity of these allospecific Th-APC pathways to CsA for prevention of tissue allograft rejection.     

CD4+ T cells can protect APC from CTL-mediated elimination

Professional APC play a central role in generating antiviral CD8(+) CTL immunity. However, the fate of such APC following interaction with these same CTL remains poorly understood. We have shown previously that prolonged Ag presentation persists in the presence of a strong CTL response following HSV infection. In this study, we examined the mechanism of survival of APC in vivo when presenting an immunodominant determinant from HSV. We show that transferred peptide-labeled dendritic cells were eliminated from draining lymph nodes in the presence of HSV-specific CTL. Maturation of dendritic cells with LPS or anti-CD40 before injection protected against CTL lysis in vivo. Furthermore, endogenous APC could be eliminated from draining lymph nodes early after HSV infection by adoptive transfer of HSV-specific CTL, yet the cotransfer of significant virus-specific CD4(+) T cell help promoted prolonged Ag presentation. This suggests that Th cells may assist in prolonging class I-restricted Ag presentation, potentially enhancing CTL recruitment and allowing more efficient T cell priming.     

Generation of helper cell-independent cytotoxic T lymphocytes is dependent upon L3T4+ helper T cells

The role of L3T4+ (CD4+) Th cells in generation of CTL specific for discrete minor histocompatibility Ag was investigated. Suppression of the function of Th cells in vivo by chronic treatment with anti-L3T4 mAb prevented congenic strains of mice from being primed and from generating CTL specific for Ag encoded by the minor histocompatibility loci--H-3, H-1, and B2m. Analysis of proliferative responses and lymphokine secretion of cells from animals primed with one of these minor H Ag, beta 2-microglobulin, but not treated with anti-L3T4 antibodies, indicated that L3T4- class I MHC-restricted T cells were themselves responsible for the very great majority of the observed minor H Ag-specific proliferation and secretion of lymphokines associated with both T cell proliferation and activation of CTL. All together, the data indicate that in responses against discrete minor H Ag, L3T4+Th-independent CTL are generated through an L3T4+Th-dependent pathway.     

Cellular requirements for the generation of primary cell-mediated lympholysis responses to Qa-1 antigens

Mixed leukocyte cultures (MLC) between NZB responder spleen cells and Qa-1-disparate stimulator spleen cells were employed to determine the cellular requirements for the generation of primary anti-Qa-1 cell-mediated lympholysis (CML) responses. Although primary anti-Qa-1 cytotoxic lymphocytes (CTL) were generated during H-2-homologous stimulation, anti-Qa-1 CTL were not detectable from MLC in which the stimulators were H-2 allogeneic. Anti-Qa-1 CTL also were not generated from MLC in which the stimulators were semiallogeneic. Thus, H-2 identity between responder and stimulator cells was not sufficient to permit the generation of primary anti-Qa-1 CTL when H-2 disparity was also present. The capacity for H-2 disparity to prevent anti-Qa-1 CML responses was further demonstrated in MLC containing both H-2-allogeneic and H-2-homologous stimulator cells. Therefore, in subsequent studies we employed NZB responders and H-2-homologous, Qa-1-disparate stimulators. When various subpopulations of stimulator cells were studied for their ability to induce anti-Qa-1 CTL, nylon wool-adherent cells were found to be potent stimulators, but nylon wool-nonadherent cells were not. Furthermore, depletion of macrophages from the stimulator population abrogated the generation of anti-Qa-1 CML responses, despite the presence of responder macrophages in the culture. In contrast, all fractionated subpopulations stimulated anti-H-2 CML responses. When macrophage-enriched cells were used as stimulators, anti-Qa-1 CTL could be generated with approximately 80-fold fewer stimulator cells than when unfractionated splenocytes were used as stimulators. These findings indicated that stimulator macrophages were essential for the generation of primary anti-Qa-1 CTL. Direct evidence for macrophage expression of Qa-1-antigens was obtained by using a Qa-1b-specific CTL clone. These studies provide i) the first evidence for Qa-1 expression on macrophages, ii) a basis for comparison of the cellular interactions necessary to generate CTL against H-2K/D-encoded vs Qa-1-encoded class 1 antigens, and iii) a model for investigating the mechanisms responsible for the immunodominance of H-2K/D alloantigens.     

The role of suppressor factors in the regulation of immune responses by ultraviolet radiation-induced suppressor T lymphocytes. I. Activity of suppressor cell culture supernatants

The purpose of this study was to determine whether soluble suppressor factors are involved in the regulation of immune responses by ultraviolet radiation-induced suppressor T lymphocytes (UV Ts). The UV Ts were induced by applying contact allergens to the ventral, unirradiated skin of mice that had been exposed 5 days earlier to UVB radiation. Supernatants from cultures that contained a mixture of UV Ts, normal responder lymphocytes, and hapten-modified stimulator cells were injected iv into normal recipients at the time of sensitization; they inhibited the induction of contact hypersensitivity (CHS) in vivo in an hapten-specific manner. The supernatants similarly suppressed the generation of specific cytotoxic T lymphocytes (CTL) in vitro. Moreover, supernatants from cultures that contained either UV Ts alone or UV Ts in combination with either the responder or the stimulator cells failed to suppress the CHS and CTL responses. These results suggest that hapten-specific inhibitory factors may participate in the regulation of immune responses by suppressor cells generated by epicutaneous sensitization of UV-irradiated mice.     

Il-4 is an endogenous T cell growth factor during the immune response to a syngeneic retrovirus-induced tumor

The relative contributions of IL-2 and IL-4 during the immune response to the retrovirus-induced tumor, FBL, were examined. Both proliferative and cytolytic responses to FBL were measured and compared to similar responses to minor histocompatibility Ag. The addition of alpha IL-2 partially inhibited FBL-stimulated proliferation of purified L3T4+ T cells and nearly completely inhibited the response of Lyt-2+ T cells, whereas alpha IL-4 partially inhibited the proliferative response of the L3T4+ subset but had no effect on the response of the Lyt-2+ subset. The addition of exogenous IL-4 augmented the proliferative response of both subsets. Therefore, IL-4 is an endogenous growth factor for FBL-induced specific proliferation of the L3T4+ and not the Lyt-2+ population, but both subpopulations can respond to IL-4. Similar examination of anti-FBL CTL responses revealed that alpha IL-2, but not alpha IL-4, inhibited FBL-specific Lyt-2+ CTL generation. However, exogenous IL-4 partially replaced the L3T4+ Th cell activity necessary for optimal Lyt-2+ FBL-specific CTL generation. Therefore, IL-4 is not required but can participate in the CTL response. The role of IL-4 during the immune response of B6 mice to minor histocompatibility Ag disparate BALB.B cells was analyzed. alpha IL-4 had no detectable effect on the proliferative or cytolytic response to BALB.B cells, suggesting that endogenous IL-4 does not have a significant role in these responses. The extent of involvement of endogenous IL-4 in the T cell responses to retrovirus-induced tumor Ag and minor histocompatibility Ag presumably reflects the nature of the stimulating Ag, and detection of an IL-4 response may correlate with induction of an antibody response. Thus, the immunizing Ag and/or host B cell repetoire may influence which subsets of L3T4+ Th cells are activated during priming in vivo.     

Relative contribution of CD2 and LFA-1 to murine T and natural killer cell functions.

We have examined the functional property of murine CD2 as an intercellular adhesion molecule by using five anti-murine CD2 mAb which were classified into two groups according to their mutual competition in binding to cell surface CD2. Hamster fibroblasts transfected with murine CD2 cDNA exhibited increased conjugate formation with a murine mastocytoma P815 which expresses the putative murine LFA-3 mRNA detected by cross-hybridization with human LFA-3 cDNA under conditions of low stringency. This increase in conjugate formation was abrogated by both groups of anti-CD2 mAb, although some differences in the extent of inhibition were observed at lower concentrations of the mAb. We then examined the involvement of CD2 in several murine T cell responses by using these mAb to abrogate CD2-mediated cellular interactions. Anti-CD2 mAb significantly inhibited mitogenic T cell responses induced by suboptimal doses of Con A and PHA. In the allogenic MLR response and in the Ag response of two KLH/I-Ak-specific Th cell clones, the inhibitory effect of anti-CD2 mAb was also greatest under suboptimal conditions, i.e., with lesser doses of the Ag. These results indicate that the contribution of CD2 as an accessory molecule is variable, depending on the Ag dose used for stimulation, and they suggest that CD2 is involved in the Ag response of murine T cells under the physiologic conditions where only a limited amount of Ag is available. We next examined the contribution of CD2 to MHC-restricted cytotoxicity by CTL and to MHC-unrestricted cytotoxicity by NK and lymphokine-activated killer cells. Only a marginal inhibition by anti-CD2 mAb alone was observed. Anti-lymphocyte function-associated Ag (LFA)-1 mAb alone exhibited greater inhibitory effects than anti-CD2 mAb in all of the cases tested. In most cases, however, substantial levels of cytotoxicity remained, even in the presence of both anti-CD2 and anti-LFA-1 mAb. These results indicate a minor contribution of CD2, as compared with LFA-1, to cytotoxicity by murine CTL, NK cells, and lymphokine-activated killer cells, and they reveal the presence of undefined cellular interaction pathways other than those mediated by CD2 and LFA-1.     

Thy.1lowCD3− Cells Sorted from Nylon Wool-Passed Bone Marrow Cells Can Augment the H-2 Identical but Not Non-Identical Cytotoxic T Lymphocyte Precursors in Mixed Lymphocyte Cultures

Thy. 1^lowCD3^– cells obtained from nylon wool-passed murine bone marrow (NW-BM) cells by cell sorting did not express CD4, CD8, or T cell receptor-α/β and -γ/δ on their cell surfaces. An extremely limited number of B10.BR (H-2^k) responder lymph node (LN) cells were stimulated with B10. D2 (H-2^d) stimulator spleen cells in cultures containing the minimum required dose of rat T cell growth factor (TCGF). In these cultures, the generation of cytotoxic T lymphocytes (CTL) was very low. B10.BR Thy.1^lowCD3^– NW-BM cells, added to these cultures, could augment the CTL generation vigorously, but neither B10 (H-2^b) nor B10.D2 cells could. When B10 LN cells were used as responder cells in these cultures, B10 Thy. 1^lowCD3^– NW-BM cells could augment the CTL generation, but neither B10.BR nor B10.D2 cells could. Similar findings were obtained when Lyt-2⁺ cells or Thy.1⁺ L3T4^– (CTL precursor) cells sorted from spleen cells were used as responder cells. Both elements, rat-TCGF and Thy.1^low CD3^– NW-BM cells, were essential for this augmentation of the CTL generation in this culture system because neither one alone could augment generation, and rat-TCGF could be replaced by Thy.1⁺ Lyt-2^– helper T (Th) cells sorted from spleen cells. These findings showed that NW-BM cells could augment CTL precursors in a self-major histocompatibility complex (self-MHC)-antigen restricted manner, and further that both NW-BM cells and Th cells had different and independent functions to induce CTL.     

Augmentation of in vivo cytotoxic T lymphocyte activity and reduction of tumor growth by large multivalent immunogen.

Class I alloantigen incorporated into cell-size supported membranes provides an effective stimulus for in vitro stimulation of CTL responses. When alloantigen-bearing cell-size (5 microns) microspheres, termed large multivalent immunogen (LMI), were administered in vivo, no primary cytotoxic response to the Ag could be detected. However, coadministration of LMI and allogeneic tumor stimulator cells resulted in substantial augmentation of the resulting CTL response, compared with that obtained from mice that received just stimulator cells. Responses were augmented only when the same alloantigen was present on the LMI and on the stimulator cells, and the effector cells remained specific for the cognate alloantigen-bearing targets. The physical form of the alloantigen was critical for augmentation; alloantigen in liposomes had no effect on response levels. Tumor cell Ag in the form of purified plasma membrane vesicles can also be incorporated onto the surface of cell-size microspheres. As with allogeneic responses, tumor Ag on LMI specifically augmented the in vivo CTL activity generated in response to irradiated tumor cells in syngeneic mice. Administration of Ag-bearing LMI to mice inoculated i.p. with live P815, EL4, or RDM4 tumor cells resulted in a significant reduction in growth of the tumors in their syngeneic hosts. Similarly, LMI treatment significantly reduced growth of P815 as a solid s.c. tumor. LMI-mediated growth reduction occurred only when plasma membrane Ag from the cognate tumor was used to prepare the LMI, and Ag in the form of free plasma membrane vesicles was not effective. Although Ag has been used to manipulate in vivo humoral and Th responses, this has proven to be much more difficult for CTL responses. The ability of Ag-bearing LMI to affect significantly the in vivo levels of cytolytic response and to reduce syngeneic tumor growth has potential for application to tumor immunotherapy and, possibly, treatment of other diseases in which CTL can provide a protective effect.