Stimulation with dendritic cells decreases or obviates the CD4+ helper cell requirement in cytotoxic T lymphocyte responses

We investigated the need for CD4+ helper T (Th) cells in the induction of murine cytotoxic T lymphocyte (Tc) responses across minor or major histocompatibility (MHC) antigenic differences with either normal spleen cells (NSC) or purified dendritic cells (DC) as antigen-presenting cells (APC). Generation of a secondary in vitro class II MHC-specific Tc response was totally CD4+ Th cell-dependent with both types of APC. Likewise, male antigen (H-Y)-primed class II mutant bm12 T cells, which do not respond to H-Y presented on NSC, do respond to H-Y presented on DC in a completely CD4+ Th cell-dependent fashion. All other Tc responses, including primary anti-class I MHC, primary anti-class I + II MHC plus anti-minor H, and secondary C57BL/6 (B6) anti-H-Y, although not completely CD4+ Th cell dependent, were greatly augmented in the presence of CD4+ Th cells, but only with NSC as APC. In contrast, with DC as APC these responses were entirely or largely CD4+ Th cell independent. Similarly, H-Y primed class I MHC mutant bm14 T cells, which do not respond to H-Y presented on NSC, do respond to H-Y presented on DC in a completely CD4+ Th cell-independent fashion. The combined results indicate that DC can directly present class I MHC alloantigen or class I MHC plus nominal antigen (e.g. minor H) to CD8+ cells and generate a Tc response by these cells without the requirement for CD4+ Th cells.     

Thymic immune response gene function in radiation chimeras reconstituted with purified hemopoietic stem cells

Thymectomized (C57BL/6[B6] X bm1)F1 mice and thymectomized (B6 X bm12)F1 mice were engrafted with neonatal parental thymus of either B6 type [H-2b mouse, Sendai virus cytotoxic T cell (Tc) responder] or bm1 type (H-2Kb mutant, Sendai virus Tc nonresponder) and B6 type (H-Y Tc responder) or bm12 type (H-2 I-Ab mutant, H-Y Tc nonresponder), respectively. All mice were irradiated and reconstituted with highly purified syngeneic pluripotent hemopoietic stem cells. All types of thymus engraftment resulted in a restored T cell immunocompetence. The Tc reaction to Sendai virus in (B6 X bm1)F1 mice engrafted with both responder type B6 and nonresponder, type bm1 neonatal thymus allowed maturation of Sendai-specific, H-2Kb-restricted Tc. For the Tc reaction to H-Y, only responder type B6 thymus restored the Tc response, whereas this was not achieved with nonresponder type bm12 thymuses. We conclude from this study that in this radiation stem cell chimera system the radioresistant component of the thymus dictates major histocompatibility complex (MHC) specificity and immune response phenotype of T cells restricted to class II MHC molecules but not of T cells restricted to class I MHC molecules.     

Self peptide/MHC class I complexes have a negligible effect on the response of some CD8+ T cells to foreign antigen

MHC molecules loaded with self peptides do not trigger a T cell immune response but may deliver signals important for peripheral T cell survival and function. It is unclear if self peptide/MHC complexes on APC in addition can influence the T cell response to co-presented foreign ligands. To address this question, TAP-sufficient and TAP-deficient cells were loaded with ovalbumin peptide (pOVA) to generate APC that present pOVA/H-2Kb complexes in the context of high or low levels of self peptide-loaded MHC class I, respectively. The two cell types were then used to stimulate different CD8+ T cells specific for ovalbumin while the number of presented pOVA/H-2Kb complexes was independently assessed by staining with 25-D1, an antibody against pOVA/H-2Kb. In each case, T cell activation was independent of TAP expression by the APC and depended exclusively on the amount of 25-D1 staining. We conclude that the number of pOVA/Kb complexes and not their frequency relative to self peptide/MHC complexes determines the response of those T cells tested here. These results imply that the repertoire of self peptide/MHC class I complexes presented by APC has a negligible effect on the response of some CD8+ T cells to foreign ligands.     

Single H2Kb, H2Db and double H2KbDb knockout mice: peripheral CD8+ T cell repertoire and anti-lymphocytic choriomeningitis virus cytolytic responses

Single H2Kb, H2Db and double H2KbDb homozygous knockout (KO) mice were generated and their peripheral CD8+ T cell repertoires compared to that of C57BL/6 (B6) mice. Limited (10-20%, H2Db), substantial (30-50%, H2Kb) and profound (90%, H2KbDb) reduction of peripheral CD8+ T cells was observed in KO mice, without Vbeta diversity alteration. Classical class Ia molecules therefore ensure most but not all of the peripheral CD8+ T cell repertoire education. As expected, H2Kb but also H2Db KO mice developed choriomeningitis following intracranial infection by lymphocytic choriomeningitis virus with the same kinetics, lethality and CD8+ cell implication as wild-type B6 mice. By contrast, H2KbDb (class Ia-Ib+) KO mice survived. Choriomeningitis of H2Db KO mice was linked to the development of a subdominant (in normal B6 mice) H2Kb-restricted cytotoxic T lymphocyte response. Mice expressing a restricted set of histocompatibility class I molecules should represent useful tools to evaluate the immunological potentials of individual MHC class I molecules.     

Threshold tolerance in H-2Kb-specific TCR transgenic mice expressing mutant H-2Kb: conversion of helper-independent to helper-dependent CTL.

To evaluate the role of the structure of the class I molecule and associated peptide(s) in intrathymic selection and tolerance, mice expressing as a transgene (tg) a TCR specific for the H-2Kb alloantigen were crossed with mice expressing the mutant class I molecule H-2Kbm1 or H-2Kbm8. In H-2k/k TCR tg mice (in a situation of exclusive positive selection), peripheral tg TCR expressing (Ti+) CD8+ T cells showed high, suboptimal, and an absence of reactivity for H-2Kb, H-2Kbm1, and H-2Kbm8, respectively. In the peripheral lymphoid organs of TCR tg H-2k/k, H-2k/bm8, H-2k/bm1, and H-2k/b mice respectively, the tg TCR was expressed on T cells with decreasing intensity of surface CD8. Thymic subpopulations of TCR tg mice presented a pattern of negative selection with decreasing intensity from H-2k/b to H-2k/bm1 and H-2k/bm8. This suggests that a weak interaction between the TCR and H-2Kbm8 exists which partially results in negative, but not in positive, intrathymic selection. Results further indicate that expression of H-2Kbm8 does not induce tolerance to H-2Kb. In H-2k/bm1 mice, the peripheral Ti+ CD8lo cells express two distinct types of 'threshold' tolerance in vitro: (i) they generate cytotoxic T lymphocytes (CTL), in the presence of exogenous IL-2, which fail to respond to H-2Kbm1 but remain reactive to H-2Kb; and (ii) they do not make significant titers of IL-2 and do not significantly proliferate in response to H-2Kb, unlike the Ti+ CD8+ T cells from H-2k/k TCR tg mice which respond efficiently. These results show that tolerance is induced up to a level of non-reactivity within a given MHC environment: for the same TCR, CTL reactivity to H-2Kbm1 is totally lost, whereas CTL reactivity to H-2Kb is only slightly reduced. Additionally, proliferation and IL-2 production by Ti+ CD8+ cells in response to H-2Kb were strongly affected in H-2k/bm1 mice. Thus, in H-2k/k mice the Ti+ CD8+ cells behave as helper-independent, whereas in H-2k/bm1 mice CD8+ cells expressing the same TCR behave as helper-dependent CTL.     

Specific epitope-induced conversion of CD8+ memory cells into effector cytotoxic T lymphocytes in vitro: presentation of peptide antigen by CD8+ T cells.

The requirements for the conversion of CD8+ memory T cells into effector class I major histocompatibility complex (MHC) Kd-restricted cytotoxic T (Tc) cells in vitro have been studied. Purified CD8+ splenocytes from influenza A/WSN-primed BALB/c (H-2d) mice stimulated with a synthetic nucleoprotein peptide 147-158 R156- (NPP) alone generated Tc cells specific for influenza virus-infected target cells. No additional requirements for accessory cells or their lymphokine products were necessary indicating that peptide antigen (Ag) in association with Kd was presented on CD8+ T cells. The evidence for presentation of NPP by CD8+ T cells was supported by the use of CD8+ memory T cells from semiallogeneic bone marrow radiation chimeras of P1----F1 type (H-2b----[H-2d x H-2b]F1). Memory CD8+ splenocytes from A/WSN-immune chimeras did not develop into secondary effector Tc cells as a result of a 4-day culture with NPP alone, however, were able to do so if NPP was presented by Kd-bearing Ag-presenting cells. In addition, these results exclude the possibility of direct recognition of free NPP molecules by the specific T cell receptor of CD8+ memory T cells. CD8+ memory splenocytes (H-2b) from chimeras were also able to develop into functionally active Tc cells as a result of presentation of Db-restricted synthetic peptide (NP 366-374) with a sequence derived from influenza virus nucleoprotein with high affinity for Db MHC class I molecules. Blockade of endogenously produced interleukin 2 (IL-2) activity by anti-IL-2 or anti-IL-2 receptor monoclonal antibody in the culture of CD8+ memory T cells during a 4-day NPP stimulation completely abolished Tc cell generation, indicating that the utilization of this lymphokine is absolutely required for the secondary Tc cell development. These findings demonstrate that CD8+ memory T cells per se are able to recognize the restimulating epitope as a result of its presentation by CD8+ T cells and develop into cytolytically active and highly specific Tc cells with no requirements for other cellular helper components or their lymphokine products.     

CD8 expression alters the fine specificity of an alloreactive MHC class I-specific T hybridoma.

The influence of CD8 on the fine specificity of MHC class I-restricted T cell allorecognition was evaluated by comparing the reactivity of CD8- and CD8-transfected forms of an allospecific, H-2Kb-restricted T hybridoma. The CD8- T hybridoma responded to cells expressing H-2Kb, H-2Kbm6, and the individual H-2Kb----bm10 back mutations 165V----M, 173K----E, and 174N----L. Under the same conditions the CD8- T hybridoma responded poorly or not at all to cells expressing H-2Kbm10, H-2Kbm8, the individual H-2Kb----bm10 back mutants 163T----A and 167W----S, and the individual H-2Kb----bm8 back mutations 22Y----F and 24E----S. In contrast, T hybridoma cells expressing high levels of CD8 reacted strongly with antigen presenting cells (APC) expressing H-2Kb and H-2Kbm6 molecules, as well as APC expressing H-2Kbm10 (weakly), H-2Kbm8, and all five individual H-2Kb----bm10 and the two H-2Kb----bm8 back mutants 22Y----F and 24E----S. The mutations which distinguish the T cell recognition of both H-2Kbm10 and H-2Kbm8 from H-2Kb are predicted to control the interaction of these class I molecules with antigenic peptides in the binding site, implying an important role for peptide antigen in T cell allorecognition. Nonetheless, CD8 expression by the H-2Kb-restricted T cells conferred novel or enhanced alloreactivity with cells expressing H-2Kbm10, H-2Kbm8, and each of the individual H-2Kb----bm10 and H-2Kb----bm8 back mutants. These findings reflect an important role for CD8 in influencing the fine specificity of MHC class I recognition by T cells and may indicate a limited structural role for peptide antigen in defining the ligand recognized by these alloreactive T cells.     

Specificity of anti-H-2 class I antibodies induced by syngeneic immunization with Sendai virus-treated cells is regulated by the mouse MHC and viral antigens. No evidence for MHC-restricted virus-specific antibodies

In a previous study, we searched for Sendai virus (SV)-specific antibodies that were restricted in their binding by self-major histocompatability complex (MHC) antigens. In C57BL/6 (B6; H-2b) mice, most of the sera obtained after i.p. injections with syngeneic SV-coated (SV+) spleen cells contained auto- and alloreactive lymphocytotoxic antibodies directed against H-2 class I molecules, but no viral-specific, MHC-restricted antibodies. Here we report that syngeneic immunization with SV+ cells regularly induced H-2-specific antibodies in various mouse strains. From a total of 12 strains tested, only the B10.S (H-2s) strain appeared to be a low responder. The immune responses are of two types: (i) mice of some strains produce autoreactive antibodies and a broad variety of alloreactive antibodies; and (ii) mice of some strains produce only narrow or widely alloreactive antibodies. Because most of the strains differ only in the H-2 region, the patterns observed are regulated by the MHC. To locate the genes involved in the induction of H-2-specific antibodies more precisely, two B6 mutant strains, bm1 (Kb mutant) and bm13 (Db mutant), were immunized with syngeneic SV+ cells. The results suggest that the H-2Db region plays an important role in the induction and specificity of the lymphocytotoxic H-2 class I-specific antibodies present in sera of H-2b mice after syngeneic immunization with SV+ cells. The role of SV in the induction of H-2-specific antibodies was studied in B6 mice after injections of syngeneic cells coated with liposomes bearing the F and HN proteins of SV. The results suggest that SV surface glycoproteins as well as internal proteins are directly involved in regulating the specificity of anti-H-2 antibodies present in sera after syngeneic immunization with SV+ cells. This study does not support the concept that antigen-specific, MHC-restricted antibodies are a part of the B-cell repertoire.     

Differential effect of adenovirus 2 E3/19K glycoprotein on the expression of H-2Kb and H-2Db class I antigens and H-2Kb- and H-2Db-restricted SV40-specific CTL-mediated lysis

The E3/19-kDa glycoprotein (E3/19K) coded by adenovirus type 2 (Ad2) is known to inhibit the cell-surface expression of major histocompatibility complex (MHC) class I antigens by binding to the MHC antigens intracellularly, and thus reduces recognition of antigens by MHC-restricted cytotoxic T lymphocytes (CTL). We have studied the effect of the E3/19K expression in SV40-infected monkey cells, TC-7/H-2Kb and TC-7/H-2Db expressing transfected H-2Kb and H-2Db antigens, respectively, on the cell-surface H-2 class I antigens and on lysis of the cells by SV40 large tumor (T)-antigen-specific H-2Kb- and H-2Db-restricted CTL clones. H-2Db antigen expression on TC-7/H-2Db cells was drastically reduced by infection with Ad2 but not with an E3/19K-negative SV40-Ad2 hybrid virus, Ad2+ND1, as early as 12 hr postinfection. However, H-2Kb antigen expression on Ad2-infected TC7/H-2Kb cells remained unaltered, even at 24 hr postinfection. Specific lysis of SV40-infected TC-7/H-2Db cells by H-2Db-restricted SV40 T-antigen-specific CTL clones, Y-1 and Y-3, was strongly reduced by coinfection of the target cells with Ad2 but not with Ad2+ND1. Lysis of SV40-infected TC-7/H-2Kb cells by a H-2Kb-restricted SV40 T-antigen-specific CTL clone Y-4 was also reduced significantly by Ad2 infection, but not Ad2+ND1. These results indicate that the E3/19K protein affects cell-surface expression of H-2Db antigen but not H-2Kb antigen.     

Restricted blocking of cytotoxic T-cell function by anti-H-2K/D antibodies

Antibodies specific for H-2K and H-2D, the murine major histocompatibility complex (MHC)-encoded class I antigens, can block cytotoxic T (Tc)-cell function. Antibodies specific for the Tc cell and not the target cell have been used to map inhibition to the effector cell, suggesting a role for class I antigens in Tc-cell function. These antibody effects have been demonstrated for both alloreactive and MHC-restricted Tc cells, but inhibition has only been revealed by measuring cytotoxicity in a short-term assay. Using the neutral red assay for cytotoxicity, blocking effects evident after a 1.5-hr assay were lost by 2.5 hr. For some Tc-cell responses, only anti-H-2K antibodies have been found to be inhibitory, despite evidence of the expression of both H-2K and H-2D molecules on these cells. Some Tc-cell populations can be blocked by antibodies specific for both the H-2K and H-2D molecules. B10.A(4R) anti-Sendai Tc cells can be inhibited by anti-H-2Kk antibodies, but five different anti-H-2Db antibodies have been ineffective inhibitors. In contrast, B10.A(4R) anti-ectromelia Tc cells can be inhibited very effectively by each of these anti-H-2Db antibodies, as well as by anti-H-2Kk antibodies. Anti-H-2 antibodies also inhibit the function of cloned alloreactive Tc-cell lines such that the inhibitory capacity of antibodies specific for K versus D determinants appears to be consistent and specific for each Tc-cell line. A long-term Tc-cell clone, AR1, has been inhibited specifically by anti-H-2Kb and not anti-H-2Db antibodies, suggesting a clonally 'restricted' phenomenon.     

The thymus selects the useful, neglects the useless and destroys the harmful

Although efficient at reacting to foreign antigen in the context of MHC, mature T cells do not normally react to self antigens presented by self MHC. In this review, Harald von Boehmer and colleagues describe the investigation of self MHC restriction and self-tolerance using TCR transgenic mice expressing a receptor for the male-specific minor histocompatibility antigen, H-Y, in the context of class I H-2Db MHC antigens, on many of their T cells. CD4-8+ T cells expressing the transgenic receptor were positively selected by the restricting H-2Db MHC antigens in female transgenic mice. In the male TCR transgenic mice, CD4+8+ thymocytes were deleted, and transgene-expressing T cells with high surface-density of CD8 were-absent from the periphery. The remaining T cells could not be activated by male H-Y stimulator cells, as they lacked or expressed only low levels of CD8 molecules.     

Qa-1/Tla region alloantigen-specific CTL with alpha beta receptor

Recent studies involving T cells that express gamma delta T-cell receptor (gamma delta TcR) have raised the possibility that Qa-1/Tla region class I major histocompatibility complex (MHC)-like molecules are antigen-presenting molecules for gamma delta TcR. In this report, cytotoxic T lymphocyte (CTL) clones specific for a Qa-1/Tla region gene product were isolated from a bulk B10. QBR (Kb, Ib, Dq Qa-1/Tlab) anti-B10.MBR (Kb, Ik, Dq, Qa/Tlaa) CTL line. These CTL lysed blasts from all Qa-1a strains regardless of the H-2 haplotype, indicating that the recognition of the Qa-1 antigen by these CTL is not restricted by other class I molecules. In bulk populations, CTL activity of this specificity was found only in the CD8+CD4- subpopulation. Accordingly, all established CTL clones were phenotyped as Thy-1+, CD8+CD4-. Furthermore, these clones were shown to express alpha beta TcR rather than gamma delta TcR. Thus, the results indicate that Qa-1 antigen can be recognized by alpha beta TcR T cells in a manner similar to recognition of classical class I molecules.     

Responsiveness of T cells to Mutant Major Histocompatibility Complex Class I Antigen

Mechanisms of the activation of T cells responding to major histocompatibility complex (MHC) class I antigen were investigated with special reference to interleukin 1 (IL-1) production from stimulator-type accessory cells. For this purpose, we used mainly fractionated Lyt-2+T cells of C57BL/6 (B6) mice as responder cells and irradiated spleen cells or those deprived of adherent cells of B6.C-H-2bm1 (bm1) mice as stimulator cells. Lyt-2+ T cells of B6 mice proliferated in the presence of irradiated whole spleen cells of bm1 mice but did not to Sephadex G-10 column-passed bm1 spleen cells. The unresponsiveness in the latter case was overcome by the supplement of recombinant IL-1 and/or IL-2 in the culture medium. These interleukins were shown to promote the proliferative response of B6 Lyt-2+ T cells in the presence of stimulator-type T or B cells. Both interleukins also facilitated the generation of cytotoxic T cells from B6 Lyt-2+ cells to H-2Kbm1 antigen in the mixed lymphocyte culture deficient in stimulator-type accessory cells. IL-1 was shown to enhance the expression of IL-2 receptor on the responding Lyt-2+ T cells as assessed by flow cytometry. IL-1 binding to responding T cells were also assayed by means of iodinated IL-1 and was shown to increase significantly on responding Lyt-2+ cells. Overall results indicate that accessory cells might play dual roles in the activation of Lyt-2+ T cells responding to allogeneic MHC class I antigen: direct presentation of the antigen to responder T cells and production of IL-1. Both signals are essentially required for Lyt-2+ T cells responding to allogeneic MHC class I antigen to initiate proliferation and also to differentiate into cytotoxic T cells.     

Characterization of extrathymic CD8 alpha beta T cells in the liver and intestine in TAP-1 deficient mice

TAP-1 deficient (-/-) mice cannot transport MHC class I antigens onto the cell surface, which results in failure of the generation of CD8+ T cells in the thymus. In a series of recent studies, it has been proposed that extrathymic T cells are generated in the liver and at other extrathymic sites (e.g. the intestine). It was therefore investigated whether CD8+ extrathymic T cells require an interaction with MHC class I antigens for their differentiation in TAP-1(-/-) mice. Although CD8+ thymically derived T cells were confirmed to be absent in the spleen as well as in the thymus, CD8 alpha beta+ T cells were abundant in the livers and intestines of TAP-1(-/-) mice. These CD8+ T cells expanded in the liver as a function of age and were mainly confined to a NK1.1-CD3int population which is known to be truly of extrathymic origin. Hepatic lymphocytes, which contained CD8+ T cells and which were isolated from TAP-1(-/-) mice (H-2b), responded to neither mutated MHC class I antigens (bm1) nor allogeneic MHC class I antigens (H-2d) in in vitro mixed lymphocyte cultures. However, the results from repeated in vivo stimulations with alloantigens (H-2d) were interesting. Allogeneic cytotoxicity was induced in liver lymphocytes in TAP-1(-/-) mice, although the magnitude of cytotoxicity was lower than that of liver lymphocytes in immunized B6 mice. All allogeneic cytotoxicity disappeared with the elimination of CD8+ cells in TAP-1(-/-) mice. These results suggest that the generation and function of CD8+ extrathymic T cells are independent of the existence of the MHC class I antigens of the mouse but have a limited allorecognition ability.     

Synthetic peptide libraries in the determination of T cell epitopes and peptide binding specificity of class I molecules.

Major histocompatibility complex (MHC) class I molecules combine with short peptides of defined length and sequence. Here we describe an approach that may be used in the analysis of peptide preference of different allelic MHC class I molecules, and in the determination of T cell epitopes. We produced synthetic "peptide libraries" of limited complexity by standard peptide chemistry. Using these peptide mixtures we show that H-2 Kb molecules can accommodate both 8- and 9-residue peptides, whereas Db molecules are unable to combine with peptides shorter than 9 amino acids present in these libraries. When these peptide mixtures are used to provide "fingerprints" of Db molecules and mutants thereof, both loss and gain of the ability to combine with certain peptides is observed. For the Kbm1 mutant a strong influence of amino acid substitutions in class I molecules on the peptides selected is observed. In these synthetic peptide mixtures, the presence of a specific T cell epitope, known to be represented once, can be detected. This approach may be extended to the identification of new T cell epitopes from larger peptide libraries.     

Abnormal anti-viral immune response in mice is corrected in HLA-B27.2-transgenic mice.

In contrast to the strong Sendai virus-specific cytotoxic T-lymphocyte (CTL) responses in C57BL/6 mice. H-2Kb mutant bm1 mice are nonresponders to Sendai virus. By appropriate crossings between HLA-B27 double-transgenic mice and Kb mutant bm1 mice, and after subsequent selection, H-2bm1 homozygous mice were produced expressing the human HLA-B27.2 and beta 2-microglobulin genes. Here we show that the introduction of a human HLA class I gene into the genome of the H-2bm1 Sendai virus-nonresponder mutant mice resulted in good responsiveness to Sendai virus, and in normal levels of Sendai virus-specific CTL precursors. The CTL response in the HLA-B27.2 double-transgenic H-2bm1 mice against Sendai virus was restricted by the HLA-B27.2 molecule. These results show the direct involvement of HLA class I molecules in regulation of the anti-viral CTL repertoire and represent for the first time a correction of abnormal anti-viral immunity in mice by incorporation of a human MHC class I (HLA-B27.2) gene.     

An important role of Tyk2 in APC function of dendritic cells for priming CD8+ T cells producing IFN-gamma

Tyrosine kinase 2 (Tyk2) contributes to the signals triggered by IL-12 for IFN-gamma production by NK cells and T cells. We found in this study that Tyk2-deficient (-/-) mice showed increased susceptibility at the early stage after an i.p. infection with Listeria monocytogenes, accompanied by impaired IFN-gamma production. The numbers of both MHC class Ib (H2-M3)- or MHC class Ia (Kb)-restricted CD8+ T cells producing IFN-gamma and exhibiting cytotoxicity were significantly decreased in Tyk2-/- mice after infection with L. monocytogenes. Using an adoptive transfer system of OT-I cells expressing OVA(257-264)/Kb-specific TCR into Tyk2-/- mice followed by challenge with recombinant L. monocytogenes expressing OVA, we found that the defective Tyk2 signaling in the host environment was at least partially responsible for the impaired CD8+ T cytotoxic-1 (Tc1) cell responses in Tyk2-/- mice following the infection. Adoptive transfer with MHC class Ib- or MHC class Ia-binding peptide-pulsed BM-derived DC from Tyk2-/- mice induced lower levels of the Ag-specific CD8+ Tc1 cells producing IFN-gamma. These results suggest that Tyk2 signaling is also important for DC function in the induction of MHC class Ia- and class Ib-restricted CD8+ Tc1 cells following L. monocytogenes infection.     

Immunological function of HLA-DQw6 molecules expressed in DQw6 transgenic C57BL/6 mice

HLA-DQw6 transgenic C57BL/6 mice (DQw6-B6) were utilized to define the role of HLA-DQw6 gene product in immune-recognition. To investigate the responsiveness of lymph node cells from C57BL/6 mice (B6) or DQw6-B6 in response to DQw6 molecules expressed in the DQw6-B6, in vitro secondary MLR was performed. The lymph node cells from B6 proliferated in response to spleen cells from DQw6-B6, whereas those from DQw6-B6 did not. These results suggested that DQw6-B6 acquired tolerance to DQw6 molecules. The difference of T cell repertoire between B6 and DQw6-B6 was investigated using mAbs directed against T cell receptor V beta regions, V beta 3, V beta 5, V beta 6, V beta 8, V beta 11 and V alpha 3.2. Although the proportion of V beta 5+ CD8+ T cells and V beta 6+ CD4+ T cells were increased in the B6 anti-DQw6-B6 MLR T cell line, there was no significant difference in the proportion of peripheral T cells expressing each V alpha or V beta region between B6 and DQw6-B6. Both CD4+ and CD8+ long term-cultured T lymphocyte cell lines were generated from lymph node cells of B6 stimulated in vitro by irradiated spleen cells from DQw6-B6. The CD4+ T cell line proliferated in response to spleen cells of DQw6-B6 or L cell transfectant expressing HLA-DQw6 molecules and these responses were completely inhibited by either anti-DQ or anti-CD4 monoclonal antibodies (mAbs) but not by anti I-Ab mAbs. The CD8+ T cell line lysed splenic cells activated by lipopolysaccharide (LPS) from DQw6-B6 spleen cells but not from B6. The CD8+ T cell line also exhibited a cytotoxicity to splenic LPS blast cells from backcross progenies between (DQw6-B6 x DBA1) F1 and DBA1, only when target cells expressed both HLA-DQw6 molecules and H-2b. These observations indicated that recognition of HLA-DQw6 by the CD8+ cytotoxic T cell line was restricted by H-2b. The cytolytic activity of the CD8+ T cell line was inhibited by either anti-CD8 or anti-H-2Db mAbs but not by anti-HLA-DQ nor anti-H-2Kb mAbs. These results show that HLA-DQ transgene products expressed in DQw6-B6 can induce xenogeneic MLR in both CD4+ and CD8+ T cells. The CD4+ T lymphocytes recognize the HLA-DQw6 molecule itself whereas the CD8+ cytotoxic T lymphocytes recognize the HLA-DQw6 gene product in the context of H-2Db.     

Antigen recognition by the T cell receptor is enhanced by CD8 alpha-chain binding to the alpha 3 domain of MHC class I molecules, not by signaling via the cytoplasmic domain of CD8 alpha.

The binding specificities and function of mouse CD8 were studied using a CD4-CD8- allospecific T cell hybridoma, chimeric class I MHC molecules, and a CD8 alpha deletion mutant. By transfecting the mouse CD8 alpha gene into a IL-2 producing, H-2Kb specific hybridoma, IL-2 production was increased when L cells expressing Kb were used as stimulators. However, no increase in IL-2 was observed when a KbKbB7 hybrid molecule, composed of the alpha 1 and alpha 2 domains of H-2Kb, and the alpha 3 domain of HLA-B7, was used as a stimulator. Comparison between T cell hybridomas that expressed full-length CD8 alpha and a deletion mutant lacking part of the cytoplasmic domain revealed identical responsiveness for H-2Kb. The data suggest that the mouse CD8 alpha homodimer does not bind to the alpha 3 domain of HLA class I molecules and that CD8 alpha acts as a co-receptor with the TCR by binding the same MHC molecule for alloantigen recognition. Our data also provide evidence that CD8 alpha signal transduction through its cytoplasmic tail by association with p56lck is not an absolute requirement for antigen recognition by T cells.