Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024141 (systemic lupus erythematosus)
44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

BXSB mice develop a lupus-like disease characterized by B cell hyperplasia, hypergammaglobulinemia, autoantibodies, nephritis and coronary artery disease. To determine the subset of B cells responsible for disease in these mice, we bred a congenic BXSB.xid strain (greater than 99.2% inbred) with the xid gene that deletes a subset of splenic B cells. Because BXSB disease is associated with the Y chromosome, BXSB males and the autoimmune cross (NZB X BXSB)F1 males were studied. BXSB.xid males had profoundly reduced lymphoid hyperplasia, hypergammaglobulinemia, autoantibodies, renal disease, cardiac disease, and markedly prolonged survival. (NZB.xid/+ X BXSB)F1 males also demonstrated a marked protection associated with the xid gene. These studies suggest that the autoimmune disease of BXSB males is dependent upon the B cell subset deleted by xid.
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PMID:The effect of the X-linked immune deficiency gene (xid) upon the Y chromosome-related disease of BXSB mice. 688 19

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

To investigate the specific contribution of select MHC class II genes on the development of murine lupus, H-2 congenic (NZB x BXSB)F1 hybrid mice bearing either H-2b/b, H-2d/b, or H-2d/d haplotypes were generated. We compared the clinical development (autoantibody production and glomerulonephritis) of systemic lupus erythematosus (SLE) in these three F1 hybrids in the presence or absence of the mutant gene, Yaa (Y chromosome-linked autoimmune acceleration), which normally accelerates the progression of murine SLE. (NZB x BXSB)F1 hybrid female mice bearing either the H-2b/b or H-2d/b haplotype developed a rapid course of severe SLE, while the appearance of disease was markedly delayed in H-2d/d hybrid females. However, in the presence of the Yaa gene, H-2d/d F1 males developed SLE as severe as H-2b/b and H-2d/b F1 males. These data indicate that (a) the conventional H-2b is a haplotype leading to susceptibility for murine SLE, while H-2d is a relatively resistant haplotype; (b) the H-2b haplotype exhibits a dominant effect on autoimmune responses, similar to the classical MHC-linked Ir gene effect; and (c) most strikingly, the Yaa gene totally abrogates the MHC effect on murine lupus in (NZB x BXSB)F1 hybrid mice.
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PMID:The Yaa gene abrogates the major histocompatibility complex association of murine lupus in (NZB x BXSB)F1 hybrid mice. 804 Mar 5

The Y-linked autoimmune accelerating gene mutation (yaa), first discovered in the BXSB mouse strain, is known to accelerate spontaneous autoantibody production and subsequent development of lupus disease. We have investigated the role of the yaa gene in the development of the type II collagen (CII)-induced arthritis (CIA), which is used as a model for rheumatoid arthritis. In contrast to the accelerating effects on development of lupus autoimmunity we can show that the presence of BXSB Y chromosome carrying the yaa gene block development of CIA in F1 crosses with three normally CIA-susceptible strains, DBA/1, C3H.Q and B10.Q. Backcross experiments showed an additional modulatory effect from other BXSB genes or possibly from DBA/1 X chromosome. To evaluate the effect mediated by the yaa gene alone, the BXSB Y chromosome was bred into the DBA/1 gene background. The DBA/1 congenic DBA/1.yaa male mice were less susceptible to arthritis development than their DBA/1 counterparts. (B10.QxDBA/1.yaa)F1 acquired resistance to arthritis development similar to that of DBA/1.yaa, indicating a role for the yaa gene alone. The serum levels of autoantibodies to CII were significantly suppressed in all strains carrying yaa. In DBA/1.yaa mice a reduced number of T cells were found to produce interferon-gamma after in vitro stimulation with CII. Thus, although autoreactive B cells are important in both diseases they play different roles in murine lupus and in CIA.
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PMID:The Y chromosome-linked "autoimmune accelerating" yaa gene suppresses collagen-induced arthritis. 818 31

Males from the BXSB murine strain (H-2b) spontaneously develop an autoimmune syndrome with features of systemic lupus erythematosus (SLE), which results in part from the action of a mutant gene (Yaa) located on the Y chromosome. Like other H-2b mice, the BXSB strain does not express the class II major histocompatibility complex antigen, I-E. Here we report that the expression of I-E (E alpha dE beta b) in BXSB males bearing an E alpha d transgene prevents hypergammaglobulinemia, autoantibody production, and subsequent autoimmune glomerulonephritis. These transgenic mice bear on the majority of their B cells not only I-E molecules, but also an I-E alpha chain-derived peptide presented by a higher number of I-Ab molecules, as recognized by the Y-Ae monoclonal antibody. The I-E+ B cells appear less activated in vivo than the I-E- B cells, a minor population. This limited activation of the I-E+ B cells does not reflect a functional deficiency of this cell population, since it can be stimulated to IgM production in vitro by lipopolysaccharides at an even higher level than the I-E- B cell population. The development of the autoimmune syndrome in the transgenic and nontransgenic bone marrow chimeric mice argues against the possibility that the induction of regulatory T cells or clonal deletion of potential autoreactive T cells as a result of I-E expression is a mechanism of the protection conferred by the E alpha d transgene. We propose a novel mechanism by which the E alpha d transgene protects BXSB mice against SLE: overexpression of I-E alpha chains results in the generation of excessive amounts of a peptide displaying a high affinity to the I-Ab molecule, thereby competing with pathogenic autoantigen-derived peptides for presentation by B lymphocytes and preventing their excessive stimulation.
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PMID:Prevention of systemic lupus erythematosus in autoimmune BXSB mice by a transgene encoding I-E alpha chain. 837 28

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

To evaluate spontaneous development of the ocular fundus abnormalities associated with collagen disease, we investigated the ocular fundus lesions in systemic lupus erythematosus (SLE) models. (NZW x BXSB) F1 mice were employed as SLE models with antiphospholipid syndrome. The abnormal findings in the ocular fundus were recorded with a fundus camera for small animals (KOWA Co., Ltd.), and the chorioretinal lesions were studied histopathologically. As in the systemic symptoms of SLE, the incidence of ocular fundus abnormalities in these (NZW x BXSB) F1 mice was significantly higher in males than in females, suggesting the influence of the Yaa (Y chromosome-linked autoimmune acceleration) gene. Lesions in the fundus appeared in the form of white spots, which increased in number along with the course of the disease. The lesion developed into retinal detachment in some animals. Dilatation of veins and narrowing of arteries were marked. These lesions were very similar to multifocal posterior pigment epitheliopathy (MPPE) in humans in that white spots appear first and then develop into exudative retinal detachment caused by retinal pigment epithelial disorder. Histopathological findings included 1. structural destruction of the photoreceptor cell layer, 2. degeneration and loss of the retinal pigment epithelium, and 3. narrowing and occlusion of the choriocapillaris associated with thrombus formation, cellular infiltration into the surrounding tissues, and wall thickening of the choroidal arterioles. The study of these SLE mouse may contribute to the elucidation of abnormalities in the fundus associated with collagen diseases, including the relationship between thrombus formation and antiphospholipid syndrome.
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PMID:[Ocular fundus lesions in systemic lupus erythematosus model mice]. 948 64

We investigated the ocular fundus of (NZWXBXSB) F1 mice, which are considered to be a good model for systemic lupus erythematosus (SLE) with antiphospholipid syndrome. The abnormal fundus findings were documented by fundus photography, and the chorioretinal lesions were studied histopathologically. The incidence of ocular fundus abnormalities and systemic signs in these F1 mice was significantly higher in males than in females, as with the systemic symptoms. This indicated an influence of the Yaa (Y chromosome-linked autoimmune acceleration) gene. Lesions in the fundus appeared as white spots, which increased in number during the course of the disease and developed into retinal detachment in some animals. This developmental course resembled the course of patients with multifocal posterior pigment epitheliopathy. Dilatation of the veins and narrowing of arteries were marked. Histopathological findings included: (1) destruction of the photoreceptor cell layer, (2) degeneration and loss of the retinal pigment epithelium, (3) thickening of the wall of the choroidal arterioles, and (4) narrowing and occlusion of the choriocapillaris associated with hyaline degeneration and thrombus formation. The study of the SLE mouse model should contribute to the understanding of the abnormalities in the fundus associated with collagen diseases.
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PMID:Ocular fundus lesions in systemic lupus erythematosus model mice. 982 60

In the present study, we mapped the major quantitative trait loci (QTL) differing between the NZW and C57BL/6 inbred strains of mice by making use of (NZW x C57BL/6.Yaa)F1 mice, a model in which the lupus-like autoimmune syndrome observed in male mice is associated with the presence of an as yet unidentified Y chromosome-linked autoimmune acceleration gene, Yaa. Linkage analysis of 126 C57BL/6 x (NZW x C57BL/6.Yaa)F1 backcross males provided evidence for a major QTL on chromosome 7 controlling both the severity of glomerulonephritis and the production of IgG anti-DNA autoantibody and retroviral gp70-anti-gp70 immune complexes. Two additional QTL of C57BL/6 origin on chromosome 17 had no apparent individual effects, but showed strong epistatic interaction with chromosome 7 QTL for disease severity and anti-DNA autoantibody production. Our data also identified on chromosome 13 a QTL of NZW origin with a major effect on the level of gp70, and showing an additive effect with the chromosome 7 QTL on the level of gp70 immune complexes. Our study thus provides a model to dissect the complex genetic interactions that result in manifestations of murine lupus-like disease.
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PMID:Linkage of a major quantitative trait locus to Yaa gene-induced lupus-like nephritis in (NZW x C57BL/6)F1 mice. 986 63


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