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

Fast antigen is a cell surface protein that mediates apoptosis. Using immunohistological, flow cytometry and electron microscopic analyses, we investigated the expression of Fas antigen on various skin tissues, and on cultured SV40-transformed human epidermal keratinocyte cell line KJD and human skin squamous cell carcinoma cell line HSC. The Fas antigen was widely distributed in skin components such as the keratinocytes in the lower portion of the epidermis, epidermal dendritic cells, endothelial cells, fibroblasts, apocrine glands, eccrine sweat glands, sebaceous glands, some normal melanocytes and infiltrating lymphoid cells. It was also strongly expressed on the keratinocytes of lichenoid eruptions seen in lupus erythematosus and lichen planus, and on the spongiotic or acanthotic epidermis seen in chronic eczema, adult T-cell leukaemia/lymphoma (ATLL) and atopic dermatitis. Its expression was closely correlated with lymphoid infiltrating cells and it was strongly expressed in lymphoid neoplastic cells, particularly ATLL cells, and fibroblasts seen in dermatofibroma. However, the antigen was not detected on basal cell epithelioma cells, some malignant melanomas or any junctional naevi. The cell lines KJD and HSC strongly expressed the Fas antigen, and crosslinking of the Fas antigen by an anti-Fas monoclonal antibody induced apoptosis of these cell lines. These results indicate that the apoptosis-mediating Fas antigen may play an important role in normal skin turnover and cell differentiation, in immune regulation of skin tumours, and in the pathogenesis of various skin diseases.
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PMID:Distribution of apoptosis-mediating Fas antigen in human skin and effects of anti-Fas monoclonal antibody on human epidermal keratinocyte and squamous cell carcinoma cell lines. 752 80

Cells of the immune system are, most likely, programmed to die unless recruited into an immune response. An active cell death program may also be induced by a variety of soluble and surface signals, many of which have only recently been recognized. The importance of these pathways in maintaining tolerance is highlighted by the development of lupus-like diseases in three different mouse strains that have spontaneous mutations in the Fas/APO-1 receptor or its ligand. The known function of Fas/APO-1 in signalling apoptosis explains the persistence of self reactive cells in lpr mice although it is unclear, at present, whether Fas defects effect both central and peripheral tolerance. Whereas Fas/APO-1 receptor expression appears to be normal in humans with SLE, other defects in the Fas/APO-1 pathway or other key molecules in the cell death survival require further study.
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PMID:Apoptosis in SLE--too little or too much? 753 Nov 24

The BXSB Y chromosome-linked mutant gene, Yaa, accelerates the progression of a lupus-like autoimmune syndrome only in mice that are predisposed to autoimmune diseases. Unlike the lpr gene, which causes the defects in the Fas antigen-mediating apoptosis, the autoimmune enhancing activity of the Yaa gene is selective, depending on autoantigens, and varies among lupus-prone mice. To obtain a better definition of the role of the Yaa gene in the acceleration of autoimmune disease, we have investigated immune responses to several foreign antigens to determine whether the Yaa gene is able to potentiate immune responses to foreign antigens in a selective manner. We report here that the Yaa gene potentiated immune responses against foreign antigens only in mice which are genetically (H-2-linked) low responding, but not high or non-responding. Moreover, studies on Yaa(+)-Yaa- double bone marrow chimeric mice revealed that B cells from Yaa+ mice were selectively stimulated to produce antibodies to low-responding antigen, human IgG, while both B cell populations similarly responded to high-responding antigen, ovalbumin. Our results suggest that first, the selective immune enhancing activity of the Yaa gene may be related to differences in the capacity of T helper cells specific for given self or foreign antigens; and second, a specific cognate interaction of T helper cells with Yaa+ B cells is apparently responsible for the selective enhancement of immune responses to antigens, to which mice are genetically low responding.
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PMID:Selective enhancing effect of the Yaa gene on immune responses against self and foreign antigens. 784 28

The BXSB/MpJ (BXSB) murine strain (H-2b) spontaneously develops an autoimmune syndrome with features of systemic lupus erythematosus (SLE) that affects males much earlier than females. A mutant gene located on the BXSB Y chromosome, designated Yaa (Y chromosome-linked autoimmune acceleration), is responsible for the acceleration of the disease observed in male BXSB mice. Studies on H-2 congenic and I-E transgenic mice have clearly demonstrated that the MHC class II genes play a crucial role in the development or protection of SLE. However, the MHC effect can be completely masked by the presence of the Yaa gene in mice with certain genetic backgrounds. It is intriguing that the Yaa gene effect is selective on autoimmune responses, varying in different lupus-prone mice. Studies on immune responses against foreign antigens have shown that the Yaa gene potentiates immune responses only against antigens to which mice are genetically (H-2-linked) low-responding, but not high-responding. Thus, the selective immune enhancing activity of the Yaa gene may be related to differences in the capacity of T helper cells specific for given antigens. Moreover, studies on Yaa(+)-Yaa- bone marrow cell chimeric mice have suggested that a specific cognate interaction of T helper cells with Yaa+ B cells is responsible for a selective enhancing effect of immune responses to foreign antigens as well as autoantigens. It is significant that unlike the lpr mutation, whose abnormality is associated with the capacity of the Fas antigen to mediate apoptosis, the Yaa gene by itself is unable to induce significant autoimmune responses in mice without apparent SLE background. This suggests that the molecular defect of the Yaa gene is likely to differ from that of the lpr gene, and that the Yaa gene effect requires the abnormal autosomal genome present in lupus-prone mice. Based on these findings, a possible molecular nature of the Yaa gene abnormality will be discussed.
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PMID:The role of the Yaa gene in lupus syndrome. 793 Aug 46

The autosomal recessive mutant gene, lpr, has been shown to accelerate the progression of lupus-like autoimmune disease, which is associated with a massive expansion of a unique CD4-CD8- double-negative T cell subset, in MRL/MpJ mice. Here we report a substrain of MRL/MpJ-lpr/lpr (MRL-lpr) mice which live almost twice as long with delayed development of glomerulonephritis, compared with conventional MRL-lpr mice. This substrain, termed MRL-lpr.II (II for long-lived), develops generalized lymphadenopathy characteristically seen in MRL-lpr mice. However, the expansion of a double negative lpr T cell subset is markedly limited with a mean value of 15% in their lymph nodes compared to about 70% in conventional MRL-lpr mice. Overall production of autoantibodies, such as anti-DNA and rheumatoid factors, does not significantly differ between the two MRL-lpr mice. However, serum levels of cryoglobulins, whose major component is IgG3, are markedly diminished in MRL-lpr.II mice with a parallel decrease in IgG3. Since MRL-lpr.II mice still carry the lpr mutation, as documented by the presence of defects in the Fas antigen, a possible new mutation in this substrain may play a significant role in the pathogenesis of lupus-like autoimmune syndrome.
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PMID:An MRL/MpJ-lpr/lpr substrain with a limited expansion of lpr double-negative T cells and a reduced autoimmune syndrome. 831 55

The murine autosomal recessive gene, lpr, induces a progressive lymphadenopathy and lupus-like autoimmune syndrome characterized by the accumulation of immature, dull Thy 1.2+, TCR+, L3T4-/Lyt 2- (double-negative, DN) T cells in peripheral lymphoid organs. Previous studies demonstrated that the thymic microenvironment is required for the generation of the abnormal, peripheral DN T cells, while a more recent report linked the lpr gene defect with a failure of thymocytes to express a functional form of the Fas antigen, which mediates apoptosis. Thus, the lpr gene defect apparently prevents lpr thymocytes from responding to the ordered sequence of differentiation and proliferation signals involved in normal thymocyte maturation and selection. We compared the responses of thymocytes from C57BL/6 +/+ (normal) and congenic C57BL/6 lpr/lpr (lpr) mice to a thymic stromal cell product which down-regulates DNA synthesis in vitro. The results indicate that (a) thymic stromal cells from lpr mice produce a factor that can down-regulate DNA synthesis as efficiently as that from normal mice, even at an age when massive lymphadenopathy is present, (b) mitogen-stimulated thymocytes of normal, but not lpr, mice are sensitive to the inhibitory factor, (c) normal DN thymocytes are the cellular target of the inhibitory factor, which acts at some postmembrane receptor-ligand binding event during mitogen-stimulated proliferation, and (d) IL-4-dependent DN thymocyte proliferation seems to be the main target of the inhibitory factor.
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PMID:Double-negative (L3T4-, Lyt2-) thymocytes of autoimmune lpr/lpr mice are resistant to down-regulation of DNA synthesis by a thymic stromal cell product. 837 81

The BXSB Y chromosome-linked mutant gene, Yaa, promotes autoimmune responses in mice predisposed to a lupus-like autoimmune disease. We have previously shown that a cognate interaction of T cells with B cells expressing the Yaa gene appears to be responsible for the accelerated production of autoantibodies. To investigate whether T cells that provide help for autoantibody production by Yaa+ B cells need to express the Yaa gene, we have made radiation bone marrow chimeras containing two sets of T and B cells from mice with or without the Yaa gene and differing by the Thy-1 and Igh allotypes. We then determined autoantibody production following the selective elimination of T cells of Yaa+ origin by treating mice with allele-specific anti-Thy-1 monoclonal antibody. Our results demonstrated that the selective production of autoantibodies by Yaa+ B cells in Yaa(+)-Yaa- double bone marrow chimeras can be mediated as efficiently by T cells from non-autoimmune mice lacking the Yaa gene as by T cells from autoimmune mice bearing the Yaa gene. This indicates that T cells from non-autoimmune Yaa- mice are capable of providing help for autoimmune responses by collaborating with Yaa+ B cells. These data thus strongly suggest that the Yaa gene defect is not functionally expressed in T cells, but only in B cells, and contrast with parallel experiments in the lpr model, in which defects of the Fas antigen in both T and B cells are crucial for the lpr gene-mediated promotion of autoantibody production.
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PMID:The Yaa gene-mediated acceleration of murine lupus: Yaa- T cells from non-autoimmune mice collaborate with Yaa+ B cells to produce lupus autoantibodies in vivo. 856 31

The autoimmune-prone MRL/Mp-lpr/lpr (MRL/lpr) mouse is characterized by the lpr mutation, which is a defect in the Fas antigen. Since Fas mediates apoptosis, this defect results in CD4-CD8- double negative T-cell proliferation, lupus nephritis, and macroscopic lupus erythematosus-like skin lesions. The control counterpart of MRL/lpr mouse is the MRL/Mp-+/+ (MRL/n) mouse, which lacks the lpr mutation and is almost normal during the first 6 mo of life. The lpr mutation, however, accelerates autoimmune phenomena in MRL/lpr mice. Thus, it is important to investigate autoimmune diseases like systemic lupus erythematosis in relation to the autoimmune disease-prone genetic background of MRL/n mice. We found that skin lesions in aged MRL/n mice had unique characteristics. The first characteristic is spontaneous occurrence, and the second is epidermal cell nuclear immunostaining with IgGs by direct immunofluorescence. The skin lesions in aged MRL/n mice showed milder inflammation than in MRL/lpr mice. A homogeneous pattern of epidermal cell nuclear staining was always associated with nuclear staining in kidney cells and also correlated with the in vitro binding of sera to keratinocytes cultured from newborn MRL/n mice. These results suggest that the skin lesions of aged MRL/n mice are a good model for certain types of cutaneous lupus erythematosus and also can provide new insights into the long-standing controversy whether epidermal cell nuclear staining occurs in vivo.
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PMID:Spontaneous autoimmune skin lesions of MRL/n mice: autoimmune disease-prone genetic background in relation to Fas-defect MRL/1pr mice. 875 29

The murine MRL/lpr model of lupus nephritis is characterized by a systemic autoimmune syndrome closely resembling the human disease. The lpr mutation represents a defect in the expression of the apoptosis-signaling Fas antigen gene which causes accelerated autoimmune disease in MRL/ lpr mice and a milder, non-lethal autoimmune syndrome in C57BL6-lpr/lpr mice. The role of cytokines in autoimmune pathogenesis and its relationship with the lpr mutation remains poorly understood. In this study we utilized a RNase protection assay to quantitatively and simultaneously examine the expression of 10 different cytokine genes, namely IL-1 alpha, II-1 beta, IL-2, IL-3, IL-4, IL-5, IL-6, IFN-gamma, TNF-alpha, and TNF-beta in kidney, spleen, liver, and lymph nodes obtained from pre-diseased and diseased lupus-prone MRL/lpr, pre-diseased MRL/+2 and C57BL/6-lpr mice, as well as healthy non-autoimmune C57BL/6 and Balb/c mice. Diseased MRL/lpr mice demonstrated marked and predominant IL-1 beta gene upregulation in kidneys, liver, lymph nodes and spleen. Increased message for both TNF-alpha and IFN-gamma genes was also observed in lymph nodes, and less consistently, in the spleen, and kidneys derived from diseased MRL/lpr mice as compared to pre-diseased MRL/+2 or normal nonautoimmune control mice. Furthermore, a modest increase in the expression of both IL-1 beta and IFN-gamma message was observed in lymphoid organs of pre-diseased MRL/lpr and C57BL/6-lpr mice compared with MRL/+2 and C57BL/6 controls, respectively. Increased IL-1 beta gene expression was associated with the presence of the lpr mutation, was observed during the prediseased stage, and increased during active disease in both male and female mice. In summary, these results demonstrate that generalized up-regulation of IL-1 beta gene expression, in concert with a more limited up-regulation of both TNF-alpha and IFN-gamma expression, are prominent features of the autoimmune syndrome in the MRL/lpr model of SLE and may contribute to the disease-accelerating effect of the lpr mutation.
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PMID:Cytokine gene expression in the MRL/lpr model of lupus nephritis. 880 76

We reported previously that CD4+ T cells and B cells in mice with retrovirus-induced murine acquired immunodeficiency syndrome (MAIDS) caused by LP-BM5 murine leukemia virus (MuLV) mixtures increased the expression of Fas antigen (Fas) during progression of the disease. However, the contribution of the Fas/Fas ligand (Fas L) system to the pathogenesis of MAIDS remained unknown. Here, we examined the susceptibility of C57BL/6 (B6) lpr/lpr mice, which has been reported to be defective for the expression of Fas, to MAIDS. We found that the Thy1.2- CD4T cells and Ig kappa dull B220+ cells, which are characteristic of MAIDS, increased after the inoculation of LP-BM5 MuLV in B6 lpr/lpr mice. B220+ TCR alpha beta T cells, unique to lupus prone mice, also increased in the B6 lpr/lpr mice after infection. CD4+ B220+ TCR alpha beta T cells increased profoundly among the B220+ TCR alpha beta T cells from LP-BM5 MuLV-infected B6 lpr/lpr mice, while the B220+ TCR alpha beta T cells observed in non-infected B6 lpr/lpr mice were largely of the CD4-CD8- phenotype. A DNA PCR analysis of the LP-BM5 MuLV-infected B6 lpr/lpr mice revealed the genome integration of defective LP-BM5 virus, further confirming that MAIDS is inducible to B6 lpr/lpr mice. LP-BM5 MuLV-infected lpr/lpr mice died within 3 months, while MAIDS-infected B6 +/+ mice usually died within 5 to 6 months, and B6 lpr/lpr mice not infected with LP-BM5 MuLV lived more than 6 months. Taken together, these results suggest that MAIDS is inducible independently with functional Fas expression and the possibility of accelerated progression of murine AIDS and lpr-associated autoimmune disease in B6 lpr/lpr mice infected with LP-BM5 MuLV.
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PMID:Accelerated progression of a murine retrovirus-induced immunodeficiency syndrome in Fas mutant C57BL/6 lpr/lpr mice. 913 Feb 34


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