Antigen presentation by human dermal fibroblasts: activation of resting T lymphocytes

We have shown that human dermal fibroblasts, exposed to interferon-gamma (IFN-gamma) to induce surface class II major histocompatibility complex (MHC) antigens, were capable of presenting tetanus toxoid (TT) antigen to human TT-specific T cell clones. Antigen presentation by fibroblasts was antigen dependent, required HLA-DR expression by fibroblasts, and was MHC restricted. In contrast, we now report that IFN-gamma-treated fibroblasts are unable to present TT antigen to purified resting T cells obtained from the peripheral blood of TT-immune donors. In addition, although IFN-gamma-treated fibroblasts were able to stimulate alloreactive T cell clones, they were unable by themselves to stimulate primary allogeneic responses in resting T cells. The failure of fibroblasts to stimulate resting T cells was not due to suppressor effects by fibroblasts, because induction of TT and alloantigen responses in resting T cells by monocytes was not inhibited by the presence of fibroblasts. On the contrary, IFN-treated fibroblasts were synergistic with small numbers of monocytes in activating resting T cells. In addition, the failure of antigen presentation by fibroblasts to resting T cells was reversed by the addition of recombinant human interleukin 2 (rIL 2) to cultures, but not of purified human interleukin 1 (IL 1). These results emphasize that the requirements for activation of resting T cells differ from those of T cell clones. Although fibroblasts can efficiently present antigen to T cell clones, antigen presentation by fibroblasts to resting T cells requires the addition of exogenous IL 2. It is postulated that fibroblasts differ from classical antigen-presenting cells in that fibroblasts are incapable of stimulating the production of IL 2 in resting T cells.     

CD4+ Th0 cell clones,isolated from a metastatic lymph node of a melanoma patient,possess cytolytic function

In the present study T lymphocytes isolated from a metastatic lymph node (T-LNL) of a melanoma patient have been cloned. In the attempt to verify whether T-LNL may acquire in vitro functional activities in the absence of tumour-associated antigens, they were cloned utilizing allogeneic lymphocytes as feeder cells. Nineteen clones generated from T-LNL proved to be CD4+ and, among these, five were able to kill autologous and allogeneic human melanoma cells in HLA-class-II-restricted way. On the basis of their cytokine production, these CD4+ cytolytic T-LNL clones were shown to belong to the Th0 subset and three of them expersseed the V17 chain of the T cell receptor. These results suggest the presence of melanomaspecific but functionally inactive lymphocytes with T cell receptor oligoclonality in the lymph node environment. These specific T cells may acquire in vitro the capacity to kill autologous and allogeneic tumours without any induction by autologous melanoma cells.     

Cloned human cytotoxic T lymphocyte (CTL) lines reactive with autologous melanoma cells. I. In vitro generation, isolation, and analysis to phenotype and specificity

Activation of peripheral blood lymphocytes (PBL) from a melanoma patient either in secondary MLC in which EBV-transformed B cells from the cell line JY were used as stimulator cells, or by co-cultivation with the autologous melanoma cells in a mixed leukocyte tumor cell culture (MLTC) resulted in the generation of cytotoxic activity against the autologous melanoma (O-mel) cells. From these activated bulk cultures four cloned cytotoxic T lymphocyte (CTL) lines were isolated. The CTL clone O-1 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+), and O-36 (T3+, T4-, T8+, OKM-, HNK-, and HLA-DR+) were obtained from MLC, whereas the CTLC clones O-C7 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+) and O-D5 (T3+, T4-, T8+, OKM-1-, HNK, and HLA-DR+) were isolated from autologous MLTC. All four CTL clones were strongly cytotoxic for O-mel cells but failed to lyse autologous fibroblasts and autologous T lymphoblasts. Moreover, the CTL clones lacked NK activity as measured against K562 and Daudi cells. Panel studies indicated that the CTL clones also killed approximately 50% of the allogeneic melanoma cells preferentially, whereas the corresponding T lymphoblasts were not lysed. Monoclonal antibodies against class I (W6/32) and class II (279) MHC antigens failed to block the reactivity of the CTL clones against O-mel and allogeneic melanoma cells, indicating that a proportion of human melanoma cells share determinants that are different from HLA antigens and that are recognized by CTL clones. In contrast to the CTL clones isolated from MLTC, the clones obtained from MLC also lysed JY cells, which initially were used as stimulator cells. The reactivity of O-36 against JY could be inhibited with W6/32, demonstrating that this reactivity was directed against class I MHC antigens. These results suggest that the lysis of O-mel and JY cells by O-36 has to be attributed to two independent specificities of this CTL clone. The specificity of the other cross-reactive CTL clone (O-1) could not be determined. The notion that individual CTL clones can have two specificities was supported by the following observations. The cytotoxic reactivity of both O-1 (T4+) and O-36 (T8+) against JY was blocked by monoclonal antibodies directed against T3 and human LFA-1, and against T3, T8, and human LFA-1, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Differential induction by immune interferon of the gene products of the HLA-D region on the melanoma cell line MeWo and its metastatic variant MeM 50-10

This study has shown for the first time an association between the metastatic properties of two autologous melanoma cell lines and their susceptibility to induction of HLA class II Ag by IFN-gamma. After in vitro incubation with IFN-gamma the melanoma cell line MeWo did not acquire reactivity with anti-HLA class II antibodies, whereas its metastatic variant MeM 50-10 did. The differential susceptibility to induction of HLA class II Ag on the two cell lines cannot be accounted for by either differences in the number and affinity of IFN-gamma receptors or in the sensitivity to IFN-gamma, but most likely reflects an intrinsic property of each cell line. Serologic and immunochemical investigations with anti HLA-DR, DQ, and DP mAb have indicated that only HLA-DR Ag are induced by IFN-gamma on MeM 50-10 cells. Northern blot analysis with HLA-DR beta, DQ beta, and DP beta probes suggest that different mechanisms underlie the differential susceptibility to induction by IFN-gamma of the gene products of the HLA-D region. The regulatory mechanism(s) that control the expression of HLA class II Ag appear to be different from those controlling the expression of the melanoma-associated Ag tested, inasmuch as the modulation of the latter by IFN-gamma did not differ on the two melanoma cell lines.     

Induction of IgG and IgE synthesis in normal B cells by autoreactive T cell clones

During the course of generating tetanus toxoid (TT)-specific T cell clones frm an HLA-DR2,7 donor, four clones were obtained which proliferated in the presence of autologous monocytes alone without the addition of TT antigen. This proliferation was specifically inhibited by anti-HLA-DR framework mouse monoclonal antibody, and appeared to be HLA-DR-restricted. Two of the clones proliferated in response to HLA-DR2-bearing monocytes, and the other two clones proliferated in response to HLA-DR7-bearing monocytes. The capacity of these four autoreactive human T cell helper clones to induce IgE synthesis in B cells was studied. All four clones stimulated autologous peripheral blood B cells to synthesize IgE and IgG antibody. Induction of IgE synthesis in B cells by the autoreactive T cell clones followed the same pattern of HLA-DR restriction which governed the proliferative response of these clones. These results suggest that the interaction of autoreactive helper T cells with B cell HLA-DR antigens may be important in the activation of IgE immune responses in humans.     

HIV-1 transmission and function of virus-infected monocytes/macrophages.

Monocyte/macrophages (MM) were isolated from HIV-1 seronegative individuals, infected with HIV-1 and examined for their ability to infect autologous T lymphocytes with and without concomitant presentation of exogenous Ag. HIV-1-infected MM presented tetanus toxin (TT) and streptokinase to T cells (as measured by [3H]thymidine incorporation) comparable to presentation by uninfected MM. In these studies, it was observed that HIV-1-infected MM without additional exogenous Ag stimulated autologous T lymphocytes, however, to a lesser degree than with TT and streptokinase. Virus production in T cells appeared to be relative to the degree of stimulation with the highest levels of stimulation and infection observed when T cells were exposed to HIV-1-infected TT-presenting MM. Studies were carried out to examine some of the restricting elements in MM-mediated infection of T lymphocytes with and without TT presentation. Antibodies to CD4, as well as soluble immunopurified gp120, blocked cell-mediated infection indicating that infection of T cells was through the CD4 molecule as has been demonstrated with cell-free virus. In addition, soluble gp120 inhibited Ag presentation by HIV-1-infected and uninfected MM. mAb to MHC class II Ag HLA-DR and -DP blocked T cell infection by HIV-1-infected MM with and without presentation of TT. No effect was observed with mAb to MHC class I Ag. These results indicate that virus transmission to T lymphocytes can be mediated by HIV-1-infected MM and that these cells maintain their function as APC. Activation of T cells appears to be important in the process of T cell infection in this system inasmuch as antibodies that block Ag presentation and thus a T cell proliferative signal inhibit infection.     

Generation of melanoma-specific, cytotoxic CD4(+) T helper 2 cells: requirement of both HLA-DR15 and Fas antigens on melanomas for their lysis by Th2 cells

Recognition of melanoma antigens by HLA class-II-restricted CD4(+) T lymphocytes has been investigated. Two cytotoxic CD4(+) T cell lines were established by stimulating PBLs from a melanoma patient with either parental or IFN-gamma-transduced autologous tumor cells. These T cells secreted IL-4, but not IL-2, IFN-gamma, or TNF-beta, in response to the autologous melanoma cells, suggesting that they belong to the Th2 subtype. Their cytotoxicity was directed against the IFN-gamma-transduced melanoma cells and was HLA-DR-restricted. The autologous and two allogeneic IFN-gamma-modified melanoma cell lines shared melanoma antigen(s) presented in the context of HLA-DR15. HLA-DR15(+) nonmelanoma cells were resistant targets indicating that the shared antigen(s) is melanoma associated. Parental autologous and HLA-DR-matched allogeneic melanoma cell lines, displaying low levels of HLA-DR antigens, induced Th2 proliferation and cytokine release, but were insensitive to lysis prior to upregulation of HLA-DR and Fas antigens by IFN-gamma. Cytolysis was inhibited by anti-HLA-DR and by anti-Fas antibodies, suggesting that the cytolysis is mediated via the Fas pathway. While small amounts of HLA-DR15 molecules on melanoma cells are sufficient for Th2 proliferation and cytokine release, higher amounts of HLA-DR15 and the expression of Fas are required for CD4(+)-mediated lysis.     

Presentation of autoantigen by human T cells.

Activated human T cells express MHC class II and have been shown to present foreign Ag to autologous T cells. We now demonstrate that MHC class II+ T cell clones can present myelin basic protein (MBP) peptide autoantigen in the absence of traditional APC to autologous MBP reactive T cell clones. MBP peptide-pulsed T cell clones specifically stimulated autologous MBP-reactive T cell clones to flux calcium and proliferate. Activation responses were peptide epitope specific and blocked by mAb to MHC class II, indicating a TCR-mediated response. In addition, mAb to the adhesion molecules LFA-3, CD2, LFA-1, CD29, and to the tyrosine phosphatase CD45 also inhibited proliferation, indicating the involvement of T to T cell interactions. In contrast to peptide Ag, T cell clones did not respond to autologous T cells pulsed with HPLC-purified MBP, suggesting that T cells are unable to process whole MBP. However, batch-purified MBP Ag preparations containing lower m.w. breakdown products were presented by T cells, indicating that naturally occurring breakdown products of autoantigens could be presented by activated T cells in vivo. These results raise the possibility that T cell presentation of autoantigen at inflammatory sites may be important in regulation of immune responses to self Ag.     

Natural killer cell clones can efficiently process and present protein antigens.

NK cell clones obtained from three different donors were tested for their ability to present soluble proteins to Ag-specific T cell clones. All NK clones were CD2+CD3-CD56+, whereas the expression of CD16 varied from clone to clone. The NK cell clones were able to process and present tetanus toxoid (TT) to TT-specific T cell clones in a class II HLA restricted manner. The capacity of NK cell clones to function as APC was also observed using the house dust mite allergen Der p I and the Der p I-derived peptide Val89-Cys117. As with EBV-transformed B cell line, NK cell clones could present the peptide 3-13 derived from the 65-kDa heat shock protein of Mycobacterium leprae, but they were unable to present the whole M. leprae Ag. Freshly isolated NK cells, IL-2-activated NK cells, and NK cell lines expanded in vitro could also process and present TT. The ability of the different NK populations to act as accessory cells correlated with their levels of class II HLA expression. These data demonstrate that NK cell clones can efficiently function as APC, however they may be restricted in the types of Ag that they can process.     

Functional abolition of monocyte HLA-DR by aldehyde treatment. A novel approach to studies of class II restriction elements in antigen presentation

The effect of low concentration aldehyde treatment (0.0012 to 0.005%) on the expression of HLA-DR Ag by human monocytes was investigated. This treatment was shown to selectively abolish the expression of HLA-DR determinants defined by a monomorphic mAb (YE2.36) in a rosette assay. The expression of class I MHC Ag and Fc gamma R remained unaffected. As a result, the presentation of the recall Ag tetanus toxoid and streptokinase-streptodornase (SK-SD) to freshly isolated autologous T cells and T cell clones was completely inhibited. Increasing the concentration of aldehyde to 0.05% consistently produced partial restoration of Ag-presenting capacity. Low dose aldehyde treatment did not affect monocyte viability or membrane turnover. Thus, aldehyde-treated monocytes produced a second generation of HLA-DR and expression was almost completely restored to normal after 24 h of culture. The presentation of monocyte class II Ag as alloantigens was also inhibited by low dose aldehyde treatment but inhibition was much less marked when monocytes were aldehyde treated at 2 h rather than at 24 h of culture. This is consistent with the reexpression of HLA-DR which occurred readily in the first 24 h of culture and much less readily thereafter. Low dose aldehyde treatment did not affect Ag uptake and processing. However, monocytes which had been pulsed with Ag, aldehyde-treated to abolish HLA-DR, and then cultured to allow regeneration of HLA-DR could present Ag only when given a second Ag pulse, suggesting that once the association between microbial Ag and HLA-DR had formed the Ag was not then free to reassociate with novel HLA-DR. Low dose aldehyde treatment did not affect monocyte IL-1 production, neither did it inhibit the detection of HLA-DR by soluble mAb in FACS analysis. These results are consistent with the view that low dose aldehyde treatment disrupts the tertiary structure of human Ia molecules such that allostimulatory determinants and restriction elements for exogenous Ag are rendered inaccessible to T lymphocyte receptors and to cell-bound anti-DR mAb in the rosette assay, although DR determinants may remain accessible to soluble mAb.     

HER-2/neu-derived peptide 884–899 is expressed by human breast, colorectal and pancreatic adenocarcinomas and is recognized by in-vitro-induced specific CD4+ T cell clones

HER-2/neu peptides recognized in the context of HLA-DR molecules by CD4(+) Th lymphocytes on antigen-presenting cells have been identified. In this report, we demonstrate for the first time that HER-2/neu helper epitopes are also expressed on the surface of metastatic breast, colorectal and pancreatic carcinomas. Peripheral blood mononuclear cells from an HLA-DR4 healthy donor were used to induce HER-2/neu peptide-specific CD4(+) T cell clones by in vitro immunization with HER-2/neu peptide (884-899)-pulsed autologous dendritic cells (DCs). Strong proliferation and significant levels of IFN-gamma were induced by the CD4(+) T cell clones in response to specific stimulation with autologous DCs loaded with HER-2(884-899). Furthermore, these clones also recognized HER-2/neu(+) tumor cell lines, and tumor cells from breast, colorectal and pancreatic adenocarcinomas induced to express HLA-DR4, but also the HLA-DR4(+) melanoma cell line FM3 transfected to express HER-2/neu. The recognition of tumor cells was strongly inhibited by an anti-HLA-DR mAb. Taken altogether, we provide novel information for the role of HER-2(884-899) as a naturally processed epitope expressed by breast, colorectal and pancreatic carcinomas and the capacity of HER-2/neu protein to follow the endogenous class II processing pathway. Our results suggest that HER-2(884-899) might be attractive for broadly applicable vaccines and may prove useful for adoptive immunotherapy designed for breast, colorectal and pancreatic carcinomas.     

Functional modulation of hepatitis B core antigen-specific T lymphocytes by an autoreactive T cell clone

Hepatitis B core (HBc)Ag-specific T cells present in the peripheral blood of a patient with chronic active hepatitis B were expanded by co-cultivation for 7 days with rHBcAg. After cloning at 1 cell/well in the presence of PHA and IL-2, five HBcAg-specific CD4+ cloned lines were obtained. All five lines proliferated and produced IL-2, IFN-gamma, and TNF in a dose-dependent fashion in response to HBcAg, but not to HBV envelope Ag. The cloned lines and derivative clones were HLA class II (DR1) restricted. All T cell clones were able to induce anti-HBc production by autologous B cells in response to HBcAg (helper effect). The proliferative response and the helper effect of the HBcAg-specific T cell lines and clones were augmented by co-cultivation with an autologous, autoreactive (HLA-DQ1 specific) T cell clone, even in the absence of HBcAg, and the autoreactive T cells directly stimulated anti-HBc secretion by autologous B cells, presumably due to the release of Ag-nonspecific factors. These findings define a model immunoregulatory circuit the physiologic significance of which remains to be determined.     

Antigen presentation by human B cells: T cell proliferation induced by Epstein Barr virus B lymphoblastoid cells

T cell proliferation in response to antigen requires the presence of an antigen-presenting accessory cell. The accessory cell most commonly associated with antigen presentation has been the macrophage (Mo). This study demonstrates that B cells in the form of Epstein Barr virus-transformed B lymphoblasts (EBV-B) are able to present tetanus toxoid (TT) to human T cells and induce proliferation of these cells. T cells freshly isolated from peripheral blood were shown to undergo blast transformation and proliferation in response to TT and irradiated EBV-B cells. Furthermore, TT-reactive T cell blasts were shown to proliferate in the presence of EBV-B cells and TT, but not with other antigens. There was a progressive increase to a plateau in T blast proliferation with increasing numbers of EBV-B cells added to the culture. The concentration of TT required for optimal antigen presentation was similar for EBV-B cells and for Mo. TT-specific cloned T cells also proliferated in response to TT and EBV-B cells and could be continuously grown in culture with TT, interleukin 2-containing supernatant, and EBV-B cells in place of autologous Mo. EBV-B cells pulsed with TT could also act as antigen-presenting cells. The proliferative response of T cell clones to TT in the presence of EBV-B cells was inhibited by antiserum to human p29,34 glycoprotein but not by anti-beta 2-microglobulin. This inhibition was shown to result from interaction with Ia-like determinants on EBV-B cells. These results indicate that B lymphoblastoid cells in man are able, like Mo, to present antigen to T cells in the context of Ia-like determinants.     

Spontaneous CD4+ T cell responses against TRAG-3 in patients with melanoma and breast cancers

The taxol resistance gene TRAG-3 was initially isolated from cancer cell lines that became resistant to taxol in vitro. TRAG-3 is a cancer germline Ag expressed by tumors of different histological types including the majority of melanoma, breast, and lung cancers. In the present study, we report that patients with stage IV melanoma and breast cancers developed spontaneous IFN-gamma-producing CD4+ T cell responses against a single immunodominant and promiscuous peptide epitope from TRAG-3 presented in the context of multiple HLA-DR molecules. The TRAG-3-specific CD4+ T cells and clones were expanded in vitro and recognized not only peptide pulsed APCs but also autologous dendritic cells (DCs) loaded with the TRAG-3 protein. All stage IV melanoma patients with TRAG-3-expressing tumors developed spontaneous CD4+ T cell responses against TRAG-3, demonstrating its strong immunogenicity. None of these patients had detectable IgG Ab responses against TRAG-3. TCRbeta gene usage studies of TRAG-3-specific CD4+ T cell clones from a melanoma patient and a normal donor suggested a restricted TCR repertoire in patients with TRAG-3-expressing tumors. Altogether, our data define a novel profile of spontaneous immune responses to cancer germline Ag-expressing tumors, showing that spontaneous TRAG-3-specific CD4+ T cells are directed against a single immunodominant epitope and exist independently of Ab responses. Because of its immunodominance, peptide TRAG-3(34-48) is of particular interest for the monitoring of spontaneous immune responses in patients with TRAG-3-expressing tumors and for the development of cancer vaccines.     

Modified MHC restriction of donor-origin T cells in humans with severe combined immunodeficiency transplanted with haploidentical bone marrow stem cells

The choice of class II MHC determinants that serve as self-recognition elements for murine CD4+ T cells is thought to be determined by the environment in which T cells mature rather than their genotype. Patients with severe combined immunodeficiency (SCID) reconstituted with T cell depleted haploidentical parental stem cells provide an excellent model for studying this phenomenon in humans. After engraftment, the T cells that develop in these infants are all of donor origin. We sought to determine whether the successful immune reconstitution observed in two such SCID chimeras involved modification of the MHC restriction of Ag recognition by the genetically donor T cells as they matured to become competent T cells in the infants' microenvironment. A tetanus toxoid (TT)-specific T cell line and TT-specific T cell clones were established from the blood of two reconstituted SCID patients and from their maternal donors. T cell responsiveness was determined by [3H]thymidine incorporation after TT presentation by EBV-transformed B cell lines (EBV-B) from various donors. The TT-specific T cell line from patient 1 proliferated when presented Ag by patient, maternal donor, and paternal APC. A CD4+ donor origin clone that proliferated when presented TT by patient and paternal EBV-B, but not by maternal donor EBV-B, was isolated from each patient. TT recognition by these clones was shown to be restricted by the HLA DR determinant shared by patient and father, but not present in the donor. Four TT-specific clones isolated from maternal donors failed to proliferate when presented TT by the appropriate paternal EBV-B. These studies demonstrate that, in these human SCID bone marrow chimeras, engrafted donor-origin stem cells maturing to competent T cells in the recipient microenvironment are capable of utilizing recipient HLA determinants as restriction elements for Ag recognition. This suggests that human, as well as murine, MHC restriction patterns for Ag recognition by CD4+ T cells are environmentally determined.     

Antigen presentation by EBV-B cells to resting and activated T cells: role of interleukin 1

We have previously demonstrated that Epstein Barr virus-transformed human B lymphocytes (EBV-B cells) present antigen to activated T cells (lines and clones) in a MHC-restricted manner. In the present study, using EBV-nonimmune donors, we demonstrate that EBV-B cells are unable to trigger tetanus toxoid (TT) antigen-specific proliferation in autologous highly purified resting T cells. EBV-B cells from these same individuals were able to present TT to autologous TT-specific activated T cell blasts (Tbl). The inability of EBV-B cells to present TT to resting T cells was not caused by defective antigen processing by EBV-B cells. Thus, paraformaldehyde treatment of antigen-pulsed EBV-B cells did not impair their ability to trigger proliferation of antigen-specific Tbl, and EBV-B cells pulsed with antigen in the presence of autologous TT-specific T cell blasts did not present antigen to resting T cells. Furthermore, antigen-specific proliferation of resting T cells triggered by monocytes was enhanced rather than suppressed by EBV-B cells. The addition of partially purified human IL 1 allowed EBV-B cells to present TT antigen to resting T cells, suggesting that failure to secrete IL 1 contributed to the failure of EBV-B cells to present antigen. IL 1 could not be detected in supernatants of EBV-B cells stimulated with Staphylococcus epidermidis, concanavalin A, and TT antigen in the presence or absence of up to 5% autologous T cells. The differential capacity of EBV-B cells to present antigen to resting T cells vs activated T cells correlated with the T cell requirement for IL 1, because a rabbit antibody to human IL 1 inhibited the monocyte-supported proliferation of resting T cells but not that of activated T cells. These results suggest that the inability of EBV-B cells to present antigen to resting T cells is related to their inability to secrete detectable IL 1.     

Interferon-gamma regulates the T cell response to precursor nevi and biologically early melanoma

To examine the potential regulatory role of interferon-gamma in the cellular immune response to melanoma and its precursor lesions, we have tested the capacity of this lymphokine to enhance HLA class II antigen-dependent T lymphocyte blastogenesis, its in vitro production by autologous T cells stimulated by melanoma, and its presence in melanocytic lesions in situ. Cell lines derived from a dysplastic nevus, a radial growth phase primary tumor, a vertical growth phase primary, and metastatic lesions were induced by recombinant interferon-gamma to express increased amounts of HLA class II antigens. Such cells were then examined in radioimmunoassay for expression of HLA-DR antigens and in co-culture for their ability to stimulate proliferation of autologous T cells. Interferon-gamma treatment of melanocytic cells increased their expression of HLA-DR antigens threefold to sixfold. In parallel with these findings, co-culture of T cells with interferon-treated cells of a dysplastic nevus and a radial phase melanoma led to augmented T cell incorporation of tritiated thymidine, and this stimulation was inhibited with a monoclonal antibody to HLA-DR antigens. Despite augmented expression of HLA class II antigens (HLA-DR, -DQ, and -DP), vertical growth phase and metastatic melanoma cells failed to stimulate autologous T cells. When T cells were co-cultured with stimulating melanoma cells, culture supernatants contained significantly increased amounts of interferon-gamma (12 U/ml) in comparison with supernatants of T cells alone (4 U/ml). No interferon was detectable in cultures of melanoma cells alone. To link these in vitro phenomena to in situ events, we used murine monoclonal antibodies to interferon-gamma, the interleukin 2 receptor, and HLA-DR antigens in an immunoperoxidase system to detect interferon production and lymphocyte activation in frozen sections of lesions representative of melanocytic tumor progression. In these studies, precursor dysplastic nevi and radial phase melanomas contained the highest numbers of activated lymphocytes and stained positively for interferon-gamma. These results suggest that interferon-gamma plays a central role in the regulation of the cellular immune response to melanoma. It is produced by T cells, likely activated by tumor antigens seen in the context of HLA class II antigens. In turn, interferon-gamma production enhances expression of HLA class II antigens by melanoma and precursor cells, and such enhancement is associated with additional T cell activation in a positive feed-back loop.     

Detection and long-term in vivo monitoring of individual tumor-specific T cell clones in patients with metastatic melanoma

We investigated the presence of individual melanoma-specific T cell clones in patients with metastatic melanoma. Ten patients were examined for the presence of melanoma-reactive T cells using dendritic cells loaded with autologous tumor cells. Their specificity was tested using nonradioactive cytotoxicity test. Individual immunodominant T cell clones were identified by the clonotypic assay that combines in vitro cell culture, immunomagnetic sorting of activated IFN-gamma(+) T cells, TCRbeta locus-anchored RT-PCR, and clonotypic quantitative PCR. All patients had detectable melanoma-reactive T cells in vitro. Expanded melanoma-reactive T cells demonstrated specific cytotoxic effect against autologous tumor cells in vitro. Three patients experienced objective responses, and their clinical responses were closely associated with the in vivo expansion and long-term persistence of individual CD8(+) T cell clones with frequencies of 10(-6) to 10(-3) of all circulating CD8(+) T cells. Five patients with progressive disease experienced no or temporary presence of circulating melanoma-reactive T cell clones. Thus, circulating immunodominant CD8(+) T cell clones closely correlate with clinical outcome in patients with metastatic melanoma.     

Indirect recognition of porcine swine leukocyte Ag class I molecules expressed on islets by human CD4+ T lymphocytes

Xenotransplantation of porcine islets is considered a viable alternative treatment for type 1 diabetes mellitus. Therefore, we characterized human PBL responding to porcine islets both in vitro by coculture and in vivo using SCID mice reconstituted with human PBLs (HuPBL-SCID) and transplanted with porcine islets. T cell lines generated in vitro and graft-infiltrating T cells obtained from HuPBL-SCID mice were CD4+-proliferated specifically to porcine islets cultured with autologous APC. This proliferation was abrogated by an anti-human class II Ab. These T cell lines also proliferated to purified swine leukocyte Ag (SLA) class I molecules in the presence of self-APC, indicating that the primary xenoantigens recognized are peptides derived from SLA. This CD4+ T cell line lysed porcine islets but not splenocytes. CD4+ T cell clones with Th0, Th1, and Th2 cytokine profiles were isolated. The Th0 and Th1 clones lysed porcine islets, whereas the Th2 clone that secreted a large amount of IL-4 was not lytic. These results demonstrate that human T cells responding to porcine islets are primarily CD4+ and recognize porcine xenoantigens by the indirect Ag pathway presentation. These activated T cells produce cytokines that lyse islets. Furthermore, we demonstrate that the major porcine xenoantigens recognized are SLA class I molecules.     

Differential Regulation of HLA-DR Expression and Antigen Presentation in Toxoplasma gondii-Infected Melanoma Cells by Interleukin 6 and Interferon γ

CD4⁺ cytotoxic T lymphocytes (CTL) clones, YT-4 and YT-9, specific for Toxoplasma gondii (T. gondii)-infected melanoma SK-MEL 28 (P36), were generated from the peripheral blood lymphocytes (PBL) of a patient with chronic toxoplasmosis. These CTL clones were shown to secrete significant amounts of interleukin 6 (IL-6) and interferon γ (IFN-γ) upon antigen (Ag)-specific stimulation. Downregulation of human leukocyte antigen (HLA)-DR surface expression and HLA-DR mRNA levels in P36 cells were observed when P36 cells were infected with T. gondii. Such downregulated HLA-DR expressions of 71 gondii-infected P36 cells were upregulated by treatment with both recombinant IL-6 (rIL-6) and recombinant IFN-γ (rIFN-γ). The antigen-presenting ability of T. gondii-infected P36 cells to T. gondii-infected cell-specific CTL was enhanced by rIFN-γ but not by rIL-6. The present study reveals the existence of differential regulation of HLA-DR expression and Ag presentation in T. gondii-infected melanoma cells by IL-6 and IFN-γ.