UMLS:C0409974 - FACTA Search

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Query: UMLS:C0409974 (lupus)
22,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fas ligand (FasL) is a type II membrane protein which belongs to the tumor necrosis factor family. Ligation of its receptor (Fas/APO-1/CD95) by FasL induces apoptosis of Fas-expressing cells. However, the in vivo function of these molecules in cutaneous immunity is presently unknown. In the present study, we investigated the involvement of Fas and FasL in the pathogenesis of cutaneous lupus by immunohistochemical methods. In normal skin, expression of Fas was observed on keratinocytes in the basal to granular layers. Unexpectedly, FasL was constitutively expressed on histiocytes in the dermis. In specimens of cutaneous lupus, Fas was expressed on infiltrating lymphocytes, as well as on keratinocytes as observed in normal skin. FasL was expressed on a portion of infiltrating CD4+ T cells and on histiocytes more frequently than those in normal skin. Double staining indicated that these FasL-expressing histiocytes were CD68 positive macrophages. Especially, FasL-expressing macrophages were distributed around appendages such as hair follicles. These results suggest the Fas/FasL interaction may be involved in the destruction of hair follicles which is a characteristic feature of cutaneous lupus.
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PMID:Expression of Fas ligand and its receptor in cutaneous lupus: implication in tissue injury. 917 10

Fas (CD95)-mediated apoptosis in B and T cells is deficient in both human autoimmune lymphoproliferative syndrome and in MRL-lpr mice, a model for systemic lupus erythematosis (SLE). Autoimmune disease in these mice is associated with polyclonal B cell activation, increased serum immunoglobulin and autoantibodies. In non-autoimmune mice MHC class II is not required for normal serum immunoglobulin expression, and previously we have shown using MHC class II-deficient MRL-lpr mice (MRL-lpr Ab-/-) that generation of specific antibodies to DNA requires MHC class II-directed T cell help. In contrast, in the present study we demonstrate that MRL-lpr Ab-/- mice also have a profound reduction of total serum immunoglobulin levels, suggesting abnormal polyclonal regulation of B cells by MHC class II-directed T cells occurs in the autoimmune MRL-lpr strain. This abrogation of immunoglobulin production does not occur in MHC class II-deficient non-obese diabetic (NOD) mice, nor in MHC class I-deficient NOD or MRL-lpr mice. Reduced immunoglobulin levels in MRL-lpr Ab-/- mice were not due to a lack of B cells or to an increased loss of circulating immunoglobulin, but were associated with reduced numbers of surface IgG-positive B cells. These results define a general abnormal regulation of B cells in MRL-lpr mice through a process requiring MHC class II, and suggest that Fas deficiency may allow expansion of totally T-dependent B cells.
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PMID:Hypogammaglobulinaemia occurs in Fas-deficient MRL-lpr mice following deletion of MHC class II molecules. 932 25

The roles of cytolytic regulatory mechanisms in the immune system of lupus-prone mice were examined in perforin-deficient animals bearing functional or defective (lpr) Fas Ag (CD95). Perforin-deficient Fas+ animals developed accelerated autoimmunity, characterized by increased hypergammaglobulinemia, autoantibody production, and immune deposit-related end-organ disease compared with perforin-intact counterparts. In comparison, perforin-deficient lpr animals had accelerated mortality compared with perforin-intact lpr mice, associated with the abnormal accumulation of CD3+CD4-CD8- alphabeta T cells in conjunction with unaltered hypergammaglobulinemia, autoantibody production, and immune complex renal disease. These results indicate that cytolytic lymphoid regulation plays critical roles in the immune homeostasis of lupus-prone animals, and identify perforin-mediated cytotoxicity as a specific mechanism in the regulation of systemic autoimmunity.
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PMID:Perforin protects against autoimmunity in lupus-prone mice. 955 99

Fas (CD95) is a cell surface receptor whose biological function in circulating peripheral T cells is not well understood. To address the question of abnormal T cell sensitivity to Fas stimulation in systemic lupus erythematosus (SLE), we studied Fas-transduced stimulation and apoptosis in peripheral blood T cells from patients with SLE and normal control. Immobilized anti-Fas monoclonal antibodies (mAb) (imCH-11; IgM type) significantly stimulated SLE T cell proliferation compared to T cells from normal donors and patients with rheumatoid arthritis (p < 0.003 and p < 0.005, respectively). The soluble form of CH-11 and other immobilized anti-Fas mAb (UB-2, ZB-4; IgG type) failed to stimulate lupus T cells while immobilized human Fas ligand did. Furthermore, imCH-11 induced IL-2 and IL-6 mRNA expression. However, imCH-11 activation failed to induce expression of the T cell activation surface molecules CD25 and CD69. Addition of exogenous ceramide, a second messenger for Fas-mediated apoptosis signaling, also induced T cell proliferation in SLE and normal controls. Moreover, fumonisin B1, a specific ceramide synthase inhibitor, and caspase inhibitors markedly suppressed imCH-11 induced T cell proliferation, suggesting that the ceramide pathway may be involved in Fas-transduced stimulation signals in SLE T cells. These results show that SLE T cells have an alteration in the Fas signal transduction pathway leading to cell proliferation. This defect may be important in Fas-mediated peripheral immune homeostasis.
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PMID:Fas (CD95)-transduced signal preferentially stimulates lupus peripheral T lymphocytes. 975 53

Recent evidence indicates that B cell receptor signaling plays a role in the generation of the B-1 cell lineage that expresses the CD5 marker, and the CD95-mediated death plays an essential role in maintaining B cell tolerance. We therefore probed CD5 and CD95 expression on B cells from systemic lupus erythematosos (SLE) patients and control subjects. Firstly, in agreement with previous studies, we found that CD5 expression (11%) was relatively constant among control individuals. We also noted that the activation of B cells up-regulates this marker. Unexpectedly, we found that the B-1 cell subset is under-represented (3.9+/-0.3%) in SLE patients in an inactive stage of the disease. Together with related studies, these findings suggest that there is a correlation between CD5 expression and disease activity. Secondly, we found that CD95(+) B cells can be divided into two subsets expressing a high- (CD95(high)) and a low-density (CD95(low)) of CD95. There was no difference in the proportion of total CD95(+) B cells (23.5+/-2.8) in the two groups, but SLE patients in an inactive phase of the disease characteristically expressed a relatively high proportion (50%) of CD95(high) B cells. This finding would mean that a large fraction of B lymphocytes are sensitive to apoptosis, implying that autoantibody-producing B cells are derived from CD95(low) B cells and are relatively resistant to apoptosis.
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PMID:High-density expression of CD95 on B cells and underrepresentation of the B-1 cell subset in human lupus. 980 28

The role of complement in the maintenance of self-tolerance has been examined in two models: an immunoglobulin transgenic model of peripheral tolerance and a lupus-like murine model of CD95 (Fas) deficiency. We find that self-reactive B lymphocytes deficient in complement receptors CD21/CD35 or transferred into mice deficient in the complement protein C4 are not anergized by soluble self-antigen. In the second model, deficiency in CD21/CD35 or C4 combined with CD95 deficiency results in high titers of anti-nuclear antibodies leading to severe lupus-like disease. These findings suggest a novel role for the complement system in B cell tolerance and provide insight into the genetic association of complement deficiency with susceptibility to systemic lupus erythematosus.
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PMID:A critical role for complement in maintenance of self-tolerance. 984 93

Lymphocyte development, selection and education represent tightly controlled immune processes that normally prevent autoimmunity. Lymphocyte development requires cellular selection through apoptosis to remove potentially autoreactive cells. Dysregulated apoptosis, both interrupted as well as accetuated apoptosis, are now demonstrated as central defects in diverse human and murine autoimmune disease. In murine models of autoimmune lupus, mutations in cell death receptor CD95 (Fas) and its ligand CD95L (FasL) have been identified; these errors create a lymphoid system resistant to apoptosis. In contract, select lymphoid subpopulations of auto immune diabetic mice have accelerated apoptosis due to faulty activation of transcription factor NF-kappaB that normally protects against apoptotic death. The genetic basis of interrupted NF-kappaB in diabetes is a gene defect in an essential subunit of the proteasome. Although no specific gene in most common forms of human autoimmune disease has been identified, functional assays repeatedly demonstrate apoptotic defects in multiple cellular signaling pathways for cell death.
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PMID:Implications of altered apoptosis in diabetes mellitus and autoimmune disease. 1132 Oct 39

It has been reported that apoptotic cells are increased in the peripheral blood from patients with systemic lupus erythematosus (SLE), where dysfunctions of T helper 1 (Th1) cells are known. In order to study whether apoptosis of Th1 cells is associated with the pathogenesis of SLE, early apoptotic cells in various T-cell subsets were detected using fluorescence-labeled annexin V (AnV). AnV binding was most frequently observed in CD4+CCR5+ T cells, and AnV binding rate (%) in this subset was higher in SLE than in normal controls (14.7 +/- 2.6), although that in active SLE (43.6 +/- 7.3) tended to be lower than that in inactive SLE (48.0 +/- 6.8). CD95/Fas expression was also increased in both active and inactive SLE. In some SLE patients, AnV binding rate changed in inverse proportion to titer of the serum anti-DNA antibody and in proportion to serum complement activity. These data suggest that apoptosis in Th1 cells is important in the pathogenesis of SLE and might play a role in regulating over-activation or autoreactive responses by T cells.
Lupus 2001
PMID:A possible role of apoptosis for regulating autoreactive responses in systemic lupus erythematosus. 1134 Nov 5

Cell death by apoptosis is exerted by the coordinated action of many different gene products. Mutations in some of them, acting at different levels in the apoptosis process, have been identified as cause or contributing factor for human diseases. Defects in the transmembrane tumor necrosis factor receptor 1 (TNF-R1) lead to the development of familial periodic fever syndromes. Mutations in the homologous receptor Fas (also named CD95; Apo-1) are observed in malignant lymphomas, solid tumors and the autoimmune lymphoproliferative syndrome type I (ALPS I). A mutation in the ligand for Fas (Fas ligand; CD95 ligand, Apo-1 ligand), which induces apoptosis upon binding to Fas, was described in a patient with systemic lupus erythematodes and lymphadenopathy. Perforin, an other cytotoxic protein employed by T- and NK-cells for target cell killing, is mutated in chromosome 10 linked cases of familial hemophagocytic lymphohistiocytosis. Caspase 10, a representative of the caspase family of proteases, which plays a central role in the execution of apoptosis, is defect in autoimmune lymphoproliferative syndrome type II (ALPS II). The intracellular pro-apoptotic molecule bcl-10 is frequently mutated in mucosa-associated lymphoid tissue (MALT) lymphomas and various non-hematologic malignancies. The p53, an executioner of DNA damage triggered apoptosis, and Bax, a pro-apoptotic molecule with the ability to perturb mitochondrial membrane integrity, are frequently mutated in malignant neoplasms. Anti-apoptotic proteins like bcl-2, cellular-inhibitor of apoptosis protein 2 (c-IAP2) and neuronal apoptosis inhibitory protein 1 (NAIP1) are often altered in follicular lymphomas, MALT lymphomas and spinal muscular atrophy (SMA), respectively. This article reviews the current knowledge on mutations of apoptosis genes involved in the pathogenesis of human diseases and summarises the gradual transformation of discoveries in apoptosis research into benefits for the clinical management of diseases.
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PMID:Mutations in apoptosis genes: a pathogenetic factor for human disease. 1139 50

Levels of apoptotic lymphocytes have been found to be increased in SLE and persistence of apoptotic cells has been associated with autoantibody production. Increased lymphocyte Fas (CD95) expression due to lymphocyte activation may account for increased susceptibility to Fas-mediated apoptosis in SLE. Flowcytometry was performed to evaluate membrane expression of Fas in combination with the activation markers CD25, HLA-DR and CD38 on, respectively, CD4+, CD8+ and CD19+ lymphocytes of SLE patients with inactive (n = 20) and with active disease (n = 13). SLEDAI-scores were calculated. Healthy volunteers (n = 14) served as controls. Percentages of CD4+ T-cells expressing CD25 and CD19+ B-cells expressing CD38 were increased in patients with active disease compared to controls (P = 0.03, P = 0.04, respectively). In contrast to CD4+ and CD8+ cells, percentages of CD19+ cells expressing Fas were increased in SLE patients with active disease (P = 0.0002 vs controls). In these patients percentages of cells double positive for both CD38 and Fas were increased compared to patients with inactive disease (P = 0.006) and controls (P = 0.0007). Percentages of CD19+ cells expressing Fas correlated with SLEDAI-scores. In SLE patients, percentages of Fas-expressing B-lymphocytes are increased, are related to the state of lymphocyte activation, and correlate to disease activity. Increased Fas expression results in a higher susceptibility for Fas-mediated apoptosis, which might contribute to the increased levels of apoptotic lymphocytes in SLE patients.
Lupus 2001
PMID:Fas expression on peripheral blood lymphocytes in systemic lupus erythematosus (SLE): relation to lymphocyte activation and disease activity. 1178 76

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