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.     

Two roles for Ia in antigen-specific T lymphocyte activation

In this study we examined the mechanism by which a PPD-specific murine T cell hybridoma, 8B2, recognized PPD associated with antigen-presenting cells (APC) in a manner genetically restricted by I-Ad. It was found that PPD-pulsed APC that were glutaraldehyde-fixed and treated with anti-Ia monoclonal antibody (abbreviated as PGM) were unable to stimulate the 8B2 T cells, as expected, due to inhibition caused by antibody binding to the Ia. However, addition of non-antigen-treated, glutaraldehyde-fixed APC (abbreviated as G) to cultures containing 8B2 T cells and PGM restored T cell activation, as determined by IL 2 production. This second non-antigen-specific function provided by the additional APC, G, was attributed to Ia and could be substituted by APC plasma membranes and by soluble membrane extracts. Genetic restriction analysis in which a variety of Ia-positive and Ia-negative cell lines and B cell blasts from different mouse strains were used as PGM or as G showed that each APC provided different Ia determinants that were specifically recognized by the T cells. PGM cells had to express I-Ad in order to present the PPD determinant, whereas the non-antigen-specific function was specific for I-Ad or I-Ab. These results suggest that the anti-Ia antibody does not interfere with the PPD/I-Ad-specific determinant bound by the antigen-specific T cell receptor, but prevents a second non-antigen-specific interaction with another region of the Ia molecule, which is provided by G. These two roles for Ia (antigen-specific and non-antigen-specific) were also found for activation of normal polyclonal PPD-specific T cell responses; thus they are not unique to the 8B2 T cell, but are generally applicable. In addition, T cell interactions with PGM and with G each provide different intracellular activation signals. This was determined by substituting the PGM or the G with either the tumor promoter phorbol 12-myristate 13-acetate (PMA) or the Ca++ ionophore, ionomycin. It was found that 8B2 T cells cultured with PGM and ionomycin, but not with PGM and PMA, were activated for IL 2 production. Neither PMA nor ionomycin in conjunction with G resulted in T cell activation. Taken together, these results indicate that 8B2 T cell activation involves APC Ia antigens in two different ways: one is to contribute to the presentation of the foreign PPD antigen, and a second is a non-antigen-specific Ia-T cell interaction necessary to provide additional intracellular activation signals.(ABSTRACT TRUNCATED AT 400 WORDS)     

Human Antigen-Presenting Cells: Characterization of the Cells in the T-Lymphocyte Proliferative Response

Human antigen-presenting cells (APC) which present the antigen to T lymphocytes resulting in a T-lymphocyte proliferative response were found among peripheral mononuclear cells (MNC), by employing purified protein derivative (PPD) as soluble antigen. To assess the adherence capacity of human antigen-presenting cells, MNC were separated by plastic Petri dishes or nylon wool columns. Plastic nonadherent cells were almost equivalent to unseparated cells in antigen-presenting ability. Plastic adherent cells, however, showed better antigen-presenting ability than unseparated cells. On the other hand, cells passed over nylon wool columns showed essentially no ability to present PPD to T lymphocytes. Removal of phagocytic cells by carbonyl iron resulted in about 50–70% reduction in antigen-presenting ability. Carrageenan, which is known to be toxic to macrophages, had no effect on APC. By using both rabbit anti-human Ia-like antiserum and alloantiserum specific for HLA-DR phenotype and complement, it was shown that APC possessed Ia-like antigens, whereas they did not bear surface immunoglobulins. These results indicate that the human APC is probably a cell in the monocyte-macrophage lineage. Allogeneic MNC were used as APC in order to determine whether any genetic restriction exists between MNC as APC and responding T lymphocytes. Optimal stimulation was shown to require identity of mixed leukocyte reaction (MLR)-activating determinants between APC and T lymphocytes. It is, however, obscure whether an HLA-D region restriction exists in these combinations because PPD-pulsed allogeneic MNC lost their ability to elicit even MLR. It is possible that this failure to elicit MLR was caused by T lymphocytes among the MNC used as APC.     

Presentation of Candida albicans and purified protein derivative soluble antigens by Epstein-Barr virus-transformed human lymphoblastoid B-cell lines

Cells other than the macrophage can function as antigen-presenting cells (APCs). These class II-bearing accessory cells include dendritic cells, epidermal Langerhans cells, B cells, murine B-cell tumors, and human Epstein-Barr virus-transformed lymphoblastoid cell lines (EBV-LCL). We investigated the ability of EBV-LCL to present two soluble antigens, Candida albicans and purified protein derivative of tuberculin (PPD). The EBV-LCL derived from B cells of two different individuals can present both antigens to bulk cultures of autologous antigen-primed peripheral blood lymphocytes. The responses of PPD-reactive T-cell clones were weaker to PPD when presented by EBV-LCL than by PBL-APCs, with some clones responding only to PPD presented by PBL-APCs. This suggests that EBV-LCL are not equivalent to PBL monocytes in APC function, and that expression of class II major histocompatibility complex antigen is not sufficient in enabling antigen-presenting capability.     

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.     

The human antimurine xenogeneic cytotoxic response. I. Dependence on responder antigen-presenting cells

We have examined the role of the human responder APC in the generation of CTL responses to xenogeneic antigens. Of six xenogeneic responses evaluated, only the human antimurine response was dependent on human APC for CTL generation. APC requirements for the other five xenogeneic responses more closely resembled those observed in the generation of human or murine alloreactive CTL. Depletion studies identified a defective human CD4+ Th cell-murine stimulator cell interaction that could be bypassed by the addition of exogenous IL-2. The function of the responder APC involved in the human antimurine CTL response was inhibited by chloroquine, suggesting a requirement for Ag processing. Effective presentation of murine stimulator Ag by human APC was completely blocked by anti-human Ia mAb, indicating that the Ag is presented to Th cells via the human class II molecule. These results are consistent with an Ia-dependent recognition of processed murine Ag by human T cells and represents a model for investigating human T cell activation requirements, Th cell function, and MHC restriction.     

B cells as antigen-presenting cells: antigen-specific IL-2 production by cloned T cells without expression of IL-2 receptors

A murine T cell clone, 24-2C, responds specifically to human IgG (HGG) in the context of I-Ab. B cells purified from mouse spleen cells were examined for their function as antigen-presenting cells (APC) in the response of 24-2C cells to HGG. B cells functioned as APC for IL-2 production but not for proliferation, whereas spleen cells or spleen-adherent cells functioned as APC for both IL-2 production and proliferation. LPS-activated B cells also failed to induce the proliferative response. The addition of the culture supernatant of 24-2C cells stimulated with HGG presented by irradiated spleen cells to the culture of 24-2C cells, irradiated B cells, and HGG induced the proliferative response of 24-2C cells, whereas IL-1, IL-3, and/or interferon-gamma did not reconstitute the proliferation. The expression of IL-2 receptors (IL-2R) on 24-2C cells was examined using a monoclonal anti-mouse IL-2R antibody AMT 13 or 7D4. 24-2C cells cultured with spleen cells as APC expressed IL-2R. Those cultured alone or with B cells as APC did not express IL-2R. Enlargement of 24-2C cells in response to HGG was also examined, and the relative cell size of those cultured with B cells or spleen cells as APC was larger than that of those cultured alone. These results demonstrate that B cells as APC induce IL-2 production and cell size enlargement in the response of 24-2C cloned T cells to HGG, but not IL-2R expression nor proliferation.     

Retroviral antibody binding of the MHC class II molecule: a biochemical influence on CD4 T cell differentiation in HIV infection?

Retroviral antibody capable of binding to the major histocompatibility complex (MHC) Class II molecule has been documented in human immunodeficiency virus-1 (HIV-1)-infected patients. Interactions between the MHC Class II receptor and the T-cell receptor (TCR) are central to the immune response. Importantly, retroviral antibody possesses a much higher binding affinity for the MHC Class II receptor, when compared to the TCR. Experiments have manipulated a number of factors related to antigen-presenting cell (APC) interaction with differentiating T-cells. These studies have observed the effects of lowering antigen dose and reducing ligand density on precursor Th (T helper) cell differentiation. Studies have also examined the effect of downregulated MHC Class II receptors and co-stimulatory molecules on APC-Th cell interaction. In addition, the sequestration of antigens away from the Class II processing pathway has been studied. These investigations reveal a general trend that can determine whether a naive CD4 T-cell becomes a Th1 or Th2-like cell. If the experimental manipulation weakens the APC-Th cell interaction, a weak ligating TCR signal results. Consequently, a weak ligating TCR signal can influence precursor Th cells to become Th2-like cells. Retroviral antibody binding of MHC Class II receptors may mimic a number of experimental conditions responsible for creating a weak ligating TCR signal.     

Cellular requirements for antigen processing by antigen-presenting cells: evidence for different pathways in forming the same antigenic determinants

In this report we examined the antigen-presenting cell (APC) requirements for activation of T-cell hybridomas specific for the protein antigen PPD (purified protein derivative of tuberculin). During the course of these studies we observed that glutaraldehyde fixation of Ia-positive A20.2JAD (A20) and P388D1 stimulator cells had different effects on T-cell activation. A20 cells fixed with glutaraldehyde stimulated the T cells in the presence of PPD as efficiently as nonfixed A20 cells. By contrast, glutaraldehyde treatment of Ia-positive P388D1 cells dramatically inhibited their ability to process and/or present PPD to T cells. This was not due to nonspecific effects on the P388D1 cells since cells prepulsed with PPD prior to glutaraldehyde treatment stimulated T cells as efficiently as non-glutaraldehyde-treated P388D1 cells. In addition, there was no apparent difference in "fixing" of the two cell types as determined by the uptake of radiolabeled thymidine. These observations suggested that P388D1, but not A20, cells required PPD internalization to form the relevant antigenic determinants. This was substantiated by showing that treatment of P388D1 cells with chloroquine prior to PPD pulsing eliminated their stimulatory capacity, but had no effect on P388D1 cells previously pulsed with PPD. Chloroquine treatment had no effect on stimulation by A20 cells. Since PPD internalization appeared not to be required for presentation by A20 cells, we next determined if isolated A20 plasma membranes would substitute for the intact cell. We observed that the isolated plasma membranes from PPD-pulsed A20 cells stimulated the T hybridoma cells, and that this stimulation was antigen-specific and was inhibited by anti-Ia monoclonal antibodies. Taken together, the results presented here suggest that for the PPD-specific T-cell responses examined here, different APC utilize distinct pathways to present the same antigenic determinant for T-cell recognition.     

Antigen-specific murine T-cell proliferation: role of macrophage surface Ia and factors.

The proliferation of Mycobacterium-primed murine lymph node T cells to purified protein derivative of tuberculin (PPD), as measured by the uptake of tritiated thymidine, requires the obligatory participiation of macrophages which stimulate the T cells either directly with antigen in association with cell surface Ia (I region-defined antigens), or indirectly by means of soluble factors. We have examined the possibility that this functional dichotomy is due to heterogeneity within the macrophage population. Since the maturation of macrophages from the precursor monocytes is associated with cell enlargement, macrophage subpopulations differing in developmental stage are obtained by cell fractionation according to size by velocity sedimentation. Nylon-wool-purified T cells which have been depleted of macrophages and B cells are stimulated with PPD either in a free form or bound to macrophages which have been incubated for a short time (i.e., pulsed) with PPD. We found that for PPD-pulsed macrophages, only the smallest (and probably the most immature) are capable of inducing T-cell proliferation. This antigen presentation function is mediated by cell surface Ia since it is abolished by pretreatment of the macrophages with anti-Ia serum and complement. On the other hand, all macrophages, irrespective of sensitivity to anti-Ia serum, secrete factors which will stimulate T-cell proliferation in the presence of free PPD. Thus the maturation of macrophages is accompanied by a shift from Ia-dependent to Ia-independent mechanisms of immunostimulation.     

Accessory cell function of cells isolated from Mycobacterium leprae-induced granulomas

The large cells from Mycobacterium leprae-induced granulomas in guinea pig lymph nodes were separated by Percoll discontinuous density gradient centrifugation and on a fluorescence-activated cell sorter (FACS) using cross-reacting monoclonal antibody to human MHC Class II antigens. Large Percoll-separated cells (83% Class II antigen positive and 52% macrophage-specific antigen positive) and FACS-separated cells are able to act as antigen-presenting cells for T-cell proliferation to PPD. In previous studies, macrophage antigen-positive cells consistently failed to act as accessory cells. This indicates that there is a population of accessory cells which are macrophage antigen negative and MHC Class II antigen positive present in these M. leprae-induced granulomas.     

Intercellular exchange of class II major histocompatibility complex/peptide complexes is a conserved process that requires activation of T cells but is constitutive in other types of antigen presenting cell

Activated T cells acquire antigen presenting cell- (APC) derived class II major histocompatibility complex glycoproteins (MHCII) but the role of TCR in this process is controversial. This study provides additional evidence that ligation of TCR initiates activation-dependent processes that independently mediate acquisition of APC-derived molecules. First, intercellular exchange of MHCII resulted in the constitutive accumulation of xenogeneic rat I-A on murine B cells, whereas na?ve murine T cells required activation to adsorb xenogeneic I-A. Likewise, continuous lines of B cells, basophils, and M? from various species such as rat, mouse, and human constitutively acquired xenogeneic I-A. Second, inhibitors of T-cell activation such as wortmannin, EGTA, or mAb against I-A, TCR, LFA-1, or CD4 inhibited I-A acquisition by rested T cells but not by preactivated T cells. In conclusion, exchange of MHCII is a conserved process that requires activation of T cells but is constitutive in other types of APC.     

Serological Cross-Reactivities of Murine and Human Class II Antigen Determined by Murine Xeno Anti-Human Class II Antibody

Murine anti-human class II antibodies were shown to cross-react with polymorphic determinants of murine class II antigens. The cross-reacting antibodies were raised in B10.S(9R) mice by immunizing with human nylon wool adherent cells (Ad cells) from peripheral blood leukocytes. The B10.S(9R) anti-human Ad cell antiserum bound to the molecules consisting of two chains with molecular weights of 35K and 28K dimers which were purified with a lentil-lectin column. The B10.S (9R) anti-human class II antiserum was also revealed to contain two distinct cross-reacting antibodies with polymorphic determinants of murine class II antigens coded for by the I-A subregion of the H-2. One is specific for a determinant of class II molecules coded for by I-A^b,d,q, and the other seems to be specific for class II molecules coded for by I-A^a,k,r.     

Oxidative stress impairs intracellular events involved in antigen processing and presentation to T cells

For T cells to recognize foreign antigens, the latter must be processed into peptides and associated to major histocompatibility complex (MHC) class II molecules by antigen-presenting cells (APC). APCs frequently operate under stress conditions induced by tissue damage, antigens, or inflammatory reactions. We analyze the effects of oxidative stress on intracellular processing using APC B cell lines. Before being tested for APC function, B cells (IIA1.6) were exposed for 2 hours to hydrogen peroxide (H2O2), a treatment that impairs their capacity to stimulate specific T cell clones. Because paraformaldehyde-fixed H2O2-treated B cells can still present extracellular peptides to T cell clones, the intracellular events of processing were investigated. Purified lysosomes from H2O2-treated B cells show increased proteolytic activity and increased generation of antigenic peptides. In addition, H2O2 treatment targets antigens to compartments that express low levels of MHC II and proteins (H-2M, H-2O) required for peptide loading onto this molecule. Finally, we suggest that impairment of antigen processing by oxidative stress reduces the induction of a T cell's response because H2O2 decreases the activation of naive T lymphocytes by dendritic cells. Together, these data indicate that oxidative stress inhibits the capacity of APCs to process antigens and to initiate a primary T cell response. The role of such modifications on the outcome of the specific immune response is discussed.     

LPS and specific T cell responses: interleukin 1 (IL 1)-independent amplification of antigen-specific T helper (TH) cell proliferation

Lipopolysaccharide (LPS) fraction of endotoxin induces a significant potentiation of the antigen-specific proliferative response of T helper (TH) cell lines. This effect was obtained with LPS from different bacterial sources and reproduced with the lipid A moiety of endotoxin. Purified adherent spleen cells used as antigen-presenting cells (APC) support this LPS-enhanced TH cell proliferation. In addition, the effect of endotoxin on specific TH cell responses was found to be absolutely dependent on the interaction between TH lymphocytes and APC through antigen-specific recognition. Thus, it was not observed in the absence of specific antigen or when monoclonal antibodies against class II MHC products or against L3T4 antigens were used to inhibit the T cell-APC interaction. Similarly, it was found that APC from the B6.CH-2bm12 mutant do not support the LPS-mediated enhancing effect. Furthermore, interleukin 1 (IL 1) appears not to be involved in LPS-mediated enhancement, and this effect is not reproduced by muramyl dipeptide (MDP)-mediated activation of APC.     

Serological cross-reactivity of murine A.TH anti-A.TL antibody (anti-l-Ek antibody) with La-like molecules of human antigen-presenting cells

The purified protein derivative (PPD)-specific proliferative responses of T cells from human peripheral blood are shown to be dependent on antigen-presenting cells (APC) which bear HLA-DR antigen detected by the monoclonal anti-HLA-DR antibody. The serological cross-reactivity of murine A.TH anti-A.TL antibody was observed in human APC. By absorption experiments using H-2 congenic mice, the serological cross-reactivity of A.TH anti-A.TL antibody with human APC is mapped in the I-E subregion. Thus, anti-I-Ek antibody reacts with the Ia-like molecule(s) on human APC. Murine allo-anti-I-Ek antibody does not always react with determinants of Ia-like molecule(s) on human APC, since this antibody did not eliminate PPD-specific proliferative responses in one particular case. Thus, anti-I-Ek antibody seems to react some type of the polymorphic determinants but not of the shared determinants of human Ia-like molecule(s) on APC. The relationship between the cross-reactive molecule detected by murine allo-anti-I-Ek antibody and the HLA-DR antigen remains to be analyzed.     

Detection of HLA-DRw (Ia-like) antigens on human T lymphocytes grown in tissue culture.

Human T lymphocytes that proliferate in the presence of conditioned medium from PHA-stimulated allogeneic peripheral blood cells were shown to express IPA antigens after the 8th culture day. Ia antigens as detected by xenogeneic antisera were present on 80 to 90% of the cultured cells which were also strongly reactive with xenogeneic antisera defining a human T cell antigen and formed E rosettes. Control cultures with PHA or no conditioned medium expressed T cell but not Ia antigens. These cultured T cells also express the same HLA-DRw determinants as the B cells of the donor they were derived from. Absorption of xenogeneic Ia, and HLA-DRw alloantisera with cultured T cells completely removed the reactivity of these sera for enriched peripheral blood B lymphocytes from normal donors.     

M. leprae and PPD-triggered T cell lines in tuberculoid and lepromatous leprosy

Proliferative responses of peripheral blood mononuclear cells (PBMC) to Mycobacterium leprae and bacillus Calmette Guerin-derived purified protein derivative (PPD) were studied in the presence or absence of interleukin 2 (IL 2) in high M. leprae responders (tuberculoid leprosy patients and healthy subjects) and low M. leprae responders (lepromatous leprosy patients). High responders in most cases developed a strong proliferative response to both antigens in the absence of IL 2. Additional IL 2 and restimulation with antigen plus autologous antigen-presenting cells (APC) allowed the derivation of antigen-specific T cell lines. The lines were assayed for proliferative responses to several mycobacterial antigens. Both PPD and M. leprae-triggered T cell lines exhibited a good proliferative response to either antigen and showed in addition a broad cross-reactivity with other mycobacteria, suggesting a preferential T cell response to epitopes shared by several mycobacterial species. Within the lepromatous group, 50% of the patients studied could mount a proliferative response to PPD antigen in the absence of IL 2, but none of them was able to do so with M. leprae antigen. The addition of IL 2 increased the number of positive responders to PPD in this group, and in some patients IL 2 was able to restore M. leprae reactivity as well, suggesting that IL 2 had overcome a suppressor mechanism. PPD and M. leprae-triggered T cell lines were obtained from these subjects (with IL 2 added from the beginning of the culture when required). M. leprae lines exhibited variable and unstable pattern of specificity, most lines exhibiting, at least transiently, a cross-reactive response to other mycobacteria, but some displaying only M. leprae-specific response. In contrast, PPD lines from these subjects consistently exhibited a good response to PPD, a lesser response to various other mycobacteria and no response to M. leprae, a pattern differing from that obtained with PPD lines of high M. leprae responders. Co-cultures of irradiated lepromatous PPD triggered T cell lines with fresh autologous PBMC non-specifically reduced the proliferative response of the latter to PPD, as well as to unrelated antigens. A similar suppression was also observed when PPD lines from one of the tuberculoid patients were assayed. PPD and M. leprae T cell lines from both high and low responders initially exhibited the same CD4+ CD8- phenotype. In all cases, antigenic specificity declined and could not be maintained after 5 to 8 wk of continuous culture, a change associated with the progressive appearance of CD8+ and Leu8+ cells.     

Analysis of the activation of lymphoid cells by mitogens in vitro with limiting dilution methods: adherent peritoneal cells suppress B-cell activation and synergize with WEHI-3 in the activation of T cells by Con A

Adherent peritoneal cells (APC) have often been used as a pure and effective macrophage population. Using partition analysis and small numbers of lymphoid cells activated by mitogens (concanavalin A for T cells (in the presence of TCGF) and LPS + DxS for B cells) we found that APC were accessory cells for T cell activation and growth but were not effective for B cells. Although APC were effective in assisting T-cell mitogenesis, they were not especially efficient. However, when APC were mixed with irradiated WEHI-3 cells (a tissue culture line previously shown to exhibit accessory cell activity in vitro for mitogenic activation T and B cells), the APC and WEHI-3 showed apparent synergy. One reason for failure of APC to assist B-cell mitogenesis was traced to the presence of a suppressor cell population which overcame the accessory cell help given by irradiated WEHI-3 cells to LPS-DxS stimulated murine B cells. It is thus possible to find "helper" effects (synergy of APC and WEHI-3 assisting the mitogenesis of T cells), as well as suppressor effects within the range of cells found in adherent accessory cells.     

T lymphocyte recognition of insolubilized peptide antigen

To study the role of antigen-presenting cells (APC) in T lymphocyte responses, the stimulation requirements of a murine T cell hybridoma specific for the peptide antigen human fibrinopeptide B (hFPB)/I-Ak was examined. The fine specificity of T cell recognition of this peptide was determined by using several hFPB homologs and analogs, which indicated that the intact 14-amino acid peptide must remain intact to preserve the antigenic determinant, and that the carboxyl terminal Arg14 was important for T cell responses. Of particular interest was the finding that APC-associated hFPB failed to stimulate the T cells, and that activation was only observed with soluble peptide or by brief hFPB treatment of the T cells and APC mixed together. In addition, hFPB covalently bound to agarose beads was able to cause T cell activation, provided that I-Ak+ APC were also present in the culture. A number of control experiments were performed that showed that hFPB was not released from the bead and that the antigenic peptide involved in T cell responses remained bound to the beads. These results indicate that the form of the hFPB peptide antigen recognized by this T cell can be provided separately from APC.