Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several observations in the characterization of EAU are examined. First, sequences of heterologous S-Ag (bovine S-Ag in LEW rats) which induce strong in vitro T cell proliferative responses are dissociated from sequences which induce EAU. Strong in vitro responses were detected only to nonself peptide homologues. Second, T cells specific for self-sequences of S-Ag are unresponsive in vitro. Third, TCR V beta 8 gene usage is associated with pathogenic T cells. V beta 8.2 bearing hybridomas from a pathogenic line exhibited enhanced reactivity to pathogenic self-peptides, but were unresponsive unless presented Ag on nonirradiated, splenic APC. We propose that these findings reflect self, nonself discrimination of the epitopes on heterologous autoantigen, and examine the hypothesis that TCR containing V beta 8 have enhanced avidity for MHC complexed with autologous sequences, but that these V beta 8 autoreactive T cells appear unresponsive in vitro due to mechanisms of self-tolerance involving superantigen/coligand participation.
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PMID:Unresponsiveness to self-peptides of S-antigen in EAU: an overview of recent results. 138 44

The selective deficit in delayed hypersensitivity that characterizes anterior chamber-associated immune deviation (ACAID) is the direct result of a blood borne, Ag-specific, cell-associated signal that is created after Ag is injected into the anterior chamber of the eye of normal mice. The cells that carry this signal via the blood to the spleen express the mature macrophage marker F4/80 and are similar to, or perhaps even arise from, F4/80+ dendritic cells found within the stroma of normal iris and ciliary body. We have recently reported that ACAID-inducing properties can be conferred upon conventional F4/80-bearing macrophages harvested from the normal peritoneal cavity by incubating these cells in vitro with the soluble protein Ag, BSA, in the presence of supernatants harvested from cultured iris and ciliary body cells. Using this in vitro induction system, we have examined the limiting conditions for conferring ACAID-inducing potential on peritoneal exudate cells. We have found that an ACAID-inducing signal can be created in vitro with several different soluble Ag, including the retinal autoantigen-interphotoreceptor retinol binding protein, and that active endocytosis and processing by peritoneal exudate cells is required because chloroquine prevents these cells from acquiring ACAID-inducing properties. In addition, we have determined that for supernatant-treated peritoneal macrophages to induce ACAID to soluble Ag the cells must be 1) alive, 2) injected i.v. or i.p. (but not s.c.), and 3) administered to recipients with an anatomically intact spleen. When these conditions are met, as few as 20 F4/80+ macrophages pulsed with Ag in the presence of iris and ciliary body supernatants are sufficient to induce ACAID. Macrophage hybridomas derived from "conventional" APC can acquire ACAID-inducing potential in vitro if exposed to iris and ciliary body supernatants, whereas macrophage hybridomas derived from "suppressor inducer" APC constitutively possess ACAID-induced potential. Peritoneal macrophages that were endowed with ACAID-inducing properties by in vitro exposure to supernatants were found to elicit splenic suppressor cells similar to those found in spleens of mice with ACAID. Moreover, the expression of experimental autoimmune uveitis in mice immunized with interphotoreceptor retinol binding protein was significantly suppressed if the animals were pretreated with peritoneal exudate cells pulsed with this Ag in the presence of iris and ciliary body supernatants.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Analysis of an in vitro-generated signal that induces systemic immune deviation similar to that elicited by antigen injected into the anterior chamber of the eye. 138 41

We have previously demonstrated that the introduction of the bm12 mutation into NZB mice results in animals that spontaneously produce high titer IgG autoantibodies to dsDNA. The observation that NZB.H-2bm12 develop lupus although NZB.H-2b control mice do not, provides a unique system to study the role of Th cells in the production of antibodies to dsDNA. We have isolated, in the absence of a known stimulating autoantigen, a series of seven autoreactive T cell clones that provide help in vitro for the production of IgG anti-dsDNA antibodies by syngeneic B cells. The data on these seven cloned T cell lines was compared to two cloned T cell lines specific for keyhole limpet hemocyanin. The seven cloned T cell lines, coined clones 19D, 23G, 410F, 410H, C1, C15, and C52 all show significant help in vitro for production of IgM and IgG antibodies to ssDNA and dsDNA; antibody levels increased 7- to 30-fold compared to cultures without T cells. Clones C1, C15, and C52 were furthered studied and were shown to provide help for IgM antihistone and anti-OVA responses but provided significantly less help for IgG antibodies. In contrast, keyhole limpet hemocyanin-specific cloned T cell lines TK2 and TK5 provided help for IgM antibodies to ssDNA, dsDNA, and histone, but failed to significantly increase IgG antibodies to ssDNA, dsDNA, or histone. The cloned T cell lines were restricted to H-2bm12 and proliferated only in response to APC from NZB.H-2bm12 and B6.C-H-2bm12 but not NZB.H-2b or NZB.H-2d mice; their in vitro helper activity was inhibited by antibodies to class II. All cloned T cell lines expressed Thy-1, CD5, and TCR-alpha/beta. Three of the seven clones used TCR-V beta 4. However, the V beta expression of the four remaining autoreactive T cell clones could not be determined. All of the autoreactive cloned T cell lines produce significant IL-4 but no detectable IL-2 or IFN-gamma. We believe that HPLC-purified peptides eluted from I-Abm12 molecules from APC can potentially provide insight on the putative autoantigen.
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PMID:Generation and characterization of cloned T helper cell lines for anti-DNA responses in NZB.H-2bm12 mice. 146 Feb 94

In this article, the mechanisms by which infection at a distant site could lead to ReA and whether they could explain the association of ReA with HLA-B27 have been discussed. We propose that ReA synovitis is primarily due to specific synovial T-cell proliferation to fragments of the triggering bacterial found in the joint. Nonspecific T cells amplify synovitis with antibodies playing only a secondary role. First, we have shown that the triggering bacterial antigen is present in a nonviable form in ReA synovium and that this, not cross-reactive joint autoantigen, stimulates the specific synovial immune response. Second, the studies of the humoral immune response in ReA have been reviewed. Further evidence of bacterial persistence in the joint comes from work demonstrating intrasynovial bacteria-specific antibody synthesis. Continuing maturation of the antibody response also points to persisting antigen. In enteric but not genitourinary ReA, the humoral response is mainly IgA, implying chronic stimulation of the gut mucosa. Analysis of the molecules against which the humoral response is directed has shown no difference between yersinia arthritis and yersiniosis, but in CTA, the response to the 57kD and 59kD antigens differs from CT urethritis suggesting they may be arthritogenic. Finally, the antibody response may be absent in ReA patients rendering antibody titres diagnostically less useful and confirming their secondary role in the pathogenesis of synovitis. Third, studies of cellular response in ReA have been analyzed. We show there is a specific synovial MNC proliferative response to fragments of the triggering bacteria found in the joint, which is potentially of diagnostic use. The proliferation is due to CD4+ and CD8+ T cells and restricted by MHC class I and II antigens. This antigen-specific T-cell response is accompanied by an antigen-independent recruitment of nonspecific T cells, which may contribute to the amplification of synovitis. The importance of the synovial APC in determining the synovial immune response is unarguable but the exact mechanisms are unclear. Further details on the possible role of HLA-B27 in the presentation of arthritogenic peptides and on the exact identity of the antigenic epitopes recognized in ReA must await analysis of a large panel of T-cell clones. Finally, it is hoped that advances in this field will lead to specific and effective immunologic therapies or vaccines for this currently untreatable disease.
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PMID:Antigenic responses in reactive arthritis. 156 9

Experimental autoimmune encephalomyelitis (EAE) is an inflammatory neurological disease initiated by activated T cells specific for the autoantigen, myelin basic protein (MBP). The ability of Lewis rat splenic T cells to transfer EAE after in vitro incubation with MBP-pulsed dendritic cells (DC) was used as an index of MBP-specific T cell activation. OVA, previously processed by macrophages, was incubated with MBP and DC at the pulsing stage to determine whether it could inhibit presentation of the autoantigen. At molar equivalents of 2.5:1 and 20:1 relative to MBP, processed OVA increasingly inhibited the ability of DC to activate MBP-specific T cells for EAE transfer. Unprocessed OVA, which cannot be presented immunogenically by Lewis rat DC, was much less effective. However, processed OVA added to DC after they had been pulsed with MBP could not compete. OVA also blocked appearance of EAE when mixed with MBP/CFA in the inoculum used for active induction of the disease. Splenic T cells from MBP + OVA/CFA-immunized rats transferred EAE with a substantially delayed onset, suggesting that a reduced number of MBP-specific T cells was generated by immunizing with the OVA + MBP mixture compared with MBP alone. Overall, the data indicate that fragments of a foreign protein, OVA, which can be bound by APC, can also inhibit presentation of encephalitogenic determinants of MBP to T cells.
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PMID:Competition between foreign and self proteins in antigen presentation. Ovalbumin can inhibit activation of myelin basic protein-specific T cells. 168 45

Activated human T cells express MHC class II and have been shown to present foreign Ag to autologous T cells. We now demonstrate that MHC class II+ T cell clones can present myelin basic protein (MBP) peptide autoantigen in the absence of traditional APC to autologous MBP reactive T cell clones. MBP peptide-pulsed T cell clones specifically stimulated autologous MBP-reactive T cell clones to flux calcium and proliferate. Activation responses were peptide epitope specific and blocked by mAb to MHC class II, indicating a TCR-mediated response. In addition, mAb to the adhesion molecules LFA-3, CD2, LFA-1, CD29, and to the tyrosine phosphatase CD45 also inhibited proliferation, indicating the involvement of T to T cell interactions. In contrast to peptide Ag, T cell clones did not respond to autologous T cells pulsed with HPLC-purified MBP, suggesting that T cells are unable to process whole MBP. However, batch-purified MBP Ag preparations containing lower m.w. breakdown products were presented by T cells, indicating that naturally occurring breakdown products of autoantigens could be presented by activated T cells in vivo. These results raise the possibility that T cell presentation of autoantigen at inflammatory sites may be important in regulation of immune responses to self Ag.
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PMID:Presentation of autoantigen by human T cells. 171 5

Acetylcholine receptor-(AcChR) specific T cell lines were propagated from the PBL of six myasthenia gravis (MG) patients by the use of a pool of synthetic peptides (alpha-pool) corresponding to the complete sequence of the alpha-subunit of the human AcChR. All the lines had CD4+ phenotype and strongly recognized the alpha-pool. Four lines cross-reacted with native Torpedo AcChR. Five lines showed, at certain stages of their propagation, some degree of reactivity to autologous or DR-matched APC. One of the CD4+ T lines was challenged with each one of the peptides present in the alpha-pool. Several peptides, corresponding to the sequence segments 48-67, 101-120, 304-322, 320-337, and 419-437 of the human alpha-subunit were recognized, indicating that different epitopes and multiple T cell clones are involved in the recognition of the autoantigen in MG. Human AcChR-specific CD4+ T cell lines will be useful to identify the repertoire of epitopes recognized by the autoreactive Th cells in MG, to investigate the TCR genes utilized by autoreactive Th cells and to develop specific immunosuppressive treatments using anti-T cell vaccination.
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PMID:Use of synthetic peptides to establish anti-human acetylcholine receptor CD4+ cell lines from myasthenia gravis patients. 196 87

A fundamental issue in the etiology of autoimmune diseases of the central nervous system such as multiple sclerosis and its animal counterpart experimental autoimmune encephalomyelitis (EAE) concerns the identity of cells capable of presenting autoantigen to the T cells that mediate these diseases. The prevailing dogma is that only bone marrow-derived cells function as APC during EAE induction. We have addressed this issue by studying EAE induction in mouse bone marrow chimeras, and have found that although bone marrow-derived APC such as macrophages and brain microglial cells are more efficient at presenting autoantigen, brain parenchymal cells such as astrocytes and endothelial cells are also capable of inducing disease. EAE was induced in these chimeras by the adoptive transfer of encephalitogenic T cell lines designed to be MHC-histocompatible with APC contained either within the hematopoietic system of the chimera or with APC resident to the brain of the chimera. The subsequent development of EAE in these chimeras then indicated which population of cells served as in vivo APC during EAE pathogenesis. Possible effects of alloreactivity between the host chimera and the adoptively transferred T cells were eliminated by using encephalitogenic T cell lines made tolerant to the haplotype(s) of the recipient chimera.
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PMID:In vivo antigen presentation by both brain parenchymal cells and hematopoietically derived cells during the induction of experimental autoimmune encephalomyelitis. 768 95

Autologous EBV-transformed B cell lines (EBVL) from a patient with Graves' disease (GD) were transfected with the expression vector pREP4 encoding thyroid peroxidase (TPO), the thyroid-stimulating hormone receptor (TSHR), or chloramphenicol acetyl transferase. The relevant proteins were expressed. The capacity of EBVL to present transfected Ag was assessed by using EBVL transfected with TPO (EBVL-TPO) to stimulate TPO-specific T cells cloned from autologous thyroid tissue; stimulation indices greater than 100 were consistently obtained, even at low APC:T cell ratios. EBVL-TPO and EBVL transfected with TSHR (EBVL-TSHR) were used to characterize the Ag specificity of five thyroid epithelial cell-specific T cell clones. Despite previous unresponsiveness to recombinant TPO or purified thyroglobulin, four of these clones responded vigorously to EBVL-TPO but none responded to EBVL-TSHR. Experiments were then performed to determine whether transfected EBVL were presenting endogenously synthesized TPO, or were taking up and reprocessing exogenous Ag shed from the surface of adjacent cells. The stimulatory capacity of EBVL-TPO was not transferable to untransfected EBVL by cell-free culture supernatant and to only a minor degree by EBVL-TPO-derived cell membrane fragments, indicating that the majority of the TPO presented by the transfected EBVL is endogenously synthesized. The clear and reproducible proliferative responses obtained illustrate the usefulness and potency of this method of Ag presentation to T cells. Because this system obviates the need for large numbers of autologous APC or purified recombinant Ag, it will be useful for obtaining autoantigen-reactive T cells and to help define the autoantigenic epitopes recognized.
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PMID:Transfection of thyroid autoantigens into EBV-transformed B cell lines. Recognition by Graves' disease thyroid T cells. 818 73

Deletion of potentially self-reactive T-cell clones during intrathymic development provides an important mechanism of preventing autoreactivity. However, some potentially damaging cells may escape this process. Recent evidence suggests that these cells may be rendered 'anergic', that is, nonresponsive to Ag, in the absence of cell death. Such a mechanism may be particularly important in maintaining tolerance to organ-specific self Ag that are not expressed in the thymus. If so, the emergence of T cells resistant to anergy induction might be expected to result in autoimmune disease. It has previously been shown that anergy can be induced in human T cells in vitro by exposure to specific target peptide or bacterial enterotoxins in the absence of Ag-presenting cells. We have recently defined the antigenic specificity of multiple T-cell clones present at the site of a human organ-specific autoimmune disease, Graves' thyroiditis (Graves disease). In the current work, thyroid-derived T cells recognizing residues 535-551 of the thyroid tissue-specific enzyme, TPO3 have been used to examine whether cells actively involved in the autoimmune process are resistant to anergy induction, as defined by anergy induction with in vitro systems. Two systems were used. First, supraimmunogenic concentrations of peptide 535-551 (up to 1 mg/ml) failed to significantly anergize these T cells in the absence of APC. In addition, the bacterial enterotoxin SED that could stimulate these T cells in the presence of APC, failed to induce anergy when APC were not present. T cells from the peripheral blood of the same individual, in contrast, were anergizable with bacterial enterotoxins, using the same protocol. These results suggest that thyroid-infiltrating autoantigen-reactive T cells are refractory to induction of anergy, and the possibility is raised that this deficiency may be of importance in the development of autoimmunity.
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PMID:T cells involved in human autoimmune disease are resistant to tolerance induction. 833 48


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