Immunologic function of endothelial cells: guinea pig aortic endothelial cells support mitogen-induced T lymphocyte activation, but do not function as antigen-presenting cells

The possibility that vascular endothelial cells (EC), like macrophages (M phi), can function as accessory cells necessary for mitogen- and antigen-induced T cell activation was examined. EC were enzymatically detached from the luminal surfaces of guinea pig aortas and then propagated in culture. Lymph node T lymphocytes were rigorously depleted of adherent cells, such that they completely lost the capacity to respond to mitogenic stimulation with phytohemagglutinin or concanavalin A. In this system, EC restored mitogen-induced T cell DNA synthesis as effectively as did M phi. This effect could not be explained by a facilitation of residual accessory cell activity within the responding T cell population, because EC restored mitogen responsiveness to T cells that had been treated with anti-Ia antibody and complement. Support of mitogen responsiveness could not be accounted for by secreted products of M phi or EC in the absence of intact accessory cells. In addition to the capacity to serve as fully sufficient accessory cells for the induction of mitogen-stimulated T cell proliferation, EC exerted a number of modulatory influences on T lymphocyte responses in cultures supported by M phi. When such cultures were supplemented with small numbers of EC, responses were dramatically augmented; larger numbers of EC resulted in marked suppression. At least part of these immunomodulatory effects could be accounted for by the activity of secreted products of EC. EC did not express detectable Ia antigens assayed either by indirect immunofluorescence, with the use of the fluorescence-activated cell sorter, or by complement-mediated cytotoxicity. Moreover, treating the EC population with anti-Ia antibody and complement had no effect on its capacity to support mitogen-induced T cell DNA synthesis. As would be expected from the lack of Ia antigen expression, EC were incapable of presenting antigen to primed T cells. They did, however, carry enough antigen into the cultures such that effective antigen presentation could occur when the cultures were supplemented with M phi that were syngeneic but not allogeneic to the responding T cells. Moreover, EC were capable of dramatically augmenting antigen-specific responses stimulated by antigen-pulsed M phi. There was no genetic restriction for this EC-mediated augmentation of antigen responsiveness. These results indicate that EC are capable of functioning as completely sufficient accessory cells for mitogen-induced T cell DNA synthesis and, in addition, are able to modulate ongoing M phi-supported T lymphocyte responses in both a positive and negative manner.(ABSTRACT TRUNCATED AT 400 WORDS)     

Signals involved in T cell activation. I. Phorbol esters enhance responsiveness but cannot replace intact accessory cells in the induction of mitogen-stimulated T cell proliferation

The role of accessory cells (AC) in the initiation of mitogen-induced T cell proliferation was examined by comparing the effect of intact macrophages (M phi) with that of 4-beta-phorbol 12-myristate 13-acetate (PMA). In high-density cultures, purified guinea pig T cells failed to proliferate in response to stimulation with phytohemagglutinin (PHA), concanavalin A (Con A), or PMA alone. The addition of M phi to PHA or Con A but not PMA-stimulated cultures restored T cell proliferation. The addition of PMA to high-density T cell cultures stimulated with PHA or Con A also permitted [3H]thymidine incorporation, but was less effective than intact M phi in this regard. This action of PMA was dependent on the small number of AC contaminating the T cell cultures as evidenced by the finding that PMA could not support mitogen responsiveness of T cells that had been depleted of Ia-bearing cells by planning, even when these cells were cultured at high density. When PMA was added to T cell cultures supported by optimal numbers of M phi, catalase-reversible suppression of responses was noted. Even in cultures containing catalase, PMA failed to enhance responsiveness above that supported by optimal numbers of M phi. A low-density culture system was used to examine in greater detail the possibility that PMA could completely substitute for M phi in promoting T cells activation. In low-density cultures, mitogen-induced T cell proliferation required intact M phi. PMA could not support responses even in cultures supplemented with interleukin 1-containing M phi supernatants or purified interleukin 2 alone or in combination. Similar results were found in high-density cultures of T cells depleted of Ia-bearing cells. These results support a model of T cell activation in which AC play at least two distinct roles. The initiation of the response requires a signal conveyed by an intact M phi, which cannot be provided by either a M phi supernatant factor or PMA. The response can be amplified by additional M phi or M phi supernatant factors. PMA can substitute for M phi in this regard and can provide the signal necessary for amplification of T cell proliferation supported by small numbers of intact AC.     

Cellular requirements for induction of human primary proliferative responses to trinitrophenyl-modified cells

Cellular requirements for induction of primary proliferative responses by human T cells to trinitrophenylated autologous stimulators have been characterized. Substantial proliferative responses were observed with each of the Ia+ stimulator populations tested. Nevertheless, major differences in the hapten specificity of such responses were observed. Thus purified macrophages/monocytes (M phi) when TNP-modified induced responses that were relatively modest in absolute magnitude, but were highly hapten specific. This reflected the very limited capacity of purified M phi to induce proliferation when unmodified, i.e., an autologous mixed leukocyte response (AMLR). In contrast, unmodified M phi-depleted B plus null cells were potent stimulators of AMLR, but hapten modification did not significantly enhance the responses induced by these cells. Moreover, when M phi were added to B plus null cell stimulators AMLR responses were reduced and, with TNP-modified stimulators, hapten-specific responses were restored. The data thus suggest that M phi may have important roles in induction of primary T cell responses to conventional antigens but function largely as regulators rather than stimulators of AMLR. Finally, we have introduced a novel antigen-presenting cell population, the irradiated Ia+ TNP-specific cloned T cell. The possibility that such cells may utilize autostimulatory positive feedback circuits for activation of naive T cells and in interactions between subpopulations of hapten-reactive T cells is discussed.     

Differential abilities of human peripheral blood monocytes quantitatively or qualitatively differing in HLA-DR and HLA-DS expression to support B cell activation in liquid and semisolid cultures

The present investigation was performed to determine whether the activation of human B cells by Staphylococcal protein A (SpA) in liquid and semi-solid cultures might be dependent on distinct subsets of peripheral blood mononuclear-phagocytes (M phi) defined by the expression of HLA-DR and HLA-DS determinants. Highly pure HLA-DR- M phi functioned as effectively as HLA-DR+ MO in supporting B cell liquid proliferative responses when SpA was continuously present in cultures. However, HLA-DR+ M phi were two to three times more effective than HLA-DR- M phi in promoting B cell proliferative responses when either M phi or B cells were pulsed with SpA and were then cultured without supplemental SpA. Similarly, B cell activation in semisolid cultures was crucially dependent on HLA-DR+ M phi because colony responses were reduced fivefold in the presence of M phi expressing low/intermediate HLA-DR levels compared to M phi-containing cells with high HLA-DR levels. HLA-DS- M phi isolated by two different techniques were more effective than HLA-DS+ M phi in supporting both liquid proliferative and colony responses of B cells. Flow microcytofluorometry analysis of the dual expression of HLA-DR and HLA-DS on highly pure HLA-DR- M phi and HLA-DR+ M phi revealed that both HLA-DR- and HLA-DR+ M phi expressed low levels of HLA-DS. Importantly, the expression of HLA-DS on HLA-DR- M phi was bimodal, with an HLA-DR-, DS+ subset and an HLA-DR-, DS-subset being present. Other experiments supported the conclusions that the differential abilities of the HLA-DR-, -DS-defined subsets of M phi to support B cell activation did not represent M phi suppressive effects or differences in IL 1 production. Collectively, these results indicate that B cell activation can be directly supported by M phi whose predominant phenotype is HLA-DR+, -DS-. Thus, the accessory cell pathway of B cell activation described here is distinct from the pathway known to be required for T cell responsiveness, and could serve to provide early alternative or ancillary signals for triggering B cells.     

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

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

Dissection of the functions of antigen-presenting cells in the induction of T cell activation

The functions of antigen-presenting cells (APC) in the initiation of T cell activation was examined by culturing antigen-bearing guinea pig macrophages (M phi) with T cells obtained from antigen-primed animals. Although such antigen-bearing M phi stimulated primed syngeneic T cell DNA synthesis, as assessed by tritiated thymidine incorporation, paraformaldehyde fixation (0.15% for 1 min at 37 degrees C) abolished this capacity. Analysis with acridine orange staining indicated that fixed antigen-bearing M phi could not trigger primed syngeneic T cells to progress from the G0 to the G1 phase of the cell cycle. The addition of control non-antigen-bearing syngeneic or allogeneic M phi but not interleukin 1 or 2 to cultures of T cells and fixed APC permitted a proliferative response. Although the interaction between fixed antigen-bearing M phi and responding T cells was genetically restricted, there was no similar restriction for the supplemental control M phi. In fact, completely Ia-negative endothelial cells (EC) and fibroblasts (FB) could restore antigen responsiveness to cultures of fixed antigen-bearing M phi and syngeneic responding T cells, although they could not directly present antigen. Moreover, metabolically intact accessory cells, including Ia-negative EC and FB, could take up and process antigen to an immunogenic moiety, which fixed Ia-positive M phi could present to primed T cells. These data indicate that recognition of the antigen-Ia complex on an APC is necessary but not sufficient to trigger proliferation of freshly obtained primed T cells. The results additionally support the conclusion that APC carry out at least two separate functions necessary for the initiation of antigen-induced T cell activation. Not only must the APC display the antigen-Ia complex, but it must also convey another required effect. This influence, which apparently involved the establishment of cell to cell contact, was neither Ia nor antigen dependent and could only be provided by a metabolically intact cell. By contrast, genetically restricted antigen presentation could be accomplished by a fixed Ia-positive cell. Only when both the antigen-Ia complex and the influence of an intact accessory cell were provided by the same or different accessory cell were T cells triggered to enter the cell cycle.     

Liver sinusoidal lining cells express class II major histocompatibility antigens but are poor stimulators of fresh allogeneic T lymphocytes

Guinea pig liver sinusoidal lining cells (LSLC), a mixture of Kupffer cells (KC) and sinusoidal endothelial cells (EC), were examined for their capacity to function as antigen-presenting cells (APC). LSLC were extremely poor stimulators of freshly isolated allogeneic T lymphocytes even though a large number of them expressed class II major histocompatibility complex (MHC) antigens (Ia). This deficiency could not be explained by a lack of soluble factor production by LSLC, because an interleukin 1-containing macrophage (M phi) supernatant could not restore the capacity of LSLC to stimulate allogeneic T cells. Moreover, LSLC were able to promote mitogen-induced proliferation of accessory cell-depleted T lymphocytes. No evidence of suppression was apparent in experiments in which LSLC were added to cultures of T cells stimulated by allogeneic peritoneal exudate M phi (PEM). The Ia expressed by LSLC was functional because they were able to stimulate an alloreactive T cell line. When LSLC were mixed and co-cultured with either PEM syngeneic to the responding lymphocytes or Ia-negative fibroblasts, the allostimulatory ability of LSLC was greatly augmented. In contrast, the addition of mitogen-activated T cell supernatants had only a minimal effect on the capacity of LSLC to stimulate allogeneic T cells. The data suggest that LSLC lack a biologic property that is necessary for recognition of class II MHC determinants by fresh but not primed allogeneic T cells and that is not required to support T cell activation induced by nonspecific mitogenic lectins. These findings may be important in understanding the reason that antigen introduced into the portal blood appears not to initiate an immune response.     

Functional analysis of cloned macrophage hybridomas. IV. Induction and inhibition of mixed lymphocyte responses

A series of macrophage (M phi) hybridomas were generated by fusion of drug-marked P388D1 (H-2d) tumor cells with CKB (H-2k) splenic adherent cells. The ability of this panel of cloned M phi hybridomas expressing various levels of surface Ia antigens to induce allogeneic mixed lymphocytes responses (MLR) was examined. All MLR stimulatory M phi hybridomas expressed surface Ia antigens. However, some Ia+ and all Ia- M phi hybridomas were unable to induce vigorous MLR responses. Furthermore, even after induction of surface Ia antigen expression with Con A supernatants (Con A Sn) or purified interferon-gamma, the nonstimulatory M phi hybridomas remained ineffective at inducing strong MLR proliferative responses. Furthermore, addition of the latter M phi hybridoma clones (both with and without Con A Sn treatment) to conventional MLR cultures resulted in inhibition of MLR responses. The series of inhibitory M phi hybridomas secreted normal levels of IL 1 upon stimulation with lipopolysaccharide. After surface Ia induction with Con A Sn, the inhibitory M phi hybridomas could stimulate secretion of IL 2 and expression of IL 2 receptors. Moreover, although they inhibited conventional MLR responses, IL 2 production and IL 2 receptor expression were not significantly inhibited. Addition of these M phi hybridomas 24 to 48 hr after initiation of MLR response also inhibited MLR proliferation. The results indicated that the group of inhibitory M phi hybridomas can inhibit MLR responses after IL 2 secretion and acquisition of IL 2 receptors. Finally, this inhibitory activity has been maintained during 1 yr of continuous in vitro culture, and the hybridomas represent a stable "homogeneous" subpopulation of inhibitory macrophages. Thus, the inhibitory phenotype appears to reflect arrest at a distinct differentiation stage.     

A comparison of the stimulatory activities of lymphoid dendritic cells and macrophages in T proliferative responses to various antigens

The identities of murine accessory cells and the mechanism by which they process antigen and stimulate T cell proliferation have been examined with cell separation techniques and specific agents to block antigen catabolism. Using preparations of splenic dendritic cells (DC) and macrophages (M phi) with minimal cross-contamination, we found that only DC could induce syngeneic mixed leukocyte reaction (MLR), whereas both DC and M phi could initiate allogeneic MLR. This observation may have significant implications for syngeneic MLR as a manifestation of self Ia recognition, and for the cell type that defines self Ia during ontogeny. DC and M phi could present soluble antigens such as purified protein derivative of tuberculin (PPD) and Salmonella flagellin about equally well to antigen-specific T cell lines. M phi, however, were much more effective than the non-phagocytic DC at inducing T cell proliferation to whole Corynebacterium parvum organisms. These differences could not be attributed to differences in antigen uptake. The results suggest that the bacteria must be ingested and processed by phagocytes before T cell activation. Using the lysosomotropic agent chloroquine to inhibit antigen catabolism in accessory cells, we found that the presentation of large antigens by M phi and DC was abolished by chloroquine treatment, whereas T cell activation by antigens (such as PPD or integral membrane Ia for MLR) that apparently required no processing was relatively insensitive to chloroquine. Thus, in addition to differences between cells, discrete functions within each cell type can also be distinguished.     

Heterogeneity of human monocyte subsets in the promotion of B cell colonies and the role of interleukin 1

The abilities of human peripheral blood mononuclear-phagocyte (M phi) subpopulations and of interleukin 1 (IL 1) to support human B cell colony formation in semisolid cultures stimulated by staph protein A were analyzed. Human M phi subsets enriched for complement receptors (CR) effectively functioned as accessory cells supporting colony growth, whereas the responses obtained with CR-depleted M phi were 4.6-fold less. In experiments analyzing IL 1 production, CR-enriched M phi secreted four to 12 fold greater amounts of basal and stimulated IL 1 than CR-depleted M phi. Also, the addition of IL 1 to CR-depleted M phi resulted in a fourfold increase of colony numbers. The responses of cultures containing CR-depleted M phi plus IL 1, however, remained 30% less than those observed for cultures supplemented with CR-enriched M phi. Other studies showed that IL 1 was unable to substitute for M phi; the responses of cultures containing IL 1 and B cells were reduced 10-fold compared to cultures supplemented with autologous M phi. These findings indicate that human M phi subsets exist that differ in their ability to function as accessory cells. Although IL 1 can collaborate with certain M phi subsets to restore their accessory cell function, it cannot replace intact M phi. Thus, it is possible that other monokines or lymphokines play a role in M phi accessory cell function.     

Role of macrophages as modulators but not as autonomous accessory cells in the proliferative response of immune T cells to soluble antigen

The role of murine macrophages (M phi) and that of splenic dendritic cells (DC) were investigated in the antigen-specific proliferative response of memory T cells of mice primed with key-hole limpet hemocyanin (KLH) 6 weeks or more before. Peritoneal M phi, whether expressing Ia antigens or not, did not function as autonomous accessory cells (A cells). A-cell activity of the spleen adherent cell population, which comprised M phi in the majority and DC in the minority, was abolished by eliminating DC with a DC-specific monoclonal antibody and complement, and regained by the addition of a small number of DC. Though M phi did not function as autonomous A cells, they augmented the proliferative response in the presence of a small number of DC. This occurred not only in the presence of free antigen, but also when DC and/or M phi were pulsed with antigen. A culture supernatant of M phi having interleukin-1 activity was effective in enhancing the proliferation of T cells which responded to antigen-pulsed DC. On the other hand, interleukin-2 did not replace DC even in the presence of antigen-pulsed Ia+ M phi. We also investigated recently primed T cells, but no evidence was obtained in favor of the competence of M phi as autonomous A cells.     

Stimulation of human peripheral blood lymphocytes by periodate, galactose oxidase, soybean agglutinin, and peanut agglutinin: differential effects of adherent cells.

Blastogenic responses of normal human peripheral lymphocytes to three distinct groups of mitogens were studied: Group I--phytohemagglutinin (PHA), concanavalin A (Con A), and pokeweed mitogen (PWM); Group II--soybean agglutinin (SBA) and peanut agglutinin (PNA); and Group III--galactose oxidase (GO) and sodium periodate (IO4-). SBA was mitogenic for human cells, and this effect was enhanced by treating the cells with neuraminidase (NA). PNA was mitogenic only after cells had been treated with NA. GO was effective before and activity was increased after lymphocytes were treated with NA. Responses to Group II and III mitogens were more variable than were those to Group I mitogens. Studies with purified T and B cells indicated that SBA and PNA were T cell mitogens, whereas IO4- and GO failed to stimulate either T or B cells. Adding macrophages back to this system indicated that they were both T cell mitogens with strict macrophage requirements. T cell responses to SBA and PNA were enhanced over responses to unfractionated cells to a degree that could not be explained simply by enrichment of the cultures with T cells. Removal of adherent cells from unfractionated cell suspensions again revealed a marked enhancement of responses to SBA and PNA, a consistent decrease in responses to IO4-, and a variable decrease in responses to GO. Similar results were found with 14C-leucine and 3H-uridine incorporation, as well as 3H-thymidine for the assessment of bastogenic response. Mechanisms responsible for these differential effects of macrophage depletion on lymphocyte responses to different groups of mitogens are yet to be determined. Either different mitogens require different lymphocyte to macrophage ratios for optimal stimulation, or some mitogens (i.e., SBA and PNA) form inhibitory complexees in the lymphocyte-macrophage mixture. In any case, variability in response to mitogenic agents in normal as well as pathologic states may be dependent on adherent cell populations, rather than on the lymphocytes themselves.     

Purine nucleoside modulation of functions of human lymphocytes.

The accumulation of endogenous substrates in patients with adenosine deaminase deficiency or purine nucleoside phosphorylase deficiency is believed to be responsible for the immunodeficiency observed in these patients. To identify the lymphocyte populations that are most susceptible to these substrates, we investigated the effect of their nucleoside analogs on a number of T and B cell functions of human lymphocytes. We found that tubercidin (Tub), 2-chloro 2'deoxyadenosine (2CldA), 2-fluoro adenine arabinoside-5'phosphate (FaraAMP), and 9-beta-D-arabinosyl guanine (AraGua) inhibited the proliferative responses of human peripheral blood mononuclear cells (PBMC) to polyclonal activators (PHA, OKT3 mab) or to allogeneic PBMC in mixed lymphocyte cultures (MLC). Addition of recombinant IL-2 from the beginning of the culture did not alter the inhibition by Tub of the proliferative responses of PBMC. These purine nucleoside analogs also inhibited the proliferative responses of purified human peripheral blood CD4+ and CD8+ T cells to PHA and of purified B cells to SAC. The concentrations of these nucleosides required to achieve a given degree of inhibition of proliferative responses of T lymphocyte subpopulations or B cells was similar, suggesting that these analogs do not exhibit any selectivity for these purified lymphocyte populations. Tub and FaraAMP, respectively, inhibited and enhanced, at the effector phase, both NK cytotoxicity and specific T cell-mediated cytotoxicity. In contrast to these findings, LAK cytotoxicity at the effector phase was not significantly inhibited by Tub, and was not enhanced by FaraAMP. Both analogs inhibited rIL-2-induced proliferative responses of PBMC, but did not affect the generation of LAK cytotoxicity (induction phase) against the K562 targets when added at the beginning of the culture. This suggests that DNA synthesis is not required for LAK cell induction. Both Tub and FaraAMP inhibited immunoglobulin production (IgG and IgM) by PBMC in the PWM-induced system. These results demonstrate that purine nucleoside analogs significantly inhibited a number of functions of human lymphocytes. Although selectivity for T lymphocyte subpopulations and B cells was not observed, a differential effect of Tub and FaraAMP on LAK cytotoxicity versus NK cytotoxicity and specific T cell cytotoxicity was found.     

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.     

Sodium periodate-induced T cell mitogenesis: an analysis of the requirement for Ia and IL 1

T lymphocytes oxidized with the mitogen sodium periodate undergo a proliferative response when cultured in the presence of Ia+ accessory cells. However, the exact role(s) the accessory cells play in such a response has not been clearly defined. We have evaluated the role of Ia and the requirement for interleukin 1 (IL 1) in periodate mitogenicity by using the Ia+ cloned tumor cell lines P388AD (Ia+, IL 1 inducible) and P388NA (Ia+, IL 1 noninducible) as accessory cells. P388AD but not P388NA was able to supply accessory cell function to periodate-treated T cells, suggesting that Ia expression alone was not sufficient to reconstitute a response. Monoclonal anti-I-Ad and anti-I-Ed antibody blocked the accessory cell function of P388AD. In addition, monoclonal antibody GK 1.5, directed against the T cell determinant L3T4a, blocked the P388AD/periodate-treated T cell interaction, confirming that this interaction was restricted by class II molecules. Although Ia expression was required, the response was not major histocompatibility complex (MHC) restricted, because allogeneic as well as syngeneic macrophages were capable of supplying accessory cell function to periodate-treated T cells. Exogenous IL 1 alone was able to trigger periodate-treated T cells, suggesting that Ia was required for the induction of IL 1 synthesis by the accessory cells. Furthermore, purified IL 2, devoid of IL 1 activity, was able to fully reconstitute the proliferative response of accessory cell-depleted oxidized T cells to a level equal to that of whole spleen accessory cells or P388AD. These data suggest that periodate-treated T cells can proliferate with IL 1 alone and that Ia+ accessory cells in periodate-mediated T cell mitogenicity may function in the release of IL 1 and the induction of IL 2 synthesis by the T cells.     

Synergistic effect of concanavalin A and Bu-WSA on DNA synthesis in human peripheral blood lymphocytes

Butanol-extracted water soluble adjuvant (Bu-WSA) obtained from Bacterionema matruchotii was not mitogenic for human peripheral blood mononuclear cells (PBM) but was capable of enhancing (3H) thymidine uptake of T cells stimulated by concanavalin A (Con A) in the presence of B cells or macrophages (M phi) in vitro. The mechanisms of the synergy of Con A and Bu-WSA were studied by using separated cell populations from PBM. Both subfractioned OKT4+ and OKT8+ cells were responsive to co-stimulation by Con A and Bu-WSA in the presence of an accessory cell population. Allogeneic B cells and M phi as well as autologous cells had helper function as accessory cells. Heavy irradiation with gamma-rays did not affect the function of the accessory cells, but previous treatment of B cells with anti-Ig serum plus complement (C) or treatment of M phi with anti-M phi serum plus C deprived them of their function. The treatment of accessory cells with anti-HLA-DR serum, regardless of the presence or absence of C, resulted in loss of their helper function. Cultures in Marbrook-type vessels showed that a mixed cell population of T cells and accessory cells in the lower chamber produced some active factor(s) after co-stimulation with Con A and Bu-WSA, and by passing through the membrane filter separating the chambers, the factor(s) enhanced the proliferation of the Con A-activated T cell population in the upper chamber. The factor(s) was presumed to be interleukin 2 (IL 2), because it supported the growth of IL 2-dependent CTLL cells. These results indicate that the synergy of Con A and Bu-WSA on the proliferative response of human PBM is due to the elevation of growth factor production from T cells stimulated by those mitogens.     

Role of class II histocompatibility antigens in Staphylococcus aureus protein A-induced activation of human T lymphocytes

The capacity of peripheral blood monocytes and B lymphocytes to support staphylococcal protein A (SpA)-induced proliferation of autologous and allogeneic T cells, as well as the role of major histocompatibility complex (MHC) class I and II molecules in this activation process, were investigated. Highly purified peripheral T lymphocytes did not proliferate in response to SpA, but their response was reconstituted by both irradiated (or mitomycin C-treated) monocytes and B lymphocytes. The effect of B cells on the SpA-induced T-cell response could not be explained by a contamination of residual accessory cells because long-term continuous B-cell lines restored SpA-induced T-cell DNA synthesis as effectively as did monocytes. Support of SpA responsiveness by B cells could not be accounted for by polyclonal binding of SpA to cell surface immunoglobulins, since the ability of SpA-unreactive and SpA-reactive B cells was comparable. The cells from two human leukemic lines--K562 and Raji--showed the same ability in supporting the pokeweed mitogen-induced T-cell response, but the class II-positive Raji cells were much more effective than class II-negative K562 cells in restoring the T-cell responsiveness to SpA. Monoclonal antibodies specific for monomorphic determinants of MHC class II antigens, as well as their F(ab')2 fragments, consistently inhibited the SpA-induced proliferative response, whereas antibodies specific for MHC class I antigens were without effect. The antibodies specific for class II antigens appeared to act at the level of accessory cell, since pretreatment with these antibodies inhibited the ability of SpA-pulsed monocytes or Raji cells to present SpA to autologous or allogeneic T lymphocytes, respectively. These data indicate that either monocytes or normal and lymphoblastoid B cells can act as accessory cells for the proliferative response of human T cells to soluble SpA and that monomorphic determinants of MHC class II molecules play an important role in this activation process.     

Human in vitro allogeneic responses. Demonstration of three pathways of T helper cell activation

In our study, we have measured in vitro proliferation and IL-2 production by human PBL to characterize the interactions between Th cells and accessory cells (AC) involved in responses to either conventional Ag or alloantigens. IL-2 production and proliferative responses to conventional Ag, such as influenza or tetanus, are exclusively dependent on the presence of CD4+ T cells and AC. In contrast, IL-2 and proliferative responses to alloantigen can be mediated by either CD4+ or CD8+ T cells. CD4+ T cells respond to alloantigen using either autologous AC (self-restricted), or allogeneic AC (allo-restricted), whereas CD8+ T cells respond to alloantigen using allogeneic AC only. The understanding of Th cell-AC interactions involved in in vitro allogeneic responses will be important for delineating the Th cell-AC interactions involved in transplantation immunity as well as in clinical disorders characterized by T cell dysfunction such as human immunodeficiency virus infection and systemic lupus erythematosus.     

Human B lymphoblastoid cell lines provide an interleukin 1-like signal for mitogen-treated T lymphocytes via direct cell contact

The B lymphoblastoid cell lines (B-LCL) 8392, SB, 1788, and Daudi provide accessory cell activity for mitogen-treated T cells, whereas the T lines MOLT-4, 8402, CEM, and HSB do not provide this function. Direct cell contact is required for the accessory cell activity, and active lymphocyte growth factors could not be detected in the supernatants of the B-LCL. The B-LCL also present alloantigens to responding T cells, and this response is independent of additional accessory cells. The target for the B-LCL is the responding T cell itself, rather than a minor contaminating population of endogenous accessory cells. This conclusion is based on the finding that, under culture conditions in which T cells do not proliferate in response to PHA, accessory cell activity of the B-LCL is maintained. Paraformaldehyde- or glutaraldehyde-treated B-LCL retain their accessory cell activity at levels of these agents that completely eliminate metabolic activity of the B-LCL, as determined by incorporation of leucine, thymidine, and uridine into macromolecules. This treatment eliminates alloantigen presentation by the B-LCL. T cells treated with IO-4 or with monoclonal anti-T3 antibodies fail to respond to highly purified IL 1, and respond minimally to supra-optimal concentrations of IL 2. Nevertheless, these cells respond maximally to the accessory cell activity of the B-LCL. The IO-4 treated cells or cells exposed to anti-T3 also proliferate in response to TPA. Together, our data suggest that the B-LCL provide an IL 1-like signal for mitogen-treated T cells via direct cell contact, in the absence of detectable soluble IL 1.     

The immunosuppressive activity of L-leucyl-L-leucine methyl ester: selective ablation of cytotoxic lymphocytes and monocytes

L-Leucyl-L-leucine methyl ester (Leu-Leu-OMe), a dipeptide condensation product of L-leucine methyl ester generated by human monocytes (M phi) or polymorphonuclear leukocytes, eliminates all natural killer cell (NK) function from mixed lymphocyte populations. In the present studies, the specificity of the action of Leu-Leu-OMe was examined. It was found that a variety of tissue culture cells and tumor lines of nonlymphoid origin were completely resistant to any demonstrable Leu-Leu-OMe-mediated toxicity. Furthermore, the erythroleukemia line K562, the T cell line Molt-4, the B cell lines HS-Sultan and Daudi, and EBV-transformed B cell lines were unaffected by concentrations of this compound that completely eliminated NK cells. Similarly, the vast majority of OKT4+ lymphocytes manifested no significant toxicity after Leu-Leu-OMe exposure. Furthermore, they retained the capacity to proliferate normally in response to allogeneic cells as well as the ability to provide help for the generation of immunoglobulin-secreting cells (ISC). However, Leu-Leu-OMe caused partial depletion of OKT8+ cells from mixed populations of lymphocytes. After such exposure, the remaining OKT8+ cells were still capable of proliferating in mixed lymphocyte cultures, but the suppressive effect of these cells on ISC generation was abolished. Furthermore, both precursors and activated effectors of cytotoxic T lymphocyte (CTL) and activated NK-like activity generated in mixed lymphocyte cultures were eliminated by exposure to low concentrations of Leu-Leu-OMe. Indeed, both OKT4+ and OKT8+ CTL were eliminated by Leu-Leu-OMe. In addition, both peripheral blood M phi and U937 cells, a human cell line with many M phi-like characteristics, were sensitive to Leu-Leu-OMe-mediated toxicity, although only at two- to fivefold higher concentrations than those completely eliminating NK cells. These findings indicate that Leu-Leu-OMe has selective toxicity for NK cells, CTL, and M phi without adverse effects on a variety of other lymphoid or nonlymphoid cell types.