Silica and the immune system.

This article collects the evidence that shows that the biological reactions to Silica are due to the stimulation of the Immune System. Both Innate and Adaptive Immunity are involved. The following sets of events take place sequentially: (1) Silica is recognized as a PAMP (pathogen-associated molecular pattern) by the Receptors of Innate Immunity; (2) This causes the stimulation first and then the death of the key cells of Innate Immunity (the macrophages); (3) While stimulated, macrophages produce cytokines (IL-1 and TNF) that stimulate fibroblasts; (4) The same and possibly other cytokines produced by silica- activated macrophages induce the maturation of dendritic cells, which are the connecting elements between the Innate and the Adaptive (lymphoid) Immune Systems; (5) It follows a polyclonal activation of the Adaptive Immunity; (6) The end result is the formation of fibro-hyaline tissue.

Interaction of baboon anti-alpha-galactosyl antibody with pig tissues.

As barriers to xenotransplantation are surmounted, such as suppression of hyperacute rejection allowing improved graft survival, it becomes important to define longer-term host-xenograft interactions. To this end we have prepared in baboons high titer anti-alpha-Galactosyl (alphaGal) and anti-porcine aortic endothelial cell antibodies, similar to human natural xenoantibodies and reactive with epitopes of thyroglobulin, laminin, and heparan sulfate proteoglycans. When injected into pigs with a protocol similar to that used in the rat to show the nephritogenic potential of heterologous anti-laminin and anti-heparan sulfate proteoglycan antibodies, baboon immunoglobulins bound first to renal vascular endothelium, and later to interstitial cells, especially fibroblasts and macrophages, and to antigens in basement membranes and extracellular matrix, where they colocalized with laminin- and heparan sulfate proteoglycan-antibodies, and with bound Griffonia simplicifolia B4.

Alpha-galactosyl antibody redistributes alpha-galactosyl at the surface of pig blood and endothelial cells.

The interaction of antibodies with cell surface antigens may induce redistribution of immune complexes, followed by antigen depletion, with increased resistance to injurious effect of antibody and complement (antigenic modulation). Human natural antibodies to Gal alpha 1,3Gal beta 1,4GlcNAc-R (alpha Gal) epitopes expressed at the surface of pig cells are a major obstacle to xenotransplantation. Recent studies have shown that these antibodies do not modulate alpha Gal, but the morphological consequences of the antigen-antibody interaction are unknown.

Staphylococcal enterotoxin B-induced T-cell anergy is mediated by regulatory T cells.

Naive T cells mount a vigorous proliferative response to superantigen (SAg) stimulation in vivo. The proliferative response is followed by a partial deletion of responder T cells. Part of the deletion process has recently been attributed to the action of regulatory cytotoxic T cells that recognize major histocompatibility complex (MHC) class I-associated antigen receptor determinants on the target cell surface.

T cell vaccination induces T cell receptor Vbeta-specific Qa-1-restricted regulatory CD8(+) T cells.

Vaccination of mice with activated autoantigen-reactive CD4(+) T cells (T cell vaccination, TCV) has been shown to induce protection from the subsequent induction of a variety of experimental autoimmune diseases, including experimental allergic encephalomyelitis (EAE). Although the mechanisms involved in TCV-mediated protection are not completely known, there is some evidence that TCV induces CD8(+) regulatory T cells that are specific for pathogenic CD4(+) T cells. Previously, we demonstrated that, after superantigen administration in vivo, CD8(+) T cells emerge that preferentially lyse and regulate activated autologous CD4(+) T cells in a T cell receptor (TCR) Vbeta-specific manner.

Murine CD8+ T cells that specifically delete autologous CD4+ T cells expressing V beta 8 TCR: a role of the Qa-1 molecule.

Interactions mediated by TCRs expressed on different T cell subsets may play a role in immunoregulation. To investigate this idea, we studied the regulation of superantigen-induced TCR V beta-restricted responses. We asked whether the in vivo regulation of CD4+ V beta 8+ T cells following SEB injection is controlled by CD8+ T cells.

Human CD8+ T lymphocyte clones specific for T cell receptor V beta families expressed on autologous CD4+ T cells.

CD8+ T cells control immune responses, and recent studies suggest that this regulation is, in part, specifically directed towards TCR structures expressed by CD4+ cells. To develop a system to study the role of the TCR in regulatory interactions, we isolated clones of CD4+ cells expressing identified TCR V beta chains. These CD4+ clones were used to stimulate and expand autologous CD8+ cells, which kill the inducing CD4+ clone as well as independently isolated autologous CD4+ clones sharing the same TCR V beta as the inducing cell but not CD4+ T cells expressing different V beta TCRs.

Characteristics of the cytosol-synthesized proteins generating class-I-bound peptides.

The proteins synthesized in the cytosol are several thousand, and the number of peptides potentially able to be bound by class I molecules they can generate is therefore huge. On the other hand, the actual number of peptide-class I complexes required for CTL activation is around 200. We focused on the peptides bound by B27 molecules and by the whole class I.

Cellular mechanisms of exogenous peptide binding to HLA class II molecules in B cells.

We have investigated the ability of APC Class II molecules to bind and release exogenous peptides, two phenomena that are still poorly understood. In order to investigate the half-life of the complex of an exogenous peptide with DR molecules we have evaluated the uptake and release of the radiolabeled peptide 17-29-Tyr of influenza virus matrix protein (MA 17-29-Y) by a B-EBV cell line at different times and under different conditions. We have found that the kinetics of both binding and release of the peptide are very fast in living cells; using glutaraldehyde-fixed cells, the kinetics of the two phenomena are slow, closely resembling those observed with the same peptide and purified, immobilized DR molecules.

Do anergic T cells induce suppressor T lymphocytes through idiotypic interactions?

Suppression by T cells and T cell anergy have been implied, at different periods of immunological research, as the main agents of peripheral down regulation of the immune response. This article discusses the possibility that anergic T cells, with the participation of appropriate co-stimulatory molecules on their membranes, stimulate CD8 cells with an alpha/beta TCR specific for peptides of the TCR of the anergic cell itself processed and presented by class I MHC. The non-anergic (orthoergic) members of the same clone, if activated, process and present their TCR in the same way, but, lacking the co-stimulatory molecule, are unable to stimulate the anti-idiotype CD8 cells.

Role of CD8+ T cells in murine experimental allergic encephalomyelitis.

The course of experimental allergic encephalomyelitis (EAE), an animal model for multiple sclerosis, is affected by immunoregulatory T lymphocytes. When animals are immunized with encephalitogenic peptide of myelin basic protein and recover from the first episode of EAE, they become resistant to a second induction of this disease. Animals depleted of CD8+ T cells by antibody-mediated clearance were used to examine the role of CD8+ T cells in EAE.

The major rheumatoid factor cross-reactive idiotype is dominantly expressed by Staphylococcus aureus Cowan strain I-activated CD5+ control B cells.

Some seropositive (RF+) and seronegative (RF-) rheumatoid arthritis (RA) patients selectively express high concentrations of the major RF cross-reactive idiotype (RCRI) in their sera and generate high frequencies of RCRI+ pokeweed mitogen (PWM)-induced plasma cells from their peripheral blood mononuclear cells (PBM). To determine if normal individuals can express RCRI in vitro, B cells from controls were activated with Staphylococcus aureus Cowan strain I (SAC) bacteria to identify RCRI and RF production. In addition, we studied the relationship of RCRI expression with the subset of B cells bearing CD5.

Endocytosis of the TCR/CD3 complex and the class-I major histocompatibility complex in a human T cell line.

We investigated the expression of the T cell receptor (TCR)/CD3 complex on a CD4-positive human T cell lymphoma cell line treated with phorbol myristate acetate (PMA) and/or CA2+ ionophore using fluorescence flow cytometry and fluorescence microscopic analysis. PMA induced a significant decrease in the expression of the CD3 complex on the cell membranes. Fluorescence microscopy confirmed that the down regulation is due to internalization of the antigens.

Cellular mechanisms of artificial peptides binding to HLA.

On the basis of the consideration that cell-free models cannot precisely mimic the complexity of the intracellular environment, we used a system to investigate the mechanisms that enable antigen-presenting cells (APC) to bind exogenous peptides through their human leukocyte antigen (HLA) molecules. We evaluated the uptake of the radiolabeled peptide 17-29-Tyr of influenza virus matrix protein by B-EBV cell lines, under various conditions. The results can be summarized as follows: a) the kinetics of peptide binding and release are very fast in living, fully competent cells; b) the peptide-HLA complexes are short-living and the DR molecules continuously undergo peptidic exchange; c) using glutaraldehyde-fixed cells, the kinetics of the two phenomena are slow, closely resembling those observed with the same peptide and purified, immobilized DR molecules.

Endocytosis and dissociation of class I MHC molecules labeled with fluorescent beta-2 microglobulin.

Membrane class I MHC molecules of Con-A activated and lymphoma murine cells have been labeled by exchange of the cell's beta 2m with soluble fl-beta 2m. It has previously been shown that this method of labeling is specific and does not affect the biologic properties of class I MHC Ag. With this labeling it has been possible to demonstrate the constitutive endocytosis of class I MHC by fluorescence microscopy and by measuring the resistance to quenching by crystal violet of the internalized fl-beta 2m molecules.

Class II MHC molecules are spontaneously internalized in acidic endosomes by activated B cells.

The antibody response to protein antigens requires specific cooperation between B and T cells. In order to deliver the helper signal, T cells must recognize, in the context of Class II MHC, processed antigen on the membrane of B cells. Processed antigen is in the form of peptides bound in a given site of the Class II MHC molecule; in order to address the question of where, in the B cell, the complex of Class II MHC and processed antigen is formed, we studied the subcellular localization of these two molecules.

Differential endocytosis of IgM and IgD in murine B cell lines.

The internalization of surface immunoglobulin (Ig) by B lymphocytes is the first step in the antigen-presenting function performed by these cells. Mature B cells coexpress on their surface IgM and IgD. At this time, there is controversy over whether these two isotypes serve different functions in the antigen-presenting process.

Binding of labelled influenza matrix peptide to HLA DR in living B lymphoid cells.

T cells recognize protein antigens as fragments (peptides) held in a defined binding site of class I or class II major histocompatibility (MHC) molecules. The formation of complexes between various immunologically active peptides and different MHC molecules has been demonstrated directly in binding studies between the peptides and solubilized, purified molecules of class II MHC. Studies with intact cells, living or fixed, have not directly demonstrated the binding of the peptides to MHC molecules on antigen-presenting cells, but the formation of such complexes has been shown indirectly through the capacity of antigen-presenting cells to stimulate specific T cells.

Seronegative rheumatoid arthritis, rheumatoid factor cross reactive idiotype expression, and hidden rheumatoid factors.

The major rheumatoid factor cross reactive idiotype (RCRI), defined by prototypic monoclonal rheumatoid factors (RFs), is expressed as a dominant idiotype by pokeweed mitogen induced plasma cells obtained from seropositive (RF+) patients with rheumatoid arthritis (RA). Some patients who meet clinical diagnostic criteria for RA set by the American Rheumatism Association fail to express RFs at any time during their clinical course. To determine if seronegative (RF-) patients with RA, so designated by the latex fixation, Rose-Waaler classic binding assays, or a RF enzyme linked immunosorbent assay (ELISA), express the RCRI in the absence of detectable RFs we examined pokeweed mitogen plasma cells from these patients by indirect immunofluorescence.

Role of early region 3 (E3) in pathogenesis of adenovirus disease.

The cotton rat Sigmodon hispidus has provided an animal model of adenovirus pneumonia that permits investigation of the viral gene products required to produce the disease and the molecular mechanisms effecting the damage. This study was carried out to test the hypothesis that early region 3 (E3) of the adenovirus genome plays a critical role in pathogenesis of the virus's disease process even though none of its gene products are essential for its replication. Mutants whose E3 region is largely deleted (i.