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:C0018133 (graft-versus-host disease)
18,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A hamster antimouse CD3 monoclonal antibody (MoAb) opened the way to experimental studies on the suppression of allograft rejection and cytokine-related morbidity after treatment with antibodies modulating the CD3/T-cell receptor complex (CD3/TCR). Because earlier attempts to suppress graft-versus-host disease (GVHD) in patients by in vitro treatment of donor marrow with anti-CD3 MoAb had remained inconclusive, we used a rat IgG2b antimouse CD3 MoAb (17A2) with fewer side effects to analyze suppression of GVHD in the mouse model. Detailed phenotyping of blood, spleen, and lymphnode T cells after the injection of 400 micrograms 17A2 in C57BL/6 mice showed 60% CD3 downmodulation and 50% T-cell depletion for spleen cells. Injection of these spleen cells, together with bone marrow cells, in fully mismatched preirradiated CBA mice delayed GVHD by only 6 days. Ex vivo treatment of donor cells with 17A2 was not effective. In contrast, conditioning of marrow recipients with a single injection of 17A2 delayed 50% GVHD mortality by 100 days and prevented GVHD altogether after prolonged treatment, with survivors showing complete chimerism and specific transplantation tolerance. This difference in antibody effect contrasts with earlier experiences with nonmodulating but more strongly T-cell-depleting MoAbs of the same isotype, which prevent GVHD no matter whether applied in vitro or injected into donor or recipient mice. Our data indicate that CD3/TCR reexpression in marrow recipients with no circulating 17A2 is the reason why ex vivo donor cell treatment with anti-CD3 MoAb is comparatively ineffective. Our data, which allow separate evaluation of cell-depleting and cell-modulating antibody activity, help to explain previous clinical failure to suppress GVHD and provide evidence in favor of conditioning the marrow recipient with anti-CD3 MoAb as a therapeutic alternative.
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PMID:Antilymphocytic antibodies and marrow transplantation. XII. Suppression of graft-versus-host disease by T-cell-modulating and depleting antimouse CD3 antibody is most effective when preinjected in the marrow recipient. 135 60

Peripheral gamma/delta+ T cells were studied in patients following allogeneic bone marrow transplantation (BMT) by indirect immunofluorescence utilizing two monoclonal antibodies (G1 and A13) able to recognize the two major subpopulations (V delta 2+ and V delta 1+, respectively) of these cells. We found that the relative percentage of 'total' (gamma/delta+ T lymphocytes) (V delta 2 + V delta 1 positive cells), and particularly of G1+ (V delta 2+) cells, in CD3+ lymphocytes was higher in transplanted patients, and especially in those presenting with acute graft-versus-host disease (aGVHD), than in normal controls. This finding was confirmed by the analysis of the V delta 2+/V delta 1+ cell ratio which was again significantly higher in patients with aGVHD as compared to controls. Similarly, the absolute number of 'total' gamma/delta+ and V delta 2+ cells was also significantly increased in patients with aGVHD. TCR gamma/delta+ T cells increased as a function of time after BMT reaching a plateau value at about day 60 post-BMT. When patients were stratified for the presence or absence of aGVHD this correlation was maintained only for patients with aGVHD. Finally, most V delta 2+ cells expressed surface T cell activation markers such as CD25 (IL-2 receptor) and DR (MHC class II) antigens. Our results suggest a possible involvement of gamma/delta+ T cells and particularly of V delta 2+ cells in the clinical and immunological events (aGVHD) occurring after allogeneic BMT.
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PMID:TCR gamma/delta positive lymphocytes after allogeneic bone marrow transplantation. 142 78

Microbial superantigens (SA), bound to human B cell surface MHC class II molecules, have been shown to promote direct, "cognate" interaction with SA-reactive autologous Th cells, resulting in polyclonal Ig production. To investigate the potential for microbial SA to support Th cell-dependent, Ag-specific antibody responses, we have extended our studies to the murine system. BALB/c Th cell lines (TCL), specific for either the Mycoplasma arthritis-derived SA or the Staphylococcus aureus-derived toxic shock syndrome toxin-1) were generated. These TCL cells are SA-specific, functionally noncross-reactive, and utilize distinct TCR V beta gene families. Coculture of SA-reactive TCL cells and syngeneic B cells bearing the relevant SA results in B cell proliferation and polyclonal IgM and IgG production. In contrast, Ag-specific (SRBC-specific) antibody-forming cells are only generated in cultures that also contain SRBC. Thus, microbial SA-mediated Th-B cell interactions induce both polyclonal B cell activation and provide selective help for the proliferation and/or differentiation of B cells that have encountered specific Ag. In additional studies, we determined that the in vivo administration of toxic shock syndrome toxin-1 to young, athymic (nude) BALB/c mice results in SA binding to splenic B cells, rendering these B cells effective stimulators of and targets for SA-reactive helper TCL cells. Taken together, these results demonstrate that microbial SA mediate productive Th-B cell interactions analogous to those that occur during allospecific Th-B cell interactions in vitro and GVHD in vivo. These findings are consistent with the hypothesis that microbial SA represent environmental factors that may trigger autoimmune disease in the genetically susceptible host.
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PMID:T helper cell-dependent, microbial superantigen-induced murine B cell activation: polyclonal and antigen-specific antibody responses. 183 62

We report the immunological characteristics of five patients with Omenn's syndrome, a rare inherited immunodeficiency also known as combined immunodeficiency with hypereosinophilia. The syndrome is characterized by T cell infiltration of skin, gut, liver, and spleen leading to diffuse erythroderma, protracted diarrhea, failure to thrive, and hepatosplenomegaly. Blood T cells as well as those infiltrating the skin and gut were found to express activation markers and were partially activated by mitogens but not by antigens. Although the lesions resembled those in graft-versus-host disease, the blood T cells were shown by DNA haplotype analysis using probes revealing variable number of tandem repeats to belong to the patients as well as the T cells infiltrating the gut and skin in one patient. A given T cell subset (TCR alpha beta+, CD4+/CD8+, or TCR gamma delta+) was predominant in each patient, with a specific distribution in the skin lesions. Moreover, the study of T cell receptor beta, gamma, and delta gene rearrangements in four patients revealed oligoclonality involving C beta 1, C beta 2, or different V gamma J gamma or V delta J delta genes. This indicates that restricted heterogeneity of the T cell repertoire, previously reported in one case, is a major feature of this syndrome. The occurrence of alymphocytosis-type severe combined immunodeficiency in the brother of one of the patients suggests that the restricted heterogeneity of T cell receptor gene usage in Omenn's syndrome may arise from leakiness, within the context of a genetically determined faulty T cell differentiation.
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PMID:Restricted heterogeneity of T lymphocytes in combined immunodeficiency with hypereosinophilia (Omenn's syndrome). 201 May 48

The immune deficiency induced by HIV has its origin in the interaction of the outer envelope glycoprotein gp120/gp41 with receptors present on human immunocytes. Virus binding to cells, virus entry and subsequent compartmentalization resulting in productive infection depends on the interaction of gp120/gp41 with CD4 and other accessory molecules. Gp120 and HIV are markedly immunosuppressive of T-cell responses and, in addition, HIV can functionally delete antigen responsiveness of T cells. Abolition of CD4 binding, by denaturation of gp120, allows study of T-cell epitopes in gp120 and shows the denatured molecule is highly immunogenic even in naive subjects (F. Manca, unpublished). The gp120-binding site of CD4 is shared with MHC class II molecules and the reaction of antibodies within this region of CD4 induces conformational changes that may be significant for virus entry into cells or for syncytial formation. The HIV envelope contains sites of sequence homology with monomorphic human MHC class II sites that do not appear to be naturally immunogenic in humans. In addition to the properties of gp120, it is hypothesized that HIV envelope may also represent an 'alloepitope' of class II to the human T-cell repertoire, and is therefore able to induce a chronic allogeneic response not dissimilar to experimentally induced GVHD. These features are of potential importance both for primary vaccination against HIV, and for the long-term treatment of HIV seropositive patients. Induction of effective T-cell responses to gp120 require use of a denatured or otherwise modified product lacking CD4-binding capacity. The potential distortion of the TCR repertoire by the class-II-homologous and CD4-interactive sequences must be assessed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:AIDS pathogenesis: HIV envelope and its interaction with cell proteins. 187 30

It has been established that, even after syngeneic bone marrow transplantation, animals treated with immunosuppressive drugs may suffer from graft-versus-host disease, showing autoimmune-like symptoms. Although the major effector cells are known to be T-cell subsets, detailed characterization of such T cells remains to be investigated. In the present study, we characterized them, especially as to whether they are thymus-derived T cells or extrathymic T cells, and how self-reactive clones were distributed among the above T-cell subsets. BALB/c mice (Mls-1b2a) were irradiated (9 Gy), subjected to bone marrow transplantation, and then treated with cyclosporin A (CsA) for 6 weeks. From 2 weeks after the cessation of CsA, these mice displayed signs of GVH disease. The major target organs included the liver and colon. Two-color staining for CD3 and IL-2R beta was applied to identify CD3-IL-2R beta+ NK cells, CD3-intermediate +IL-2R beta+ cells (i.e., intermediate CD3 or TCR cells of extrathymic origin) and CD3-high+IL-2R beta- cells (i.e., high CD3 cells of thymic origin). It was demonstrated that the major expanding lymphocytes were intermediate TCR cells and that self-reactive clones (V beta 3+ and V beta 11+ cells in this strain of mice) were confined to this population. Interestingly, these self-reactive clones had ability to respond to immobilized anti-V beta 3 and anti-V beta 11 mAbs. Liver MNC in mice with GVH disease which contained the highest proportion of intermediate TCR cells were able to mediate the adoptive transfer of GVH disease to other irradiated (6.5 Gy) mice. Intermediate TCR cells also showed potent cytotoxic activity against syngeneic leukemia cells. These results suggest that intermediate TCR cells are the major effector cells for the induction of syngeneic GVH disease.
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PMID:Intermediate TCR cells with self-reactive clones are effector cells which induce syngeneic graft-versus-host disease in mice. 749 19

Syngeneic bone marrow transplantation following lethal X-irradiation and subsequent administration of cyclosporin A (CsA) results after cessation of CsA treatment in an autoimmune disease which is thymus dependent and resembles graft-versus-host disease. The chronic dermal changes of this experimental autoimmune model have similarities with human scleroderma in terms of skin histopathology. In this study we evaluated the possible role of different effector leukocytes in the rat model of CsA-induced autoimmunity (CsA-AI) by examining the skin by immunohistology. In the acute phase both CD4+ and CD8+ TCR alpha beta + T-cells together with activated ED1+ macrophages and class II MHC-upregulated keratinocytes were seen in the epidermis; no selective use of TCR V beta was observed. Few TCR alpha beta + T-cells were seen in the dermis where CD4+ ED2+ macrophages were abundant. With the change from acute to chronic, scleroderma-like lesions the CD4+ T-cells disappeared from the epidermis and the TCR alpha beta + cells were now almost exclusively CD8+; both class II MHC-upregulated keratinocytes and macrophages persisted. Changes in TCR gamma delta + T-cells were not observed in the acute or chronic phase. As a possible effector mechanism CD4+ T-cells in the acute-phase of CsA-AI may cause the observed activation of macrophages and keratinocytes. Furthermore, CD4+ T-cells may be necessary for the homing of the CD8+ T-cells in the epidermis. Especially the activated keratinocytes are suspected of being the target cells which may perpetuate the ongoing autoimmune response into the chronic phase as established by CD8+ T-cells only.
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PMID:Cutaneous immunopathology of cyclosporin-A-induced autoimmunity in the rat. 758 42

NK-like cytotoxicity in F1-hybrid mice with acute GVH disease is mediated by donor-derived CD3+/CD4-/CD8- cells that can lyse both NK-sensitive YAC-1 target cells as well as NK-resistant targets such as BW1100 and P815. Our objective was to determine whether this activity is mediated by gamma delta TCR+ cells. We showed that NK-like cytotoxic activity in the spleen and lymph nodes of mice with acute GVH disease could be depleted by indirect complement-mediated lysis using an Ab against gamma delta TCR. When purified NK1.1+ spleen cells that had been positively selected on a magnetic cell separator were used as effector cells, we found that NK-like cytotoxicity was mediated only by gamma delta TCR+ cells, suggesting that cells with NK-like activity are gamma delta TCR+/NK1.1+. We showed by flow cytometry experiments that coexpression of NK1.1 and TCR-gamma delta occurred on a large proportion of large granular lymphocytes in the spleens of GVH mice, but was not detectable in normal control mice. In GVH mice, fewer than 10% of small agranular NK1.1+ lymphocytes coexpressed NK1.1+ and gamma delta TCR+. On the basis of this hypothesis, we postulate that graft-derived large granular lymphocytes develop the NK1.1+/gamma delta TCR+ phenotype during the reaction, and that these cells play a role in the pathogenesis of acute GVH disease. We performed experiments to determine whether depletion of gamma delta T cells from donor mice affected the outcome of lethal GVH disease and found that there was a significant reduction in mortality.
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PMID:Gamma delta T cells in the pathobiology of murine acute graft-versus-host disease. Evidence that gamma delta T cells mediate natural killer-like cytotoxicity in the host and that elimination of these cells from donors significantly reduces mortality. 759 74

Syngeneic graft-versus-host disease (SGVHD) has been shown to occur in murine syngeneic radiation bone marrow chimeras following a short course of cyclosporine. To analyze the effector mechanisms present in diseased animals, four T cell clones (1D5, 1D8, 1C10, 2D8) were isolated from the spleens of C3H/HeN mice late in the disease course by cloning on irradiated syngeneic spleen cells. These clones were CD4+, alpha beta TCR+ and responded to I-Kk in vitro. In addition to I-Ek reactivity, three of the clones exhibited crossreactivity with the superantigen MIs 1a (mtv 7). Clones 1D5 and 1C10 were found to express TCR V beta chains (V beta 4 and V beta 8.1, respectively), which are normally present in the T cell repertoire of C3H/HeN mice. All SGVHD clones were found to be autoreactive in that they responded to syngeneic stimulator cells in the absence of xenogeneic serum proteins. To test in vivo activity, the 1D5 SGVHD clone was injected into the hind footpad of mice where it was shown to induce footpad swelling in a cell dose-dependent, I-Ek-specific manner in sublethally irradiated, but not normal mice. Histological analysis indicated that the clone induced dermal and subcutaneous edema that correlated directly with injection of 1D5 and not the control clone. Preliminary experiments suggested that the other three autoreactive clones behaved in a similar manner. These data are consistent with the involvement of a self-class II-specific CD4+ T cell in murine SGVHD.
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PMID:In vivo reactivity of T cell clones isolated from mice with syngeneic graft-versus-host disease. 762 59

Conditioning regimens for BMT are important in determining transplant outcome. A radiation-free protocol containing Mitobronitol (DBM), Cytarabine (Ara-C) and Cyclophosphamide (Cy) was used for conditioning of patients with chronic granulocytic leukemia (CGL). Using this conditioning treatment, fewer transplant related complications, including acute GVHD, VOD and severe infections, were observed. Acute GVHD did not develop, but chronic GVHD, accompanied with graft-versus leukemia, was present in half of the cases. To determine the clinical effect of the DBM/Ara-C/Cy conditioning, the recovery of peripheral blood lymphocytes was examined after allogeneic BMT for patients with CGL in comparison with TBI/Cy conditioning. The lymphocyte subsets of 11 DBM patients were followed and analyzed periodically (30-90 days, 4-12 months and > 13 months) using ten monoclonal antibodies and flow cytometry. Decreased percentage of total T cells as well as CD4+ and CD8+ subpopulations, significantly decreased T cell activation and increased proportion of TCR gamma delta + cells were found to be characteristic in the early post-transplant period in the DBM group. Early recovery and consistently higher percentage of B cells were observed for the whole follow-up period of patients receiving DBM conditioning. A high proportion of NK cells was observed in all transplant recipients. These findings suggest that the characteristic pattern of recovering lymphocytes is associated with the lack of severe transplant-related clinical complications following DBM/Ara-C/Cy conditioning.
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PMID:Lymphocyte subset reconstitution after allogeneic bone marrow transplantation using radiation-free conditioning regimen for patients with chronic granulocytic leukemia. 767 5


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