Synthesis and expression of MHC class II molecules in the absence of attached invariant chains by recombinant-interferon-gamma-activated bone-marrow-derived macrophages

Inhibition of invariant chain expression in dendritic cells presenting endogenous antigens stimulates CD4+ T-cell responses and tumor immunity

Induction of potent and sustained antiviral or antitumor immunity is dependent on the efficient activation of CD8+ and CD4+ T cells. While dendritic cells constitute a powerful platform for stimulating cellular immunity, presentation of endogenous antigens by dendritic cells transfected with nucleic acid-encoded antigens favors the stimulation of CD8+ T cells over that of CD4+ T cells. A short incubation of mRNA-transfected dendritic cells with antisense oligonucleotides directed against the invariant chain enhances the presentation of mRNA-encoded class II epitopes and activation of CD4+ T-cell responses in vitro and in vivo. Immunization of mice with the antisense oligonucleotide-treated dendritic cells stimulates a more potent and longer lasting CD8+ cytotoxic T-cell (CTL) response and enhances the antitumor efficacy of dendritic cell-based tumor vaccination protocols. Transient inhibition of invariant chain expression represents a simple and general method to enhance the stimulation of CD4+ T-cell responses from endogenous antigens.

MHC Class II Expression in Double Mutant Mice Lacking Invariant Chain and DM Functions

Invariant (Ii) chain and DM functions are required at distinct stages during class II maturation to promote occupancy by diverse peptide ligands. The class II molecules expressed by mutant mouse strains lacking Ii chain or DM activities display discrete structural and functional abnormalities. The present report describes the cellular and biochemical characteristics of Ii−DM− doubly deficient mice. As for Ii chain mutants, their mature AαbAβb dimers similarly exhibit reduced mobilities in SDS-PAGE, and in functional assays these molecules behave as if empty or occupied by an easily displaced peptide. Additionally, the present experiments demonstrate that the production of floppy AαbAβb dimers is TAP independent. In comparison with Ii chain mutants, Ii−DM− doubly deficient cell populations exhibit increased peptide binding activities and consistently greater presentation abilities in T cell stimulation assays. These functional differences appear to reflect higher class II surface expression associated with their increased representation of B lymphocytes. We also observe defective B cell maturation in mice lacking Ii chain or DM expression, and interestingly, B cell development appears more severely compromised in Ii−DM− double mutants. These mutant mice lacking both Ii chain and DM activities should prove useful for analyzing nonconventional class II Ag presentation under normal physiological conditions in the intact animal.

Selective binding of bacterial toxins to major histocompatibility complex class II-expressing cells is controlled by invariant chain and HLA-DM

Bacterial superantigens (SAgs) bind to major histocompatibility complex (MHC) class II molecules and activate T cells in a Vbeta-restricted fashion. We recently identified subsets of HLA-DR1 molecules that show selectivity for SAgs. Here, we extend these observations by showing that different cell lineages demonstrate distinct SAg-binding specificities although they all express HLA-DR1. Indeed, B cells bind staphylococcal enterotoxin A (SEA) and toxic shock syndrome toxin 1 (TSST-1) with high affinity while staphylococcal enterotoxin B (SEB) binding is barely detectable. In contrast, DR1-transfected HeLa cells show efficient binding of SEB, but not of SEA or TSST-1. We investigated the class II maturation events required for efficient interaction with SAgs and found that the ability of cells to bind and present the toxins can be drastically modulated by coexpression of the class II-associated invariant chain (Ii) and HLA-DM. SEA binding to DR1 molecules required coexpression of Ii, whereas TSST-1 binding was selectively enhanced by DM. Binding of SEB was affected by cell type-specific factors other than Ii or DM. The selectivity of SAgs for different MHC class II populations was minimally affected by HLA-DR intrinsic polymorphism and could not be explained by binding to alternative sites on DR molecules. Our results indicate that SAgs are sensitive to structural heterogeneity in class II molecules, which is consequent to the differential regulation of expression of antigen processing cofactors. Therefore, we speculate that Staphylococcus aureus have retained the ability to express numerous SAgs in adaptation to the micro-heterogeneity displayed by MHC class II molecules and that this may relate to their ability to infect different tissues.

In the absence of the invariant chain, HLA-DR molecules display a distinct array of peptides which is influenced by the presence or absence of HLA-DM

The independent influences of invariant chain (Ii) and HLA-DM molecules on the array of naturally processed peptides displayed by HLA-DR molecules were studied using transfected cell lines. The absence of Ii led to an altered set of HLA-DR-bound peptides as judged by the discriminating responses of alloreactive T cell clones. While most T cell clones raised against DR+Ii+DM+ peripheral blood mononuclear cells (PBMC) failed to respond to DR+Ii-DM- cells, T cell clones raised against DR+Ii-DM- transfectants were not stimulated by DR+Ii+DM+ cells. Furthermore, coexpression of HLA-DM with HLA-DR1 in the absence of Ii augmented responses of anti-PBMC T cell clones but inhibited allorecognition by T cell clones raised against DR+Ii-DM- transfectants. The conformational integrity of the class II molecules, as judged by serology, suggests that the patterns of reactivity of the T cell clones reflect specificity for different alloantigen-bound peptides. Hence, discordant regulation of expression of major histocompatibility complex class II, Ii, and HLA-DM molecules in vivo may lead to the display of novel self-peptides and possible interruption of self-tolerance.

The efficient bovine insulin presentation capacity of bone marrow-derived macrophages activated by granulocyte-macrophage colony-stimulating factor correlates with a high level of intracellular reducing thiols

Bone marrow-derived macrophages (BMM phi) were shown before to function as antigen-presenting cells. We show here, that the antigen presentation capacity of BMM phi depends on the nature of the antigen and is differently regulated by the lymphokines interferon-gamma (IFN-gamma) and granulocyte/macrophage-colony-stimulating factor (GM-CSF). When bovine insulin (BI) was employed as antigen, only BMM phi treated with GM-CSF (GM-CSF-M phi) were efficient presenters, but when presentation of the antigens ovalbumin and conalbumin was tested, IFN-gamma-pulsed BMM phi (IFN-gamma-M phi) proved superior to GM-CSF-M phi. The lack of efficient BI presentation function of IFN-gamma-M phi was only obvious, when native BI was used as antigen. Preprocessed BI was presented by IFN-gamma-M phi with drastically higher efficiency than by GM-CSF-M phi. Because processing of insulin depends on reduction of disulfide bonds, we analyzed the content of intracellular reducing thiols within IFN-gamma-M phi, GM-CSF-M phi, and untreated BMM phi. Only after stimulation with GM-CSF did the amount of reduced glutathione and cysteine strongly increase, while IFN-gamma did not efficiently augment the intracellular content of both thiols. These findings suggest that the lymphokines IFN-gamma and GM-CSF differently interfere with the processing capacity of BMM phi by differently regulating the intracellular concentration of the thiols reduced glutathione and cysteine. A high level of these thiols induced by GM-CSF correlates with a prominent capacity to present the antigen bovine insulin.

Dendritic cells from mouse bone marrow: in vitro differentiation using low doses of recombinant granulocyte-macrophage colony-stimulating factor

Dendritic cells (DC) are potent stimulator cells that are crucially involved in primary T cell responses. Since DC comprise a minor population in lymphoid cell suspensions tedious and time consuming procedures are required for their preparation. This work outlines an in vitro culture system that promotes the differentiation of DC from unfractionated mouse bone marrow (BM) cells in the presence of low doses of recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF). Unlike co-induced BM-macrophages the outgrowing BM-DC express high levels of MHC class II molecules; they are negative for specific and nonspecific esterase and are nonphagocytic. A rapid one step purification procedure employing immunomagnetic bead selection yielded up to 95% BM-DC enriched cell fractions. The bead-selected BM-DC were powerful inducers of the allogeneic mixed leukocyte reaction. Thus, our findings demonstrate that low dose rGM-CSF-driven in vitro culture of BM cells provides convenient access to substantial numbers of DC and will greatly facilitate their further exploration.

Immunologic and structural relatedness of the integrin beta 7 complex and the human intraepithelial lymphocyte antigen HML-1

We recently cloned the newest human integrin beta subunit, termed beta 7, from a cDNA library constructed from SEA-activated T lymphocytes. In this communication, we report on the structure of the human integrin beta 7 protein complex determined using a rabbit anti-beta 7 peptide antibody raised to an N-terminal 22 amino acid residue sequence deduced from the human beta 7 subunit cDNA. The beta 7 subunit (Mr 116,000) expressed on PHA lymphoblasts associates with a single major alpha subunit (alpha H) that is distinct from the prominent T cell marker, integrin alpha 4. The alpha H subunit (Mr 180,000 nonreduced) displays a distinctive shift in size on reduction to an apparent Mr of 150,000. We show that these structural properties of the integrin beta 7 complex are shared with the cell surface antigen HML-1 found highly expressed on T cells which populate the intestinal epithelium and are proposed to be involved in mucosal immunity. Sequential immunoprecipitation and Western blotting demonstrate identity or close homology between the alpha H beta 7 and HML-1 proteins.

Presentation of Leishmania donovani promastigotes occurs via a brefeldin A-sensitive pathway

For the presentation of Leishmania promastigotes to polyclonal CD4+ T cells, a processing period within activated macrophages of 3-4 h is required. Presentation can be inhibited by both chloroquine and brefeldin A (BFA), the latter implicating a requirement for newly synthesized MHC class II molecules. This inhibition is both reversible and specific, in that BFA did not inhibit mixed lymphocyte reaction stimulation by these infected macrophages. Immunogold labeling demonstrated that class II was associated with the parasite-containing phagolysosome. The level of class II was not significantly altered in BFA-treated cells in the time period studied, suggesting that antigen may exist the phagolysosome and interact with class II in another cellular compartment.

Biochemical properties of MHC class II molecules endogenously synthesized and expressed by mouse Langerhans cells

The cell surface expression and biosynthesis of Langerhans cells (LC)-derived major histocompatibility complex (MHC) class II molecules from epidermal cells (EC) prepared freshly and cultured for up to 3 days was investigated. Based on the constitutive expression of MHC class II determinants by LC, a panning and magnetic bead selection procedure was employed, yielding 65% and 86% of I-A+ cells, respectively. Phenotypical and cytochemical examinations revealed that the two LC preparations were free of contaminating macrophages as well as B and T cells. Freshly prepared enriched LC were highly efficient in the stimulation of protein antigen-specific T cell clones, while LC purified from short-term cultured EC suspensions proved to be more efficient allogeneic stimulator cells than fresh LC. Comparative analysis of LC obtained from freshly prepared and from short-term-cultured EC preparations indicated an up-regulation of MHC class II determinants during short-term culture. Radioiodination analysis of LC selected by magnetic beads demonstrated prominent class II alpha and beta chain signals with only a minute fraction of invariant chains p35 and p45 being expressed at the cell surface. Unlike class II complexes derived from B cells, those from LC contained invariant chain fragment p20 in association with alpha/beta heterodimers at the plasma membrane. No qualitative differences between freshly isolated and 3-day cultured LC in cell surface expressed MHC class II components were detectable. Metabolic labeling with subsequent two-dimensional electrophoresis revealed distinct features of LC-derived MHC class II molecules with a high proportion of invariant chains in particular gamma and p40 and their extensive sialylation. While fresh and 1-day cultured LC exhibited appreciable levels of newly synthesized class II molecules, a dramatic down-regulation in class II and invariant chain synthesis was measured after 3 days of continuous in vitro culture.

Invariant chain promotes egress of poorly expressed, haplotype-mismatched class II major histocompatibility complex A alpha A beta dimers from the endoplasmic reticulum/cis-Golgi compartment

Invariant chain (Ii) is a nonpolymorphic, non-major histocompatibility complex (MHC)-encoded glycoprotein that rapidly associates with newly synthesized class II MHC alpha and beta chains in the rough endoplasmic reticulum. This oligomerization of Ii, alpha, and beta and their cotransport within the cell led to speculation that Ii was an essential alpha beta transport protein. However, direct tests failed to show an absolute requirement for Ii in class II MHC molecule transport. More recently, it has become clear that different class II alpha beta chain combinations vary greatly in their efficiency of cell-surface expression, based largely on the allelic origin of the alpha and beta amino-terminal regions. Because the previous tests of Ii for a role in class II molecule expression utilized efficiently expressed alpha beta combinations, we have reexamined this question with several haplotype-mismatched murine A alpha and A beta chain combinations of various potentials for cell-surface expression. Using a transient expression assay in Ii-negative COS cells, we find that many inefficiently expressed alpha beta combinations show marked augmentation of surface expression upon cosynthesis of Ii. This effect is absent or minimal with evolutionarily coselected, haplotype-matched chains that give efficient expression alone. Biochemical studies show that at least one component of the Ii effect is an increased egress of already formed alpha beta dimers from the rough endoplasmic reticulum/cis-Golgi. We suggest that these results reflect the interaction of Ii with the peptide-binding domain of the poorly expressed class II molecules, either aiding in maintenance of a transportable conformation or competing with endoplasmic reticulum retention proteins, and thus enhancing movement to the cell surface. These results suggest a complex and variable role for trans-associated alpha and beta chains in the immune responses of MHC heterozygotes and provide a method for examining Ii interaction with class II MHC molecules independent of measurement of peptide presentation to T cells.

The immune response of offspring mice from mothers immunized during pregnancy with protein antigens

The immune system of offspring mice from mothers immunized with photo-oxidized timothy grass pollen antigen B (OX-AgB) or Trinitrophenyl-bovine gamma globulin (TNP-BGG) during their pregnancy was examined. Offspring mice immunized 6 or 8 weeks after delivery with the same antigen administered to their mothers have completely suppressed primary responses and greater than 80% suppressed secondary responses. The observed immunosuppression in offspring mice appears to persist until about 16 weeks after delivery, and is antigen-specific. Adoptive transfer studies show that spleen cells from adult OX-AgB primed mice injected i.v. into lethally X-irradiated (800 rads) syngeneic recipients and challenged with antigen produce significant levels of AgB-specific IgG antibody. Spleen cells (5 x 10(6] from offspring mice of mothers immunized with OX-AgB during their pregnancy were added to spleen cells from adult OX-AgB primed mice and injected i.v. into lethally X-irradiated syngeneic recipients and challenged with antigen. These recipients showed a significantly (greater than 85%) immunosuppressed secondary response. The observed immunosuppression appears to be mediated by CD4+ and CD8+ T cells suggesting a requirement for both T suppressor inducer and effector cell populations. The reported findings are discussed in relation to possible mechanisms to explain the immunosuppression obtained in the offspring of mothers immunized during pregnancy.

Translation in Xenopus laevis oocytes of hybrid selected LEW rat RT1.B alpha- and beta-chain transcripts results in serologically discrete class II polypeptide chain complexes

Using the non-crossreactive mAb MRC-OX3 and MRC-OX6, two serologically distinct RT1.B-specific (I-A equivalent) alpha, beta heterodimers have previously been described by us as residing at the cell surface of LEW rat spleen cells. The two-chain elements were suggested to represent stable conformation isomers, diverged by dissociation of the mature gamma-chain from a mAb MRC-OX6 reactive biosynthetic intermediate, composed of terminally glycosylated alpha-, beta- and gamma-chains. In this study we addressed the question of whether or not the presence of terminally glycosylated invariant gamma-chain was obligatory for the formation of the two MRC-OX3 and MRC-OX6 reactive two-chain complexes. The synthesis of RT1.B-specific alpha, beta heterodimers was therefore initiated, in the absence of accompanying invariant gamma-chains, by microinjecting hybrid-selected RT1.B alpha- and beta-specific mRNA into oocytes of Xenopus laevis for translation. Class II molecules produced were analyzed by affinity chromatography of radioactive-labeled oocyte detergent lysates using the appropriate monoclonal immunoadsorbents for identification. Although rat gamma-chain mRNA was excluded in this assay system, distinct MRC-OX3 and MRC-OX6 reactive two-chain complexes were detected by two-dimensional gel electrophoresis. These findings clearly indicate that the formation of the two RT1.B-specific alpha, beta heterodimers is independent of the presence of the rat invariant gamma-chain.

Granulocyte-macrophage colony-stimulating factor-cultured bone marrow-derived macrophages reveal accessory cell function and synthesis of MHC class II determinants in the absence of external stimuli

The antigen-mediated activation of a number of T cell clones by bone marrow (BM) cells cultivated in the presence of various colony-stimulating factor (CSF) preparations was investigated. BM macrophages (BMM phi) grown in L929 cell supernatant as a crude source of macrophage colony-stimulating factor (M-CSF) as well as BM cells propagated in the presence of recombinant M-CSF exhibited transient antigen presentation potential to some T cell clones, being maximal on day 7 and having declined to a low level by day 19 of in vitro culture. Treatment of these long-term-cultivated BMM phi populations with recombinant interferon-gamma (IFN-gamma) resulted in predominant antigen presentation capacity. In contrast, BM cells differentiated in the presence of recombinant granulocyte (G)M-CSF developed highly efficient accessory cell function to all T cell clones examined. This function became apparent earlier, was retained during the time period tested (up to day 19 of continuous culture) and did not require prior stimulation by IFN-gamma. The functionally competent cells were shown to belong to the monocyte/macrophage lineage. These findings are consistent with the demonstration of substantial levels of major histocompatibility complex (MHC) class II molecules synthesized by GM-CSF-cultured BM cells in the absence of exogenous IFN-gamma. In contrast, M-CSF grown BM cells synthesized only minute amounts of Ia antigens unless they were stimulated by IFN-gamma. Because GM-CSF-cultivated BM cells proved clearly superior to M-CSF-grown and IFN-gamma-activated BM cells with respect to antigen-presenting capacity but exhibited lower levels of MHC class II molecules, other properties acting in addition to surface Ia antigens might be responsible for their pronounced T cell accessory function.