Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004364 (autoimmune disease)
 24,845 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leflunomide, a novel immunosuppressive drug, is able to prevent and reverse allograft and xenograft rejection in rodents, dogs, and monkeys. It is also effective in the treatment of several rodent models of arthritis and autoimmune disease. In vitro studies indicate that leflunomide is capable of inhibiting anti-CD3- and interleukin-2 (IL-2)-stimulated T cell proliferation. However, the biochemical mechanism for the inhibitory activity of leflunomide has not been elucidated. In this study, we characterized the inhibitory effects of leflunomide on Src family (p56lck and p59fyn)-mediated protein tyrosine phosphorylation. Leflunomide was able to inhibit p59fyn and p56lck activity in in vitro tyrosine kinase assays. The IC50 values for p59fyn (immunoprecipitated from either Jurkat or CTLL-4 cell lysate) autophosphorylation and phosphorylation of the exogenous substrate, histone 2B, were 125-175 and 22-40 microM respectively, while the IC50 values for p56lck (immunoprecipitated from Jurkat cell lysates) autophosphorylation and phosphorylation of histone 2B were 160 and 65 microM respectively. We also demonstrated the ability of leflunomide to inhibit protein tyrosine phosphorylation induced by anti-CD3 monoclonal antibody in Jurkat cells. The IC50 values for total intracellular tyrosine phosphorylation ranged from 5 to 45 microM, with the IC50 values for the zeta chain and phospholipase C isoform gamma 1 being 35 and 44 microM respectively. Leflunomide also inhibited Ca2+ mobilization in Jurkat cells stimulated by anti-CD3 antibody but not in those stimulated by ionomycin. Distal events of anti-CD3 monoclonal antibody stimulation, namely, IL-2 production and IL-2 receptor expression on human T lymphocytes, were also inhibited by leflunomide. Finally, tyrosine phosphorylation in CTLL-4 cells stimulated by IL-2 was also inhibited by leflunomide. These data collectively demonstrate the ability of leflunomide to inhibit tyrosine kinase activity in vitro, and suggest that inhibition of tyrosine phosphorylation events may be the mechanism by which leflunomide functions as an immunosuppressive agent.
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PMID:Inhibition of protein tyrosine phosphorylation in T cells by a novel immunosuppressive agent, leflunomide. 775 80

Insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease that is characterized by selective destruction of insulin-secreting beta-cells. Cytokines have been implicated as effector molecules that participate in both islet inflammation and beta-cell destruction during the development of IDDM. In this study, the effects of cytokines on the expression of inducible nitric oxide synthase (iNOS) and inducible cyclooxygenase (COX-2) by human islets were examined. In combination, the cytokines, human recombinant interleukin-1 beta (IL-1 beta), human recombinant tumor necrosis factor-alpha (TNF-alpha), and human recombinant interferon-gamma (IFN-gamma), induce the time-dependent formation of nitrite and prostaglandin E2 (PGE2) by human islets. The nitric oxide synthase inhibitor NG-monomethyl-L-arginine (L-NMMA) completely inhibits cytokine-induced nitrite formation and attenuates PGE2 production by human islets. L-NMMA does not inhibit cytokine-induced expression of COX-2 by human islets, suggesting that nitric oxide may directly activate cyclooxygenase, an effect that has been previously demonstrated for isolated rat islets. This combination of cytokines (IL-1 beta, TNF-alpha, and IFN-gamma) also induces the expression of iNOS mRNA by human islets as demonstrated by both reverse transcriptase-polymerase chain reaction and Northern blot analysis. We further show that the tyrosine kinase inhibitors genistein and herbimycin A prevent IL-1 beta plus IFN-gamma-induced expression of COX-2 and iNOS and the production of PGE2 and nitric oxide by human islets. These results demonstrate that cytokines induce the expression of iNOS and COX-2 by human islets and that cytokine-induced expression of both COX-2 and iNOS by human islets appears to require the activation of a tyrosine kinase(s).
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PMID:Tyrosine kinase inhibitors prevent cytokine-induced expression of iNOS and COX-2 by human islets. 876 39

Ubiquitously expressed SH2-containing tyrosine phosphatases interact physically with tyrosine kinase receptors or their substrates and relay positive mitogenic signals via the activation of the Ras-mitogen-activated protein kinase (MAPK) pathway. Conversely, the structurally related phosphatase SHP-1 is predominantly expressed in hemopoietic cells and becomes tyrosine phosphorylated upon colony-stimulating factor 1 treatment of macrophages without associating with the colony-stimulating factor 1 receptor tyrosine kinase. Mice lacking functional SHP-1 (me/me and me(v)/me(v)) develop systemic autoimmune disease with accumulation of macrophages, suggesting that SHP-1 may be a negative regulator of hemopoietic cell growth. By using macrophages expressing dominant negative Ras and the me(v)/me(v) mouse mutant, we show that SHP-1 is activated in the course of mitogenic signal transduction in a Ras-dependent manner and that its activity is necessary for the Ras-dependent activation of the MAPK pathway but not of the Raf-1 kinase. Consistent with a role for SHP-1 as an intermediate between Ras and the MEK-MAPK pathway, Ras-independent activation of the latter kinases by bacterial lipopolysaccharide occurred normally in me(v)/me(v) cells. Our results sharply accentuate the diversity of signal transduction in mammalian cells, in which the same signaling intermediates can be rearranged to form different pathways.
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PMID:Involvement of the protein tyrosine phosphatase SHP-1 in Ras-mediated activation of the mitogen-activated protein kinase pathway. 888 25

Lyn is a member of the src family of non-receptor protein tyrosine kinases that is predominantly expressed in haematopoietic tissues. Like all members of the src family, lyn is thought to participate in signal transduction from cell surface receptors that lack intrinsic tyrosine kinase activity. It is associated with a number of cell surface receptors including the B cell antigen receptor and Fc epsilon RI. Lyn deficient mice develop autoimmune disease characterised by autoantibodies in serum and the deposition of immune complexes in the kidney, a pathology reminiscent of systemic lupus erythematosus. Lyn deficient mice also have impaired signalling involving Fc epsilon RI in mast cells, resulting in defective allergic responses.
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PMID:Lyn, a src-like tyrosine kinase. 920 19

MRL/Mp-lpr/lpr (MRL/lpr) mice suffer from a generalized autoimmune disease that includes autoantibody production and glomerulonephritis and develop massive lymphadenopathy characterized by an expanded population of CD4- CD8- B220+ T cells that is derived from autoreactive T cells in the periphery. Some of us previously reported that these atypical T cells overexpressed a gene for tyrosine kinase p59fyn (Fyn). To define the role of Fyn in the renal disease and lymphadenopathy in MRL/lpr mice, we have generated Fyn-deficient MRL/lpr mice whose fyn gene is replaced by the gene for beta-galactosidase. Fyn-deficient MRL/lpr mice developed markedly limited disease and lived more than twice as long as the conventional MRL/lpr mice. In the mutant mice, the production of IgG3 anti-DNA autoantibody was significantly (p < 0.005%) reduced, and glomerular deposits of IgG3 and C3 were remarkably diminished. Ag receptor-mediated proliferative responses of Fyn-deficient splenic T cells were markedly impaired. The mutant mice showed delayed accumulation of the atypical CD4- CD8- B220+ T cells that exhibited a significantly lower activity of ZAP-70 compared with those in the conventional MRL/lpr mice. These data demonstrated that Fyn is involved as a positive regulator in the disease of MRL/lpr mice. Fyn provides a signal for both the expansion of autoreactive T cells and the production of IgG3 anti-DNA autoantibody by B cells. Thus, manipulation of Fyn may improve systemic autoimmune disease in humans.
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PMID:Suppression of autoimmune disease and of massive lymphadenopathy in MRL/Mp-lpr/lpr mice lacking tyrosine kinase Fyn (p59fyn). 927 47

Systemic lupus erythematosus (SLE) is an autoimmune disease whose cause is poorly understood. Mice rendered deficient in specific genes have served as useful animal models in deciphering the genetic control of the disease [1]. We [2] and others [3, 4] previously demonstrated that mice deficient in the Src family tyrosine kinase Lyn developed a mild lupus-like disease with high survival rates. During the course of investigating the functional interaction of Src family kinases, we generated a mouse strain deficient in both Lyn and Fyn. The double-mutant mice died at relatively young ages and developed a severe lupus-like kidney disease. Unlike the double-mutant mice, single mutants deficient in either Lyn or Fyn lived longer and had distinct subsets of the symptoms found in the former. Lyn deficiency led to high levels of autoantibody production and glomerulonephritis, as previously reported [2--4], whereas loss of Fyn contributed to proteinuria by a B and T lymphocyte-independent mechanism. Our data suggest that the severe kidney disease in the double-mutant mice results from a combination of immunological and kidney-intrinsic defects. This new animal model may be informative about the causes of human SLE.
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PMID:Lupus-like kidney disease in mice deficient in the Src family tyrosine kinases Lyn and Fyn. 1116 77

Mutations in a number of signaling components in mice can lead to strong autoimmune phenotypes. In some cases, these mutations likely compromise important feedback inhibitory pathways that downregulate antigen receptor signaling. For example, a deficiency of Lyn leads to a severe lupus-like autoimmunity. This autoimmunity may result from loss of a feedback inhibitory pathway in which Lyn phosphorylates CD22, triggering recruitment of the tyrosine phosphatase SHP-1 to the plasma membrane, which then dampens BCR signaling. Loss of Lyn also compromises an inhibitory pathway involving Fc gamma RIIb and SHIP, an inositol phosphatase. Mutation of Fyn exacerbates the autoimmunity caused by loss of Lyn. This may be due in part to a nonimmunological compromise in the integrity of the podocytes in the kidney, which may make the kidneys more susceptible to immune complex-induced damage. Fyn-deficient mice exhibit a number of immunological abnormalities and also exhibit some autoimmunity, although this is less severe than what is seen in Lyn-deficient mice. Recently a gain of function mutation in CD45 that may enhance activity of Src family tyrosine kinases has also been found to cause autoimmune disease, suggesting that the level of Src family tyrosine kinase activity is an important determinant of immune tolerance. Finally, several studies suggest that there is a significant interaction between Src family tyrosine kinases and the Fas pathway that is important for self-tolerance. Although these studies are still at an early stage, it seems clear that alterations in regulators of antigen receptor signaling can contribute to autoimmunity.
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PMID:Signaling mutations and autoimmunity. 1240 47

Six to 20 p.cent of patients with generalized myasthenia gravis and 30 to 50 p.cent of those with ocular myasthenia gravis do not have anti AchR antibodies. Strict clinical, pharmacological and electrophysiological criteria are needed for the diagnosis of sero-negative myasthenia gravis. Sero-negative myasthenia gravis is an autoimmune disorder. But thymic hyperplasia is generally absent. Antibodies directed against the muscle receptor of tyrosine kinase (anti MuSK antibodies) were recently demonstrated in 40 to 70 p.cent of patients with sero-negative myasthenia gravis. Sero-negative and sero-positive myasthenia gravis may be clinically very similar. But sero-negative myasthenia gravis may express predominantly severe oculobulbar weakness or mainly neck, shoulder and respiratory muscle weakness. Sero-negative myasthenia gravis is never associated with thymoma. Sero-negative myasthenia gravis responds to immunodulation but perhaps less well than sero-positive myasthenia gravis.
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PMID:[Seronegative myasthenia gravis]. 1503 72

Thyroid cancers, like hematological malignancies, are commonly associated with chromosomal translocations leading to the formation of fusion proteins. Through altered signaling by fusion proteins, cell death and survival pathways are disrupted and the physiological balance of cell-cell communication may be lost. A consequence of this disruption is the release of factors by stressed cells that alert the host. One type of host response is leukocytic infiltration that may develop into chronic inflammation or autoimmune disease. Although inflammation can be associated with neoplastic tissue, the mechanism driving this process is largely unknown. Therefore, to address the mechanism of cancer inflammation we investigated the effects of an oncogene in a murine model system. A comprehensive genetic analysis revealed several soluble factors that were induced by RET/papillary thyroid carcinoma (PTC)3 gene expression including several proinflammatory cytokines, chemokines and immunologically relevant costimulatory molecules. Following a large genetic screen using RP3-expressing thyroid cells, we identified a highly abundant transcript and later identified it as interleukin 24 (Il24), a cytokine with diverse tumor suppressor and inflammatory activities. We show that RET/PTC3 induces Il24 expression in rat thyrocytes and that this expression is dependent on the signaling properties of its tyrosine kinase. Likewise, RET/PTC3 induces large amounts of Il24 following expression in murine thyrocytes, but its expression is dramatically reduced in poorly differentiated carcinomas, a finding that parallels the loss of RET/PTC3 expression. Consistent with its behavior as a tumor suppressor, the loss of Il24 coincided with the loss of RET/PTC3 in poorly differentiated mouse tumors. A functional role of Il24 in the autocrine growth/survival of RET/PTC3-expressing thyroid cells was identified helping to support its role in cellular transformation. These data suggest that the induction of Il24 by oncogenes may support tumor growth at the early stages of cancer.
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PMID:Interleukin 24 is induced by the RET/PTC3 oncoprotein and is an autocrine growth factor for epithelial cells. 1532 86

The Lyn tyrosine kinase plays essential inhibitory signaling roles within hematopoietic cells by recruiting inhibitory phosphatases such as SH2-domain containing phosphatase-1 (SHP-1), SHP-2, and SH2-domain containing 5'-inositol phosphatase (SHIP-1) to the plasma membrane in response to specific stimuli. Lyn-deficient mice display a collection of hematopoietic defects, including autoimmune disease as a result of autoantibody production, and perturbations in myelopoiesis that ultimately lead to splenomegaly and myeloid neoplasia. In this study, we demonstrate that loss of Lyn results in a stem/progenitor cell-intrinsic defect leading to an age-dependent increase in myeloid, erythroid, and primitive hematopoietic progenitor numbers that is independent of autoimmune disease. Despite possessing increased numbers of erythroid progenitors, and a more robust expansion of these cells following phenylhydrazine challenge, Lyn-deficient mice are more severely affected by the chemotherapeutic drug 5-fluorouracil, revealing a greater proportion of cycling progenitors. We also show that mice lacking SHIP-1 have defects in the erythroid and myeloid compartments similar to those in mice lacking Lyn or SHP-1, suggesting an intimate relationship between Lyn, SHP-1, and SHIP-1 in regulating hematopoiesis.
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PMID:Perturbed myelo/erythropoiesis in Lyn-deficient mice is similar to that in mice lacking the inhibitory phosphatases SHP-1 and SHIP-1. 1533 45


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