UMLS:C0004364 - FACTA Search

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Query: UMLS:C0004364 (autoimmune disease)
24,845 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice homozygous for lpr (lymphoproliferation) or gld (generalized lymphoproliferative disease) develop lymphadenopathy and suffer from autoimmune disease. The lpr mice have a mutation in a cell-surface protein, Fas, that mediates apoptosis. Fas ligand (FasL) is a tumor necrosis factor (TNF)-related type II membrane protein and binds to Fas. Here, mouse Fasl gene was isolated and localized to the gld region of mouse chromosome 1. Activated splenocytes from gld mice express Fasl mRNA. However, FasL in gld mice carries a point mutation in the C-terminal region, which is highly conserved among members of the TNF family. The recombinant gld FasL expressed in COS cells could not induce apoptosis in cells expressing Fas. These results indicate that lpr and gld are mutations in Fas and Fasl, respectively, and suggest important roles of the Fas system in development of T cells as well as cytotoxic T lymphocyte-mediated cytotoxicity.
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PMID:Generalized lymphoproliferative disease in mice, caused by a point mutation in the Fas ligand. 751 Oct 63

Human autoimmune diseases share the common feature of an imbalance between the production and destruction of various cell types including lymphocytes (SLE), synovial cells (RA), and fibroblasts (scleroderma). Patients with SLE have increased levels of soluble Fas that inhibit proper apoptosis of lymphocytes. In animal models of autoimmune diseases, mutations of genes involved in apoptosis including Fas, Fas ligand, and the hematopoietic cell phosphatase gene have been identified. Oncogenes, including bcl-2, p53, and myc, that regulate apoptosis are also expressed abnormally. Potent inducers of apoptosis including steroids, azathioprine, cyclophosphamide, and methotrexate are the most efficacious therapies for autoimmune disease currently known. Specific therapies that induce apoptosis without incurring side effects should improve treatment of autoimmune disease.
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PMID:Autoimmune disease. A problem of defective apoptosis. 752 7

The gld mouse represents a fascinating animal model of autoimmune disease, which is characterized by massive development of Thy-1.2+B220+ CD4-CD8- cells. These cells thus have double positive markers for T and B cells, but are double negative for CD4 and CD8 markers and are thus designated DN cells in the present context. An additional important feature in gld mice is a defect in expression of Fas ligand. To investigate the regulatory role of bone marrow-derived cells for the development of these DN cells and of gld autoimmunity, we constructed chimeric mice transplanted with fetal liver cells or fetal thymus from gld mice into nonirradiated severe combined immunodeficient (SCID) mice. These chimeric mice regenerated, developed both these DN cells and the gld autoimmune syndrome and also generalized lymphoproliferative disorders. However, when fetal liver cells from both gld and non-gld mice (C57BL/10 Thy-1.1 mice) were co-transplanted into SCID mice, the development of DN cells was apparently inhibited. Further, this inhibition was also seen in SCID mice that had been grafted with both gld and non-gld fetal thymus revealing the pivotal role played by T cells in development of DN cells. When B cells purified from non-gld (C3H+/+) mice were transplanted into SCID mice grafted with gld fetal thymus, the development of DN cells was not inhibited. Taken together, these findings indicate that T cells from non-gld mice inhibit the expression of gld features, e.g., lymphoproliferation, immune-based nephritic disease, and autoantibody production. These findings also suggest that the Fas ligand is selectively expressed on T cells.
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PMID:Defective T cells from gld mice play a pivotal role in development of Thy-1.2+B220+ cells and autoimmunity. 752 51

Recent progress in the definition of molecules involved in immune regulation has led to the discovery of a number of type I membrane glycoproteins with a distinctive, cysteine-rich, repetitive domain structure within their extracellular regions. Because the prototype members of this family are receptors for cytokines (tumor necrosis factor [TNF] and nerve growth factor [NGF]), it was expected that the ligands for the other receptors would possess cytokine-like activities. This prediction has been fulfilled by the cloning of cDNA encoding a series of type II membrane glycoproteins, with homology to TNF, that bind to, and signal through, their cognate receptors. While the biological role of some of these ligand-receptor pairs remains obscure, at least two members of the family, CD40 and Fas, have proven their importance. The human X-linked immunodeficiency, hyper IgM syndrome, is the result of mutations in the CD40 ligand gene, and the Fas and Fas ligand genes are mutated in two mouse strains, lpr and gld, that develop autoimmune disease. These findings, together with other evidence, point to key roles of CD40/CD40 ligand interactions in immune activation, particularly in T-dependent B cell responses, and of Fas/Fas ligand in apoptosis and peripheral tolerance. These molecules, as well as the other ligands of the family, share the property of costimulation of T cell proliferation and are all expressed by activated T cells. More detailed analysis of the expression patterns of ligands and receptors on lymphocyte subpopulations will be necessary to define their different roles in immune activation and suppression.
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PMID:A family of ligands for the TNF receptor superfamily. 752 88

The murine gene lpr encodes an aberrant form of the apoptosis-inducing receptor Fas. The gene gld, which causes an autoimmune syndrome phenotypically identical to that caused by lpr, encodes a mutant Fas ligand. Because the lpr gene must be expressed in both T and B cells to produce autoimmune disease, it might be anticipated that apoptosis abnormalities would be present in both. Therefore, we quantitated apoptosis in T and B cells from lpr, gld, and normal mice in a short-term in vitro culture system. Freshly isolated spleen cells from normal, lpr, or gld mice showed little or no apoptosis as assessed by quantitative DNA flow cytometry. However, after overnight culture, both T and B cells showed substantial spontaneous apoptosis. Such apoptosis increased strikingly with age in normal but not in autoimmune B cells. CD23low B cells, which are prominent in lpr and gld mice, were particularly notable for high levels of programmed cell death in normal mice. The apoptosis caused by the gld defect could not be corrected by coculture with normal spleen cells. The persistence with age of low levels of B cell apoptosis in lpr and gld mice presumably reflects deficient Fas/Fas ligand interactions. The further localization of the B cell apoptosis defect to the unusual CD23low B cells, which accumulate in lpr and gld mice, adds to the evidence that these cells may be of critical importance to autoimmunity.
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PMID:Apoptosis abnormalities of splenic lymphocytes in autoimmune lpr and gld mice. 752 92

Mice homozygous for lpr (lymphoproliferation) or gld (generalized lymphoproliferative disease) develop lymphadenopathy and splenomegaly and suffer from autoimmune disease. The lpr mice have a defect in a cell-surface receptor, Fas, that mediates apoptosis, while gld mice have a mutation in the Fas ligand (FasL). Northern hybridization with the FasL cDNA as probe indicated that the cells accumulating in lpr and gld mice abundantly express the FasL mRNA without stimulation. By means of in situ hybridization and immunohistochemistry, we identified the cells expressing the FasL mRNA as CD4-CD8- double negative T cells. The T cells from lpr mice were specifically cytotoxic against Fas-expressing cells. Since FasL is normally expressed in activated mature T cells these results indicate that the double negative T cells accumulating in lpr and gld mice are activated once, and support the notion that the Fas/FasL system is involved in activation-induced suicide of T cells. Furthermore, the graft-versus host disease caused by transfer of lpr bone marrow to wild-type mice can be explained by the constitutive expression of the FasL in lpr-derived T cells.
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PMID:Constitutive activation of the Fas ligand gene in mouse lymphoproliferative disorders. 753 Jan 97

Fas ligand (FasL) is a death factor that binds to its receptor, Fas, and induces apoptosis. Two mutations that accelerate autoimmune disease, lpr and gld, are known to correspond to mutations within genes encoding Fas and FasL, respectively. Here, Shigekazu Nagata and Takashi Suda summarize current knowledge of Fas and FasL, and discuss the physiological role of the Fas system in T-cell development, cytotoxicity and cytotoxic T lymphocyte (CTL)-mediated autoimmune disease.
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PMID:Fas and Fas ligand: lpr and gld mutations. 753 98

Fas, a member of the tumor necrosis factor receptor family, can induce apoptosis when activated by Fas ligand binding or anti-Fas antibody crosslinking. Genetic studies have shown that a defect in Fas-mediated apoptosis resulted in abnormal development and function of the immune system in mice. A point mutation in the cytoplasmic domain of Fas (a single base change from T to A at base 786), replacing isoleucine with asparagine, abolishes the signal transducing property of Fas. Mice homozygous for this mutant allele (lprcg/lprcg mice) develop lymphadenopathy and a lupus-like autoimmune disease. Little is known about the mechanism of signal transduction in Fas-mediated apoptosis. In this study, we used the two-hybrid screen in yeast to isolate a Fas-associated protein factor, FAF1, which specifically interacts with the cytoplasmic domain of wild-type Fas but not the lprcg-mutated Fas protein. This interaction occurs not only in yeast but also in mammalian cells. When transiently expressed in L cells, FAF1 potentiated Fas-induced apoptosis. A search of available DNA and protein sequence data banks did not reveal significant homology between FAF1 and known proteins. Therefore, FAF1 is an unusual protein that binds to the wild type but not the inactive point mutant of Fas. FAF1 potentiates Fas-induced cell killing and is a candidate signal transducing molecule in the regulation of apoptosis.
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PMID:A Fas-associated protein factor, FAF1, potentiates Fas-mediated apoptosis. 852 70

Studies of the biological effects of Fas signaling, using transformed cell lines as targets, indicate that ligation of the Fas receptor induces an apoptotic death signal. Chronically activated normal human T cells are also susceptible to Fas-mediated apoptosis. However, interactions between Fas and Fas ligand can also yield a costimulatory signal. Here, David Lynch, Fred Ramsdell and Mark Alderson present a model for the role of As and FasL in the homeostatic regulation of normal immune responses. They discuss how dysregulation of the Fas apoptotic pathway may contribute to certain disease states, including autoimmune disease and human immunodeficiency virus (HIV)-induced depletion of CD4+ T cells.
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PMID:Fas and FasL in the homeostatic regulation of immune responses. 876 24

New Zealand Black (NZB) mice spontaneously develop autoimmune disease, usually characterized by an autoimmune hemolytic anemia, and NZB genes are essential for a severe systemic lupus-like disease in (NZB x NZW)F1 mice. We have found that resting B cells from NZB mice demonstrate a pronounced defect, compared with five normal strains, in apoptosis induction after cross-linking with anti-IgM Abs. In contrast, spontaneous apoptosis of NZB B cells in culture was similar to normal strains. B cells from young (NZB x SM/J)F1 and (NZB x NZW)F1 mice underwent apoptosis normally, indicating that the NZB defect in apoptosis is a recessive trait. However, older (8-32 wk) predisease (NZB x NZW)F1 mice manifested a similar defect in apoptosis induction. The analysis of NXSM recombinant inbred mice derived from NZB and SM/J, in addition to backcross mice, suggested that the NZB apoptosis defect is a multigenic trait. Interestingly, resting B cells form B6.lpr and B6gld mice underwent apoptosis following anti-IgM treatment at a level similar to that of the C57BL/6 parental strain. Thus, the induced apoptosis of resting B cells and the NZB defect are likely not related to either Fas or Fas ligand. We propose that this phenotypic defect in apoptosis induction, or the biochemical alteration that underlies the defect, may be casually related to autoimmune disease in NZB mice and its contribution to lupus-like disease in (NZB x NZW)F1 mice.
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PMID:Resting B cells from New Zealand Black mice demonstrate a defect in apoptosis induction following surface IgM ligation. 866 26

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