Chemically related antigens compete for presentation by accessory cells to T cells

Immune responsiveness of guinea pigs to dinitrophenyl-poly-L-lysine (DNP-PLL) and to the lysine-rich random copolymer of L-glutamic acid and L-lysine (GL) are both controlled by the "poly-L-lysine gene." We demonstrate that accessory cells of responder strains can be made incapable of presenting DNP-PLL to response T cells in assays for proliferation by in vitro exposure of the cells to GL before and during their exposure to DNP-PLL. The inhibition was not rapidly reversible, because GL preexposed accessory cells that were cultured for 2 hr in GL-free medium were still refractory to pulsing with DNP-PLL. In contrast, DNP-PLL had only a moderate inhibitory effect on accessory cell presentation of GL. Unconjugated poly- and oligo-lysines also inhibited the ability of accessory cells to present DNP-PLL, but inhibitory activity was displayed only by homopolymers containing eight to 12 or more residues in the chain. The homopolymers of D-lysine, L-arginine, and L-glutamic acid, and lysine-free glutamic acid-rich copolymers had little or no inhibitory effect. The results are interpreted to mean that antigens to which responsiveness is regulated by the same Ir gene compete for presentation by accessory cells. This may reflect a competition for the Ir gene product of the antigen-presenting cell.     

Possible involvement of transglutaminase in endocytosis and antigen presentation

Experiments were carried out to determine as to whether or not internalization of antigen is necessary for subsequent antigen presentation by accessory cells using monoamines which are known as transglutaminase (TGase) inhibitors. It was found that endocytosis for immune complexes via Fc receptors such as sheep erythrocytes coated with IgG class antibody (EA) was different from receptor-independent endocytosis for soluble protein such as horse radish peroxidase (HRP) in the sensitivity to monoamines; methylamine inhibited the receptor-dependent endocytosis of immune complexes at a concentration of over 20 mM and the receptor-independent endocytosis of HRP at 2 mM, while dansylcadaverine (DC) inhibited both at a concentration of 100 microM. It was noteworthy that antigen-specific T cell proliferation to splenic adherent cells pulsed with DNP9.6-ovalbumin (DNP9.6-OVA) was blocked strongly by DC as well, but weakly by methylamine. These results suggest the possibility that antigen presentation requires internalization of antigen by a mechanism such as receptor-dependent endocytosis for the subsequent reexpression of antigen on membranes. Furthermore, it was confirmed that TGase activity is high in peritoneal exudate and spleen adherent cells, both of which have accessory cell activities for lymphocytes, suggesting the possibility that TGase might be involved intimately in receptor-dependent endocytosis and subsequent antigen presentation.     

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.     

Weak base amines can inhibit class I MHC-restricted antigen presentation

This report describes the effects of NH4Cl, CH3NH2, and chloroquine on class I and II MHC-restricted Ag presentation. OVA-specific T-T hybridomas were used to detect processed OVA in association with class I, H-2Kb, and class II, I-Ad/b, molecules on a B lymphoblastoid APC. OVA, internalized by APC under hypertonic conditions, was presented in association with class I and II MHC molecules. Treating the APC with NH4Cl or CH3NH2 inhibited class I- and II-restricted Ag presentation. In contrast, chloroquine markedly inhibited class II, but not class I-restricted Ag presentation. Controls indicated that drug-treated APC were fully competent to interact with T cells and present processing-independent antigenic peptides in association with both class I and II MHC molecules. NH4Cl and CH3NH2 did not inhibit the uptake of radiolabeled Ag by the APC. After the proteolytic removal of H-2Kb from the surface of APC, NH4Cl and CH3NH2-treated and control APC regenerated identical amounts of surface H-2Kb and this regeneration required de novo protein synthesis. These latter results indicate that NH4Cl and CH3NH2 can inhibit Ag presentation without affecting the synthesis, transport, or surface expression of H-2Kb. Also, NH4Cl did not affect the transport of H-2Db to the surface of mutant RMA-S cells that were cultured with exogenous peptides. Taken together these results strongly suggest that NH4Cl and CH3NH2 but not chloroquine can inhibit a critical and early intracellular step in class I-restricted Ag presentation while simultaneously inhibiting class II-restricted Ag presentation.     

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

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

Arsonate-specific murine T cell clones. II. Delayed-type hypersensitivity induced by P-azobenzenearsonate-L-tyrosine (ABA-Tyr)

To study T cell idiotype expression at the functional level, we developed a hapten-specific delayed-type hypersensitivity (DTH) system by which we avoid the complication of anti-hapten antibody and which is specific only for the immunizing hapten, and not for conjugate specific determinants. Immunization with ABA-Tyr and challenge with ABA diazonium induced footpad swelling with the characteristics of DTH. Anti-ABA antibodies did not contribute to this reaction, as they were undetectable in mice immunized with ABA-Tyr. Furthermore, this ABA-Tyr-specific DTH was under Ir gene control identical to that reported for ABA-Tyr-specific lymphocyte proliferation. All mouse strains tested responded to ABA-Tyr except those of the b haplotype across the entire Ia region. In contrast, contact sensitivity induced by ABA diazonium was not under apparent Ir gene control, probably reflecting 1) different specificities of the induced T cells and 2) the production of anti-ABA antibodies that contribute to the footpad swelling via an Arthus reaction. Having shown that ABA-Tyr can induce T cells mediating DTH, we then examined ABA-Tyr-reactive T cell clones, propagated in vitro, for their ability to mediate DTH. Such clones elicited a response identical to that seen with in vivo immunization with respect to dose dependency, I-Ak restriction, and antigen specificity.     

Epstein-Barr virus-transformed B cells process and present Mycobacterium tuberculosis particulate antigens to T-cell clones

We have analyzed the presentation of mycobacterial antigens by Epstein-Barr virus-transformed human B (EBV-B) cells to mycobacteria-specific T-cell clones and lines, and to purified resting T cells. EBV-B cells were able to process and present not only soluble forms of antigen, such as PPD and the expressate preparation of M. tuberculosis strain H37Rv, but also particulate forms of antigen, such as whole mycobacterial H37Rv or M. bovis organisms. Electron microscopy studies demonstrated the capacity of EBV-B cells to phagocytose mycobacterial cells in 18 hr and pulsing experiments confirmed that an 18-hr of incubation is required for an efficient processing and presentation of mycobacterial determinants to T cells. The processing of whole-H37Rv particulate antigen by EBV-B cells was inhibited by the lysosomotrophic compound chloroquine and by high doses of irradiation. Finally, the analysis of the presentation of soluble and particulate mycobacterial antigens by PPD-positive and PPD-negative EBV-B cell clones has shown a preferential presentation of both forms of antigen by PPD-positive EBV-B clones.     

Leishmania antigens are presented to CD8+ T cells by a transporter associated with antigen processing-independent pathway in vitro and in vivo

CD8+ T cells are generated in response to Leishmania major (Lm) or Toxoplasma gondii parasitic infections, indicating that exogenously delivered Ag can be processed for presentation by MHC class I molecules. We show that presentation of Lm nucleotidase (NT)-OVA is TAP independent in vivo and in vitro, and is inhibited by chloroquine, but not by proteasome inhibitors. In contrast, the presentation of T. gondii P30-OVA relies on the TAP/proteasome pathway. Presentation of OVA- or rNT-OVA-coated beads also bypassed TAP requirement above a certain Ag threshold. TAP was also dispensable for the presentation of wild-type Lm Ags to primed CD8+ T cells in vitro. Finally, in vivo priming of CD8+ T cells involved in acquired resistance to Lm was not compromised in TAP-deficient mice. Thus, Leishmania Ags appear to be confined to an intraphagosomal processing pathway that requires higher concentrations of Ags, suggesting that these parasites may have evolved strategies to impair the efficient endoplasmic reticulum-based, TAP-dependent cross-presentation pathway to avoid or delay CD8+ T cell priming.     

Evidence for an intercellular covalent reaction essential in antigen-specific T cell activation

The inductive interaction between class II+ APC and Th cell was investigated in a human system at the chemical level. The study set out to test the predictions of a model of Ag presentation in which epsilon-amino groups and carbonyl groups at the surface of APC and T cell react covalently to form reversible intercellular Schiff bases. In the experimental system of oxidative mitogenesis this process results in T cell activation. If oxidative mitogenesis is an experimental amplification of a physiologic process, and intercellular Schiff base formation is essential in Ag presentation, then it should be possible to inhibit Ag presentation by prior formation of Schiff bases on the surface of participating cells. In this situation Ag-induced T cell activation and T cell activation induced by periodate oxidation should invariably behave in the same way. It should also be possible to demonstrate Schiff base formation occurring between accessory cells and lymphocytes directly and definitively by means of specific reduction with sodium cyanoborohydride. Aldehyde treatment of accessory cells should prevent this intercellular Schiff base formation. In this study the following observations were made. 1) Both Ag-specific and periodate-induced T cell activation were inhibited by aldehyde treatment of class II+ accessory cells. 2) Noncross-linking donors of carbonyl groups other than aldehydes inhibited Ag-specific T cell activation. 3) Brief, low-dose treatment of T cells with aldehydes inhibited Ag-dependent T-cell activation. 4) Exogenous amino groups in the form of lysine and other amino acids inhibited both Ag-specific and periodate-induced T-cell activation. 5) The weak reducing agent sodium cyanoborohydride which is specific for Schiff bases at neutral pH inhibited both Ag-induced and periodate-induced T cell activation. Responses to PHA were markedly prolonged by this reagent. 6) Schiff base formation occurring between accessory cells and lymphocytes was detected directly and definitively by means of radiolabeling with NaCNB(3H)3 at neutral pH. These data are consistent with the view that the formation of reversible covalent Schiff bases between ligands on APC and T cell is an essential process in Ag-induced T cell activation.     

Artificial T cell:B cell conjugation. A unique approach to analyze weak cell-cell interactions

An antibody response against a thymic-dependent Ag requires cognate recognition of the Ag by B and T cells. Functional T-B cell (T-B) interaction involves binding of Ag by B cell surface Ig, internalization and processing of Ag, expression of an Ag fragment in the context of Ia, binding of Ag/Ia by the TCR and binding of T cell-derived lymphokines by B cell lymphokine receptors. It is becoming increasingly evident that B and T cell accessory molecules also are involved in T-B interactions. To determine the role of accessory molecules in T-B collaboration, we have designed a system in which T-B interaction was artificially induced in the absence of carrier protein. TNP-modified, turkey gamma-globulin-specific, Th cells were allowed to form conjugates with TNP-specific B cells in the absence of hapten-carrier complex. Both B and T cells were induced to proliferate and B cells partially differentiated into antibody-secreting cells when B cells were cultured with TNP-modified but not unmodified T cells. The activation of B cells by TNP-modified T cells was not MHC restricted but was blocked by anti-Ia antibodies, suggesting a role for Ia distinct from Ag presentation. Furthermore, B cell proliferation was also inhibited by antibodies to L3T4 and LFA-1, suggesting a functional accessory role for these molecules in induction of B cell proliferation/differentiation.     

Efficient MHC Class II-restricted presentation of measles virus to T cells relies on its targeting to its cellular receptor human CD46 and involves an endosomal pathway

The role of the measles virus (MV) receptor, human CD46, in the uptake of MV and antigen presentation by Major Histocompatibility Complex (MHC) class II molecules was investigated. Expression of CD46 in murine B cells resulted in cells highly efficient in capturing UV-inactivated MV particles and presenting both envelope hemagglutinin H and nucleoprotein N to specific T cell hybridomas. Although MV fuse with the plasma membrane of its target cells, presentation of both MV-H and -N was sensitive to inhibition by chloroquine but was not affected by a tripeptide which prevents virus-cell fusion. Whereas 50 μM of chloroquine was required to inhibit presentation of MV-H, purified H or soluble N, only a two-fold lower concentration was required to inhibit that of MV-N. This shows that some CD46-mediated captured MV particles are endocytosed, then disrupted and processed in an endosome/lysosome compartment.     

PROTEIN DEGRADATION IN CULTURED CELLS : II. The Uptake of Chloroquine by Rat Fibroblasts and the Inhibition of Cellular Protein Degradation and Cathepsin B1

The degradation of cellular proteins in fibroblasts, both those of rapid and those of slow turnover rates, was inhibited by low concentrations of chloroquine or neutral red in the medium. Cells inhibited by chloroquine can be inhibited further by fluoride. Chloroquine was taken up by the fibroblasts and the concentration in the cells reached several hundred times that in the medium. Isopycnic fractionation studies showed that within the cells the chloroquine was concentrated in the lysosomes, and that these chloroquine-containing lysosomes had a lower equilibrium density than the lysosomes of untreated cells. Chloroquine, at concentrations attained inside the lysosomes, inhibited cathepsin B₁ but not cathepsin D. It is concluded that chloroquine impairs the breakdown of cellular proteins after these have entered the lysosome system, probably through inhibition of cathepsin B₁.     

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.     

Immunological maturation in cell-mediated immunity in the rat: fine specificity discrimination by the cells responsible for peritoneal cell migration inhibition, and its increase with time after sensitization.

Two weeks or longer after sensitization of inbred Sprague-Dawley rats with ABA-Tyr in CFA, peritoneal cell migration in vitro was inhibited in the presence of the immunogen, which strengthened the concept that migration inhibition is a correlate of delayed hypersensitivity also in the rat. After sensitization with one of three strongly cross-reacting conjugates ABA-Tyr, ABA-His, or ABA-Try, the cells responsible for antigen recognition in migration inhibition could discriminate between the homologous and heterologous conjugates added to the culture medium. The degree of fine specificity discrimination increased significantly from 3 to 35 wk after sensitization, which showed that the average affinity of the recognition structures involved increased with time after sensitization.     

Isolation of chloroquine-resistant Chinese hamster V79 cell variants that are also resistant to ammonium chloride

Chloroquine-resistant (CQr) clones (CQ-21 and CQ-22) have been isolated from mutagenized hamster lung V79 cells by exposing the cells to a high dose of chloroquine. CQ-21 and CQ-22 showed about 3-fold higher resistance to chloroquine than the parental V79 cells, and they showed specific cross-resistance to another amine, NH4Cl, which is also concentrated in lysosomes. CQr clone showed no cross-resistance to other unrelated agents. Chloroquine-induced inhibition of [125I]ricin internalization was observed in both cell lines at neutral pH, but the inhibition of uptake was less in the variant. Also, the degradation of endogenous protein was slowed in the mutant; further, treatment of cells with 30 micrograms/ml of chloroquine inhibited the degradation of endogenous proteins in the parental V79, but not in CQ-22 cells. Similar levels of acid phosphatase, beta-glucuronidase and cathepsin D were observed in V79 and CQ-22 cells, but the level of cathepsin B was lower in the mutant. Electron microscopy showed an increased number of electron-dense bodies, possibly autophagosomes/lysosomes, in the mutant cells grown for 4 days with 5 micrograms/ml of chloroquine. Similar aberrant structures were observed in the parental V79 cells treated for only 3 h with 5 micrograms/ml of chloroquine.     

Inhibition of rat hepatic mixed function oxidases by antimalarial drugs: selectivity for cytochromes P-450 and P-448

Intraperitoneal administration of chloroquine, primaquine and quinacrine to rats resulted in inhibition of the hepatic microsomal mixed-function oxidases. The N-demethylation of benzphetamine (cytochrome P-450) was inhibited by chloroquine only while the O-deethylation of ethoxyresorufin (cytochrome P-448) was inhibited by primaquine and quinacrine. When incubated with hepatic microsomes from phenobarbital-pretreated rats, chloroquine and primaquine, but not quinacrine, caused a concentration-dependent inhibition of benzphetamine N-demethylase activity. Incubation of hepatic microsomes from beta-naphthoflavone rats with primaquine and quinacrine, but not chloroquine, resulted in a concentration-dependent inhibition of the O-deethylation of ethoxyresorufin. These observations demonstrate that chloroquine and quinacrine are specific inhibitors of cytochromes P-450 and P-448, respectively.     

Antigen presentation by human monocytes: evidence for stimulant processing and requirement for interleukin 1

We studied the role of stimulant processing and presentation and of IL 1 in monocyte-mediated activation of human lymphoproliferative responses. The effects of two lysosomotropic agents, ammonium chloride and chloroquine, on the capacity of human monocytes to activate T lymphocyte responses to the soluble antigen streptolysin O (SLO) and to the polyclonal stimulant S. aureus protein A (SpA) were investigated. These agents inhibited the presentation of SLO and SpA by human monocytes in a dose-dependent manner. The inhibition occurred if monocytes were treated with ammonium chloride and chloroquine for 1.5 hr, starting only 30 min after exposure to the stimulants, whereas only minimal inhibition occurred when monocytes were treated with the two lysosomotropic compounds 2 hr after pulsing with SLO or SpA. In contrast, cell membrane alloantigen presentation by monocytes in the MLR was not affected by ammonium chloride or chloroquine treatment. Thus, these reversible inhibitors of monocyte phagosome-lysosome functions presumably interfere with intracellular processing of the stimulants but do not seem to interfere with alloantigen presentation at the cell surface. Furthermore, we investigated whether gently fixed monocytes were still capable of passively presenting stimulant or whether active metabolic processes as well as IL 1 were required. We observed that only monocytes treated with paraformaldehyde after SLO or SpA pulsing stimulated a proliferative response by T lymphocytes, provided 50 U/ml of partially purified human IL 1 were added back to cultures. In contrast, monocytes fixed before exposure to SLO or SpA were not able to stimulate T lymphocytes even if supplemented by IL 1. Taken together these data suggest that a finite incubation period is required for human monocytes to become able to present SLO or SpA to T lymphocytes. During this time the soluble stimulants presumably undergo some metabolic process in viable macrophages perhaps at the phagosome-lysosome level, to become recognizable by T lymphocytes.     

Cholesteryl ester hydrolysis in J774 macrophages occurs in the cytoplasm and lysosomes

The relationship of cholesteryl ester hydrolysis to the physical state of the cholesteryl ester in J774 murine macrophages was explored in cells induced to store cholesteryl esters either in anisotropic (ordered) inclusions or isotropic (liquid) inclusions. In contrast to other cell systems, the rate of cholesteryl ester hydrolysis was faster in cells containing anisotropic inclusions than in cells containing isotropic inclusions. Two contributing factors were identified. Kinetic analyses of the rates of hydrolysis are consistent with a substrate competition by co-deposited triglyceride in cells with isotropic inclusions. In addition, hydrolysis of cholesteryl esters in cells with anisotropic droplets is mediated by both cytoplasmic and lysosomal lipolytic enzymes, as shown by using the lysosomotropic agent, chloroquine, and an inhibitor of neutral cholesteryl ester hydrolase, umbelliferyl diethylphosphate. In cells containing anisotropic inclusions, hydrolysis was partially inhibited by incubation in media containing either chloroquine or umbelliferyl diethylphosphate. Together, chloroquine and umbelliferyl diethylphosphate completely inhibited hydrolysis. However, when cells containing isotropic inclusions were incubated with umbelliferyl diethylphosphate, cholesteryl ester hydrolysis was completely inhibited, but chloroquine had no effect. Transmission electron microscopy demonstrated a primarily lysosomal location for lipid droplets in cells with anisotropic droplets and both non-lysosomal and lysosomal populations of lipid droplets in cells with isotropic droplets.These results support the conclusion that there is a lysosomal component to the hydrolysis of stored cholesteryl esters in foam cells.     

Characterization of the signaling function of MHC class II molecules during antigen presentation by B cells.

In addition to their role as peptide binding proteins, MHC class II proteins can also function as signal transducing molecules. Recent work using B cells expressing genetically engineered truncated MHC class II molecules has suggested that signaling through the cytoplasmic domains of these proteins plays an important role in the generation of signals required for the activation of some T cell hybrids. Treatment of truncated Ia-expressing B cells with cAMP-elevating agents corrects the deficiency in Ag presentation by these cells. We report that the MHC class II-mediated signal appears to act by a mechanism that increases the efficiency of Ag presentation by B cells thereby lowering the amount of specific Ag required for T cell activation. We further show that the induction of the cAMP-induced signal in B cells is inhibited by cycloheximide and cytochalasin A, implicating protein synthesis as well as cytoskeletal rearrangements in Ag presentation to accessory signal- dependent hybrids. In contrast, these agents do not block Ag presentation to a T cell hybrid previously shown not to require the cAMP-induced signal for activation. The signal-dependent T hybrid is additionally dependent on LFA-1-ICAM-1 interaction for activation, whereas the signal-independent hybrid is not. These observations suggest the existence of two types of T cell hybrid with respect to their requirements for activation: those that require only the recognition of MHC class II-peptide complexes without accessory signals, as shown by their ability to respond to purified Ia on planar membranes, and those that, in addition to recognition of MHC II/Ag, require LFA-1-ICAM-1 interaction and the delivery of additional signal(s) induced in the B cell via signal transduction through MHC class II molecules.     

Granulocyte-macrophage colony-stimulating factor activates macrophages derived from bone marrow cultures to synthesis of MHC class II molecules and to augmented antigen presentation function

The effects of granulocyte-macrophage (GM)-CSF on the synthesis of MHC class II molecules and on the Ag presentation capacity by bone marrow derived macrophages (BMM phi) was investigated. BMM phi obtained by in vitro culture in the presence of macrophage-CSF were negative for synthesis of I-A molecules and induced the Ag-mediated proliferation of insulin-specific T clone cells with lower efficiency than splenic accessory cells. After pulse treatment with GM-CSF for 24 to 48 h, day 12 BMM phi exhibited highly efficient Ag presentation function which was superior to that induced by IFN-gamma. Expression of membrane-bound IL-1 was augmented significantly by GM-CSF, but not by IFN-gamma. However, the T cell clone used to probe for accessory cell function of BMM phi was not dependent on IL-1 for optimal proliferation. Concomitantly, GM-CSF induced the de novo synthesis of I-A molecules, although to a lesser extent than optimal doses of IFN-gamma. Thus GM-CSF appears to elicit properties in addition to Ia molecule synthesis and membrane IL-1 expression in BMM phi being essential for efficient accessory cell function to the T clone cells. The activation of BMM phi by GM-CSF was reversible and could be repeated. These data show that GM-CSF exerts a modulatory influence on preformed BMM phi, reversibly activating cells to Ia biosynthetic potential and pronounced accessory cell capacity, thus rendering the explanation unlikely that differentiation of precursor cells into a constitutively functional state had occurred.