Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018133 (graft-versus-host disease)
 18,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Functional characteristics of an autoreactive (I-Ek-restricted) T cell line (l/+ T1), previously established from MRL/M(p-)+/+(MRL/+) mice with lpr-GVHD, were analyzed in vivo. Intravenous injection of l/+ T1 cells to non-irradiated H-2k (MRL/+ or AKR) mice (but not H-2d mice) induced enhanced spontaneous proliferation of recipient spleen cells; this was also I-Ek self-restricted. This augmented self-reactivity seemed to be mediated by recipient L3T4+ T cells, since few l/+ T1 cells were detected in the spleen cells of l/+ T1-injected AKR mice by cell surface marker analyses, and the treatment of the spleen cells with anti-Thy-1.1 antibody (Ab) or anti-L3T4 Ab plus complement abolished this enhanced spontaneous proliferation. The production of IgM rheumatoid factor (RF) in AKR mice and IgG RF in MRL/+ mice increased, although no enhancement of anti-ssDNA Ab production was observed. Judging from both spleen B cell proportion and serum Ig levels, autoantibody induction by the injection of l/+ T1 cells was not associated with polyclonal B cell activation. When lethally irradiated B10 congenic mice were used as recipients, B10. BR mice showed elevated levels of IgM anti-ssDNA and IgM RF 1 wk after l/+ T1 cell injection; it is likely that lethal irradiation causes autoantigens, particularly DNA, to be exposed. These findings suggest that the autoreactivity of l/+ T1 cells can be transferred to recipient L3T4+ T cells via T-T interaction or the immunological network, and that increased autoreactivity induces autoantibody production in the presence of autoantigen stimulation. In contrast to the stimulatory effects observed in AKR and MRL/+ mice, MRL/Mp-lpr/lpr(MRL/lpr) mice showed a different response to the injection of l/+ T1 cells; spontaneous proliferation of spleen cells and autoantibody production were not enhanced, and suppression of the mitogen responses was observed. It is discussed that lpr-GVHD may be due to these unusual features of MRL/lpr mice.
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PMID:Auto-MHC class II-reactive T cell line obtained from MRL/+ mice suffering from lpr-GVHD. II. Analyses of functional characteristics of T cell line by in vivo administration. 128 75

The presence of numerous keratin bodies in the upper dermis is a characteristic finding in skin lesions of patients with various dermatoses such as cutaneous graft-versus-host disease, lichen planus, or chronic discoid lupus erythematosus. These keratin bodies are generated by apoptotic keratinocyte death, consist largely of keratin intermediate filaments (KIF), and are constantly covered with immunoglobulins, mainly IgM. Apoptosis is also thought to occur under physiologic conditions in the skin as it does in other organs, but keratin bodies are not frequently reported as being found in nonlesional skin. In order to assess the frequency of keratin bodies in normal skin, we examined serial sections of 10 normal human skin specimens and 5 dermal sheets prepared from normal human skin for the presence of keratin bodies. They were visualized by direct immunofluorescence using a fluorescein isothiocyanate (FITC) rabbit antihuman IgM conjugate. In addition the KIF origin of keratin bodies was demonstrated by a double-staining immunofluorescence procedure using a FITC-conjugated rabbit antihuman IgM followed by a mouse monoclonal antibody against keratin and a sheep antimouse immunoglobulin conjugated with Texas Red. One specimen was also examined for keratin bodies at the ultrastructural level. In serial sections, all 10 normal human skin specimens had numerous keratin bodies as assessed by visualization of globular IgM deposits. Evaluated on dermal sheets, the number of keratin bodies ranged from 39-262 per mm2. Nearly all keratin bodies also stained with the antikeratin antibodies. Ultrastructurally the remarkable number of keratin bodies, which consist of filaments measuring approximately 10 nm in diameter or of more granular material, in normal human skin was confirmed. In order to investigate the capacity of KIF material in keratin bodies to function as autoantigen, we examined the sera of the 10 skin donors and, in addition, of 30 normal healthy individuals and 10 patients with rheumatoid arthritis for the occurrence and specificity of IgM-anti-KIF autoantibodies by an enzyme-linked immunosorbent assay and by immunoblot. IgM-anti-KIF autoantibodies were found in all 50 test sera. In the majority of the sera the specificity of these autoantibodies included the 51 kD and the 58 kD KIF protein, which are constituents of KIF in keratin bodies and basal keratinocytes. Quantitatively, the antibody activity of the IgM-anti-KIF autoantibodies varied from serum to serum, being highest in the sera of patients with rheumatoid arthritis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Apoptotic keratin bodies as autoantigen causing the production of IgM-anti-keratin intermediate filament autoantibodies. 242 83

A quantitative analysis of the frequencies of autoantibody-producing B cells in GVHD and in normal mice has been undertaken by generating collections of hybridomas of activated B cells. These hybridomas secreted sufficient quantities of Ig to allow binding analyses on a panel of autoantigens. B cells have been activated in a variety of ways. In vivo they were activated by injection of alloreactive T cells of one parent, leading to GVHD by a foreign antigen, sheep erythrocytes, in a secondary response, or by the polyclonal activator LPS. B cells from an experimentally unstimulated animal were used for an analysis of the normal background. In vitro B cells were activated by alloreactive T cells or by LPS. The frequencies of hybridomas and, therefore, of activated B cells producing autoantibodies to DNA or to kidney were not significantly different in mice activated by a graft-vs.-host T cell response as compared with B cell populations activated by any of the other procedures. They were found to compose 7.1-17.1% of the total repertoire of activated B cells. Moreover, the frequencies of autoantibody-producing activated B cells does not change with time after induction of the graft-vs.-host reaction. The pattern and frequencies of autoantigen-binding specificities to cytoskeleton, smooth muscle, nuclei, mitochondria, and DNA were not found to be different in any of the groups of hybridomas. The single notable exception, found in GVHD mice, were hybridomas producing autoantibodies to kidney proximal tubular brush border. These results allow the conclusion that autoantigen-binding B cells exist in an activated state in GVHD mice, as well as in mice activated by a foreign antigen or by a polyclonal activator, in B cell populations activated in vitro either by alloreactive T cells or by a polyclonal activator, and even in the background of experimentally unstimulated animals. T cell-mediated graft-vs.-host activation, in large part, does not lead to a selective expansion of autoantigen-binding B cells. The main difference between the graft-vs.-host-activated B cell repertoire and all others is that approximately 90% of teh autoantibodies were of the IgG class, whereas al autoantibodies found in the other groups were IgM.
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PMID:The autoantigen-binding B cell repertoires of normal and of chronically graft-versus-host-diseased mice. 349 30

The OX-40 protein was selectively upregulated on encephalitogenic myelin basic protein (MBP)-specific T cells at the site of inflammation during the onset of experimental autoimmune encephalomyelitis (EAE). An OX-40 immunotoxin was used to target and eliminate MBP-specific T cells within the central nervous system without affecting peripheral T cells. When injected in vivo, the OX-40 immunotoxin bound exclusively to myelin-reactive T cells isolated from the CNS, which resulted in amelioration of EAE. Expression of the human OX-40 antigen was also found in peripheral blood of patients with acute graft-versus-host disease and the synovia of patients with rheumatoid arthritis during active disease. The unique expression of the OX-40 molecule may provide a novel therapeutic strategy for eliminating autoreactive CD4+T cells that does not require prior knowledge of the pathogenic autoantigen.
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PMID:Selective depletion of myelin-reactive T cells with the anti-OX-40 antibody ameliorates autoimmune encephalomyelitis. 857 63

A novel mechanism for virus-induced autoimmunity in humans is described. Infection of immunocompromised bone marrow-transplanted patients with human CMV results in the formation of autoantibodies specific for the cell-surface protein CD13 (aminopeptidase N). CD13 is present on all CMV-susceptible cells and infection can be specifically blocked by antibodies against CD13. CMV particles carry CD13, which is incorporated in the viral envelope during budding of viral nucleo-capsids into Golgi-derived vacuoles. Antibodies against CD13 are virus-neutralizing, in efficiency comparable to antibodies against viral envelope glycoproteins. Autoantibodies against CD13 are present in patients who develop chronic GVHD following allogeneic bone marrow transplantation. This lesion shows striking similarities to certain autoimmune diseases in humans, of which scleroderma is one example. In vivo binding of antibodies to tissue structures known to be targets for chronic GVHD has been demonstrated in patients with chronic GVHD. Finally, patient serum containing CD13-specific antibodies binds to skin and mucosa tissue sections in vitro, a binding which is inhibited by CD13-specific monoclonal antibodies. Thus a virus infection can activate an immune response against a specific autoantigen, providing possibilities for destruction of non-infected host cells, as originally proposed by Fujinami & Oldstone (1985), and also for the molecular mimicry model for induction of autoimmunity. Our findings lend support to the idea that inhibiting the transfer of CMV infection in bone marrow transplants will reduce morbidity and mortality from CMV infection but will also reduce the incidence of chronic GVHD. Elimination of CD13+ cells in bone marrow is not believed to interfere with the chance of recipient repopulation, and may be a way to decrease morbidity and mortality substantially following BMT. For all patients, every effort should be taken to prevent a post-BMT CMV infection in order to reduce the risk of the later development of chronic GVHD.
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PMID:A novel mechanism for virus-induced autoimmunity in humans. 893 Jun 73

Autoantigen-specific CD4+ T cells have been implicated as the causative cell type in: multiple sclerosis, rheumatoid arthritis, autoimmune uveitis, diabetes mellitus, inflammatory bowel disease and graft-versus-host disease. The pathology of a number of experimentally induced autoimmune diseases is also mediated by autoantigen-specific CD4+ T cells. Ideally, treatment of CD4+ T-cell-mediated diseases would eliminate the autoantigen-specific cells, while sparing the remainder of the T-cell repertoire. We have developed an effective therapy that deletes the autoreactive T cells at the site of autoimmune tissue destruction. This approach uses an antibody directed against a cell-surface protein (OX-40, also known as CD134) that is selectively upregulated on activated autoantigen-specific T cells within the inflamed tissue.
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PMID:Antibodies to OX-40 (CD134) can identify and eliminate autoreactive T cells: implications for human autoimmune disease. 954 94

An in vitro skin explant model was originally developed to predict the occurrence and severity of acute graft-versus-host disease in allogeneic hematopoietic stem cell transplants. In previous studies we reported that peripheral blood mononuclear cells of patients with rheumatoid arthritis were able to induce graft-versus-host-like histopathological changes when co-cultured in vitro with autologous skin explants. The aim of the present study was to verify if observed skin damage was really of autoimmune origin. Using a 51chromium release cytotoxic assay we found that peripheral blood mononuclear cells of patients lyzed autologous keratinocytes (n=5 patients with rheumatoid arthritis) but not autologous lymphoblasts (n=4 with rheumatoid arthritis, n=8 patients with juvenile idiopathic arthritis). No specific lysis of keratinocytes or lymphoblasts was observed in healthy controls (n=15). We hypothesize that autologous peripheral blood mononuclear cells might recognize similar autoantigen(s) expressed on epidermal cells, which gives rise to an autoimmune response in the synovium.
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PMID:In vitro autoreactivity against skin in rheumatoid arthritis: are peripheral blood mononuclear cells of patients with rheumatoid arthritis able to lyze autologous keratinocytes? 1169 30

B cell autoreactivity is a component of chronic graft versus host (GVH) disease in humans and mice. Chronic GVH driven by I-A disparity results in loss of B cell tolerance in Ig/sHEL tolerant mice. In these mice, B cell anergy is characterized by down-modulation of sIgM mediated by intracellular retention in the endoplasmic reticulum (ER) and/or a block in post-ER processing of IgM receptors. Here, we report that GVH induces a selective increase in post-ER processing of the micro chain and trafficking to the cell surface of IgM receptors in B cells that bind HEL self-antigen. The increase in sIgM was detectable as early as 6 days post-GVH, before the appearance of circulating autoantibodies, and was particularly prominent in B cells that up-regulated surface I-A. A further increase in sIgM was found at later time points, along with circulating anti-HEL autoantibodies and a marked decrease in serum-free HEL, but no significant change in the amounts of HEL bound to B cells in vivo. These findings suggest that (i) abrogation of ER retention of IgM receptors in self-reactive B cells is an early event triggered by allogeneic T cells and (ii) at later stages of GVH disease the appearance of autoantibodies reduces the availability of free autoantigen, which may further escalate anergy escape of self-reactive B cells, and lead to exacerbation and perpetuation of autoimmunity.
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PMID:Chronic GVH prevents anergy in bone marrow self-reactive B cells: a selective increase in post-endoplasmic reticulum processing and trafficking to the cell surface of autoreactive IgM receptors. 1288 35

OX40 (CD134), a member of the tumor necrosis factor receptor superfamily, is expressed on activated T cells, including CD4(+)CD25(+) T regulatory (Treg) cells. To investigate the kinetics of OX40-OX40L in graft-versus-host disease (GVHD), OX40 mRNA transcript levels were temporally examined in peripheral blood mononuclear cells (PBMCs) from patients undergoing either allogeneic (allo) bone marrow transplantation (alloBMT) or autologous (auto) BMT with the induction of autoGVHD by cyclosporine (CsA) treatment posttransplant. Real-time quantitative PCR analysis revealed that OX40 mRNA expression decreased significantly in PBMCs from patients with either alloGVHD or autoGVHD compared with healthy individuals. No differences were detected between patients developing alloGVHD and those who did not develop this posttransplant complication. On the other hand, a decrease in OX40 mRNA levels correlated directly with the development of autoGVHD. Moreover, the upregulation of OX40 gene expression coincided with the resolution of autoGVHD. Interestingly, expression of OX40 by CD4(+) T lymphocytes after stimulation with autoantigen (Ag) was significantly (>700-fold) increased with a concomitant increase in expression of the Foxp3 regulatory gene. Expression of OX40 was increased (maximum 11-fold) after allo-Ag via mixed-lymphocyte reaction response. CsA suppressed the upregulation of OX40 expression after allo-Ag in a dose-dependent manner. Taken together, these results suggest that the decrease in OX40 expression posttransplant includes the defective reconstitution of Treg cells, and the active inhibition of gene transcription by CsA.
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PMID:Regulation of OX40 gene expression in graft-versus-host disease. 1580 46

Although defects in apoptosis have been linked to both human and murine lupus, the exact mechanisms remain unknown. Moreover, it is not clear whether such defects are primary or secondary events in disease pathogenesis. To address these issues, we used an induced model of murine lupus, the parent-into-F(1) model of chronic graft-versus-host disease (cGVHD) in which a lupus-like phenotype highly similar to human systemic lupus erythematosus is reliably induced in normal F(1) mice. We addressed the role of nuclear Ags modified by caspases during apoptosis as potential targets of the autoantibody response and our results identify poly(ADP-ribose) polymerase 1 (PARP-1) as a frequently targeted autoantigen. Additional proteins cleaved during apoptosis were also targeted by the immune response. Importantly, female mice exhibited significantly greater numbers of apoptotic cells in germinal centers and higher serum anti-PARP-1 Ab levels compared with male cGVHD mice. Serum anti-PARP-1 levels in male cGVHD mice could be elevated to levels comparable to those of female cGVHD mice by the injection of apoptotic syngeneic F(1) splenocytes early in the disease course. These results provide a mechanism by which lupus autoantibodies target apoptotic molecules. Specifically, T cell-driven polyclonal B cell activation characteristic of systemic lupus erythematosus is sufficient to saturate otherwise normal apoptotic clearance mechanisms, permitting apoptotic material to accumulate, serve as autoantigens, and drive autoantibody production.
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PMID:Apoptotic splenocytes drive the autoimmune response to poly(ADP-ribose) polymerase 1 in a murine model of lupus. 1718 44


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