Humoral and cell-mediated autoimmune reactions to human acidic ribosomal P2 protein in individuals sensitized to Aspergillus fumigatus P2 protein.
(17/3192)
A panel of cDNAs encoding allergenic proteins was isolated from an Aspergillus fumigatus cDNA library displayed on the surface of filamentous phage. Solid phase-immobilized serum immunoglobulin E (IgE) from A. fumigatus-allergic individuals was used to enrich phage displaying IgE-binding molecules. One of the cDNAs encoded a 11.1-kD protein that was identified as acidic ribosomal phosphoprotein type 2 (P2 protein). The allergen, formally termed rAsp f 8, shares >62% sequence identity and >84% sequence homology to corresponding eukaryotic P2 proteins, including human P2 protein. The sequences encoding human and fungal P2 protein were subcloned, expressed in Escherichia coli as His6-tagged fusion proteins, and purified by Ni2+-chelate affinity chromatography. Both recombinant P2 proteins were recognized by IgE antibodies from allergic individuals sensitized to the A. fumigatus P2 protein and elicited strong type 1-specific skin reactions in these individuals. Moreover, human and fungal P2 proteins induced proliferative responses in peripheral blood mononuclear cells of A. fumigatus- allergic subjects sensitized to the fungal P2 protein. These data provide strong evidence for in vitro and in vivo humoral and cell-mediated autoreactivity to human P2 protein in patients suffering from chronic A. fumigatus allergy. (+info)
Antigen-specific therapy of murine lupus nephritis using nucleosomal peptides: tolerance spreading impairs pathogenic function of autoimmune T and B cells.
(18/3192)
In the (SWR x NZB)F1 mouse model of lupus, we previously localized the critical autoepitopes for nephritogenic autoantibody-inducing Th cells in the core histones of nucleosomes at aa positions 10-33 of H2B and 16-39 and 71-94 of H4. A brief therapy with the peptides administered i.v. to 3-mo-old prenephritic (SWR x NZB)F1 mice that were already producing pathogenic autoantibodies markedly delayed the onset of severe lupus nephritis. Strikingly, chronic therapy with the peptides injected into 18-mo-old (SWR x NZB)F1 mice with established glomerulonephritis prolonged survival and even halted the progression of renal disease. Remarkably, tolerization with any one of the nucleosomal peptides impaired autoimmune T cell help, inhibiting the production of multiple pathogenic autoantibodies. However, cytokine production or proliferative responses to the peptides were not grossly changed by the therapy. Moreover, suppressor T cells were not detected in the treated mice. Most interestingly, the best therapeutic effect was obtained with nucleosomal peptide H416-39, which had a tolerogenic effect not only on autoimmune Th cells, but autoimmune B cells as well, because this peptide contained both T and B cell autoepitopes. These studies show that the pathogenic T and B cells of lupus, despite intrinsic defects in activation thresholds, are still susceptible to autoantigen-specific tolerogens. (+info)
Immunity to heat shock proteins and arthritic disorders.
(19/3192)
Adjuvant arthritis (AA) is a frequently used model of experimental arthritis. Because of its histopathology, which is reminiscent of rheumatoid arthritis in humans, AA is used as a model for the development of novel anti-inflammatory drugs. Recently, it has become evident that AA is a typical T-cell-mediated autoimmune condition. Therefore, novel immunotherapies targeted to T cells can be developed in this model. Analysis of responding T cells in AA have now led to the definition of various antigens with potential relevance to arthritis, including human arthritic conditions. One such antigen defined in AA is the 60kD heat shock protein. Both T-cell vaccination approaches and active antigen immunizations and antigen toleration approaches have turned out to be effective in suppressing AA. (+info)
A mutational analysis of the Abetaz/Aalphad major histocompatibility complex class II molecule that restricts autoreactive T cells in (NZBxNZW)F1 mice. The critical influence of alanine at position 69 in the Aalphad chain.
(20/3192)
Autoimmune symptoms of (NZBxNZW)F1 (H-2d/z) mice are reported to be critically related to the heterozygosity at the H-2 complex of the murine major histocompatibility complex (MHC). We previously showed that several Abetaz/Aalphad MHC class II molecule-restricted autoreactive T-cell clones from B/WF1 mice were pathogenic upon transfer to preautoimmune B/WF1 mice. In this study, to identify the crucial amino acid residues in Abetaz/Aalphad molecules for T-cell activation, we generated a panel of transfectant cell lines. These transfectant cell lines express the Abetaz/Aalphad MHC molecules with a mutation at each residue alpha11, alpha28, alpha57, alpha69, alpha70, alpha76 of Aalphad chain and beta86 of Abetaz chain. Replacing alpha69 alanine with threonine, valine or serine completely eliminated the ability to stimulate autoreactive T-cell clones without affecting the ability to present foreign antigen keyhole limpet haemocyanin (KLH) or L-plastin peptide to specific T-cell clones. Replacing beta86 valine with aspartic acid resulted in a decrease in the stimulation for antigen-reactive as well as autoreactive T-cell clones. Substitutions at other residues had minimal or no effect on the stimulation of either auto- or antigen-reactive T-cell clones. These results suggest that alanine at residue 69 of the Aalphad chain is critical for the activation of autoreactive Abetaz/Aalphad-restricted T-cell clones. Possible explanations for this are discussed. (+info)
Mechanism of mercury-induced autoimmunity: both T helper 1- and T helper 2-type responses are involved.
(21/3192)
Mercury can induce a systemic autoimmune disease in susceptible mouse strains. H-2s mice are particularly susceptible to mercury-induced autoimmunity and other mouse strains are more or less resistant. T helper 1/T helper 2 (Th1/Th2) dichotomy has been proposed for resistance or susceptibility, respectively. In the current study we show that mercury treatment induced a full autoimmune response in both C57BL/6 (H-2b) wild-type and interleukin-4 (IL-4)-deficient mice. Antibody production of all isotypes were induced, except that in IL-4-deficient mice there was no immunoglobulin E (IgE) and very low levels of immunoglobulin G1 (IgG1) antibody synthesis. Autoantibodies of different specificities were produced. The granular pattern of all IgG subclasses deposits were detected in the kidneys. In contrast to mercury-treated H-2s seconds mice, we did not detect any anti-nucleolar autoantibodies in the sera of mercury-treated wild-type or IL-4-deficient mice. To further explore the role of Th1/Th2 cytokines in the mercury model, we performed anti-interferon-gamma antibody treatment in IL-4-deficient mice together with mercury treatment and found that the production of IgG2a and IgG3, but not IgG2b, antibodies was downregulated. This indicated that besides Th2-type cytokines, Th1-type and other cytokines were involved as well in mercury-induced autoimmune response. Thus, C57BL/6 mice with H-2b genotype are highly susceptible to mercury-induced autoimmunity, and the genetic susceptibility to mercury involves more than a predisposition of a Th1-or Th2-type response. (+info)
Splenic but not thymic autoreactive T cells from New Zealand Black mice respond to a dominant erythrocyte Band 3 peptide.
(22/3192)
Previous work from our laboratory suggested that erythrocyte Band 3 peptide 861-874 is the dominant epitope recognized by splenic T cells from adult New Zealand Black (NZB) mice that are developing autoimmune haemolytic anaemia (AIHA). Here, it is shown that splenic T cells from 6-week-old NZB mice mount a vigorous in vitro proliferative response to peptide 861-874 and some other selected Band 3 peptides. As the donors grow older, splenic T cells respond to an increasing number of Band 3 peptides and the magnitude of their response also becomes greater. Splenic T cells from 3-week-old NZB mice still responded vigorously to peptide 861-874 and Band 3. By contrast, neither thymocytes nor single-positive CD4-enriched thymus cells from NZB mice responded to peptide 861-874 or Band 3, although they responded to concanavalin A (Con A). However, thymocytes from mice expressing a transgenic T-cell receptor (TCR)-specific for myelin basic protein (MBP) peptide Ac 1-9 responded vigorously to Ac 1-9. It is considered that the T-cell response of NZB mice to Band 3 is initially focused on peptide 861-874 and later spreads to other Band 3 peptides as the disease progresses and that peptide 861-874-reactive T cells are primed in the periphery rather than the thymus. (+info)
Immunization of mice with human 60-kd Ro peptides results in epitope spreading if the peptides are highly homologous between human and mouse.
(23/3192)
OBJECTIVE: Immunization with peptide fragments of autoantigens may lead to an immune response at both the T and B cell level that is directed not only at the immunogen, but also at the autoantigen from which the peptide came. In addition, a complex multicomponent particle may become the target of this expanded immune response. The purpose of this study was to determine the ability of several different peptides from 60-kd Ro to induce expansion of the immune response to the Ro/La RNP particle. METHODS: We immunized BALB/c mice with 3 different oligopeptides from human 60-kd Ro (or, SSA). RESULTS: Animals immunized with peptides either identical to or differing by only 1 amino acid developed autoimmunity to the entire Ro RNP particle. Animals immunized with a human peptide highly divergent from the corresponding mouse sequence developed an immune response to the immunogen only and showed little evidence of epitope spreading. Furthermore, these mice did not have antibodies that bound the poorly conserved mouse homolog peptide, and the antibody response to this peptide did not include IgG1. CONCLUSION: These data indicate that B lymphocytes specific for the self-peptide that is homologous to the immunogen are a critical determinant for spreading of the immune response to other components of self. (+info)
Control of autoimmune diabetes in NOD mice by GAD expression or suppression in beta cells.
(24/3192)
Glutamic acid decarboxylase (GAD) is a pancreatic beta cell autoantigen in humans and nonobese diabetic (NOD) mice. beta Cell-specific suppression of GAD expression in two lines of antisense GAD transgenic NOD mice prevented autoimmune diabetes, whereas persistent GAD expression in the beta cells in the other four lines of antisense GAD transgenic NOD mice resulted in diabetes, similar to that seen in transgene-negative NOD mice. Complete suppression of beta cell GAD expression blocked the generation of diabetogenic T cells and protected islet grafts from autoimmune injury. Thus, beta cell-specific GAD expression is required for the development of autoimmune diabetes in NOD mice, and modulation of GAD might, therefore, have therapeutic value in type 1 diabetes. (+info)