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

NZB mice and their F1 hybrids produce excessive polyclonal IgM and autoantibodies of both IgM and IgG classes. CBA/N mice and CBA/N-mothered F1 males fail to make antibody to many T-independent antigens and have low levels of serum IgM; further, these mice lack a population of splenic B cells characterized by a low-to-intermediate density of surface IgM. We have studied male CBA/N, NZB, CBA/N X NZB, NZB X CBA/N, and CBA/J mice; female CBA/N X NZB mice; and males of several control crosses of NZB and CBA/N mice. We have found that the CBA/N X-linked defect of T-independent immune response is completely expressed in CBA/N X NZB mice. In marked contrast to NZB mice and to NZB mice and to NZB F1 hybrids bearing at least one normal X chromosome, the CBA/N X NZB males failed to respond to two T-independent antigens, had small numbers of splenic IgM-producing cells, barely detectable splenic IgM production, and splenic B-cell surface-Ig patterns resembling those of CBA/N mice. These data suggest that the NZB B-cell abnormality resulting in excessive IgM production occurs almost exclusively in that population of B cells affected by the CBA/N X chromome-linked defect. Preliminary studies suggest that CBA/N X chromosome retards the spontaneous development of anti-erythrocyte autoantibodies in CBA/N X NZB males. Castration, known to accelerate autoimmune disease in certain NZB F1 males, appears to have no influence on the immune functions examined in this study.
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PMID:CBA/N X-linked B-cell defect prevents NZB B-cell hyperactivity in F1 mice. 31 8

Autoimmune disorders are reportedly more frequent than expected in immunodeficient patients and in their relatives. The hypothesis that genetic factors related to immunodeficiency may predispose to the development of autoimmunity was studied in relatives of patients with variable immunodeficiency (VID), ataxia-telangiectasia (A-T), or X-linked infantile agammaglobulinaemia (X-LA). Close relatives of patients with VID or A-T had thyroid and gastric autoantibodies significantly more frequently than did control subjects. No abnormalities were detected in unaffected relatives of X-LA patients. The increased incidence of organ-specific autoantibodies in close relatives of VID patients was confined to those families with more than one member with immunodeficiency. These data suggest that there are at least two forms of VID, one of which is associated with familial autoimmunity. It is postulated that heterozygous carriers of the A-T gene and persons with genes involved in the development of VID may exhibit T-lymphocyte dysfunction which predisposes them to autoimmunity.
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PMID:Autoimmunity in the relatives of patients with immunodeficiency diseases. 89 Oct 19

Congenital thrombocytopenia may occur in isolation or accompanied by eczema and immunodeficiency, as part of the X-linked hereditary Wiskott-Aldrich syndrome (WAS). Because the clinical and immunologic picture of WAS is variable, particularly early in life, definite diagnosis cannot always be made in cases with a negative family history. Two unrelated males with sporadic congenital thrombocytopenia had only questionable immunologic abnormalities as infants, making them clinically indistinguishable from cases of isolated thrombocytopenia, although one developed episodic neutropenia and the other began to manifest a multisystem autoimmune disease at 2 years of age. Evaluation of X chromosome inactivation in the T cells of both patients' mothers showed each of these women to have the same highly skewed X chromosome inactivation pattern seen in carriers of typical familial WAS. A T-cell defect was subsequently directly demonstrated in the second patient, whose lymphocytes failed to proliferate to periodate and anti-CD43. Taken together, these data suggest the presence of T cell immunodeficiency consistent with WAS in these patients. Furthermore, their mothers were found to have a very high likelihood of being carriers, lending support to the diagnosis of a hereditary disease in these boys and making possible genetic prediction in other family members and subsequent pregnancies.
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PMID:Atypical presentation of Wiskott-Aldrich syndrome: diagnosis in two unrelated males based on studies of maternal T cell X chromosome inactivation. 199 98

Resident peritoneal macrophages from systemic lupus erythematosus (SLE)-prone strains, NZB, (NZB X NZW)F1 and MRL/MpJ-lpr/lpr mice, exhibited very low binding and phagocytosis of opsonized 51Cr-labeled sheep erythrocytes (EA) compared with cells from normal mice. Male BXSB mice, which also develop SLE, were not clearly defective in phagocytosis and binding of EA compared with C57B1/6J, the lowest of the "normal" mice tested, but were less effective than their normal female BXSB counterparts. The extent of the defect depended on the age of the animals tested. Young NZB/N mice showed hyperactive binding and phagocytosis and became defective about the time of disease onset. Even young (NZB X NZW)F1 and MRL/MpJ-lpr/lpr mice were defective and worsened with age. Increasing numbers of resident peritoneal macrophages were recovered from the autoimmune mice as they aged. Near normal binding and phagocytosis of EA could be effected by stimulation in vivo by injection of killed Corynebacterium parvum. Resident peritoneal macrophages from congeneic xid (X-linked immune deficiency gene) bearing NZB and (NZB X NZW)F1 mice showed normal reactivity. Binding and phagocytosis of EA was Fc mediated and was inhibited by pretreatment with large doses of heat-aggregated human gamma-globulin. Defective macrophage Fc receptor binding or turnover may play an important role in the observed manifestations of autoimmune disease in murine SLE.
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PMID:Studies of peritoneal macrophage function in mice with systemic lupus erythematosus: depressed phagocytosis of opsonized sheep erythrocytes in vitro. 619 5

Surface immunoglobulin on spleen cells from NZB and NZB/W mice and congenic mice bearing the nude or X-linked immune defective (Xid) gene was examined by flow microfluorometry with regard to both the frequency of positive cells and density expressed on the cell. These data indicate that although the frequency of unseparated sIg+ B lymphocytes is equivalent among all of these groups of mice, the densities of sIgM and sIgD are different. Spleen cells from these mice were also separated by free-flow electrophoresis and analyzed in a similar manner. This analysis demonstrated the absence of a subpopulation of B lymphocytes with a low electrophoretic mobility and low expression of sIgM. These studies suggest that maturational and/or activation states of the B cells in mice bearing the Xid or nude genes are different from those seen in the parent strains of mice. Such alterations in cell-surface antigens correlate with the differences in the natural history of immunopathology of the autoimmune disease in these congenic colonies of New Zealand mice.
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PMID:Studies of congenitally immunologically mutant New Zealand mice. VIII. Cell-surface phenotype of spleen cells of Xid and nude mice. 660 87

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

Neonatal insulin-dependent diabetes mellitus (DM) is very rare and descriptions of the pancreatic pathology in affected infants vary considerably. Death after 10 months of a male child who suffered the onset of insulin-dependent DM as a neonate, together with severe diarrhea and features of the hyperimmunoglobulin E syndrome, was found to be associated with absence of islets of Langerhans. There was no evidence of any pancreatic exocrine abnormality or other endocrinopathy. Two male relatives with insulin-dependent DM have also died as infants, and after review of the literature it is suggested that this disease process may be part of the spectrum of an X-linked syndrome of diarrhea, polyendocrinopathy, and fatal infection in infancy. Evidence is presented to support the suggestion that this syndrome is an autoimmune disorder.
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PMID:Neonatal diabetes mellitus associated with severe diarrhea, hyperimmunoglobulin E syndrome, and absence of islets of Langerhans. 859 35

There is a paradoxical relationship between immunodeficiency diseases and autoimmunity. While not all individuals with immunodeficiency develop autoimmunity, nor are all individuals with autoimmunity immunodeficient, defects within certain components of the immune system carry a high risk for the development of autoimmune disease. Inherited deficiencies of the complement system have a high incidence of systemic lupus erythematosus (SLE), glomerulonephritis, and vasculitis. Carrier mothers of children with chronic granulomatous disease, an X-linked defect of phagocytosis, often develop discoid lupus. Several antibody deficiencies are associated with autoimmune disease. Autoimmune cytopenias are commonly observed in individuals with selective IgA deficiency and common variable immune deficiency. Polyarticular arthritis can be seen in children with X-linked agammaglobulinemia. Combined cellular and antibody deficiencies, such as Wiskott-Aldrich syndrome, carry an increased risk for juvenile rheumatoid arthritis and autoimmune hemolytic anemia. Several hypothetical mechanisms have been proposed to explain the associations between autoimmunity and immunodeficiency. Immunologic defects may result in a failure to exclude microbial antigens, resulting in chronic immunologic activation and autoimmune symptoms. There may be shared genetic factors, such as common HLA alleles, which predispose an individual to both autoimmunity and immunodeficiency. Defects within one component of the immune system may alter the way a pathogen induces an immune response and lead to an inflammatory response directed at self-antigens. An understanding of the immunologic defects that contribute to the development of autoimmunity will provide an insight into the pathogenesis of the autoimmune process.
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PMID:The association between immunodeficiency and the development of autoimmune disease. 893 26

A large fraction of the hematopoietic cells of patients with paroxysmal nocturnal hemoglobinuria (PNH) are deficient in membrane expression of glycosylphosphatidylinositol-anchored proteins (GPI-APs). Current evidence suggests that this deficiency is sufficient to account for the hemolytic and thrombotic manifestations of this disease but not for its frequent association with aplastic anemia, an autoimmune disorder in which the patients' own hematopoietic progenitor cells are the target. Mutations in X-linked gene PIG-A, encoding one of several enzymes required for the biosynthesis of the glycophosphatidylinositol anchor, have been found in all PNH patients studied to date. Recent experiments with murine Pig-a knock-out embryonic stem cells show that although embryogenesis is critically dependent on normal GPI-AP expression, Pig-a-deficient cells can undergo apparently normal hematopoietic differentiation if they develop in a GPI-AP-replete environment. Thus, in an in vitro mouse model of PNH, Pig-a mutations confer no gross proliferative or differentiative advantage or disadvantage, suggesting an unidentified process selecting for these mutations in the bone marrow of patients with the PNH-aplastic anemia syndrome. The rescue of hematopoiesis observed in chimeric cultures of knock-out and normal cells was accompanied by intercellular transfer of GPI-AP, suggesting exciting new possibilities for future therapeutic manipulations in PNH patients.
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PMID:Paroxysmal nocturnal hemoglobinuria: new insights from murine Pig-a-deficient hematopoiesis. 906 78

Wiskott-Aldrich syndrome initially was described in 1937 and then again in 1954 as an X-linked disorder associated with thrombocytopenia, eczema, and recurrent infections. It remained mysterious how different cell lineages could be affected in this syndrome and, more importantly, how the phenotypic features could be so protean. We now know that the features associated with Wiskott-Aldrich syndrome include dysfunction of nearly all effector arms of the immune system, as well as thrombocytopenia with platelet dysfunction. As a consequence of these abnormalities, children and adults with this syndrome have recurrent bleeding, recurrent and significant infections with common and opportunistic organisms, autoimmune disease, and lymphoreticular malignancies. In 1994, the gene that is defective in Wiskott-Aldrich syndrome was identified and found to be a gene with limited homology to any known gene families. In the past 4 years, much has been learned about the role of this protein in cellular function and T-cell responses specifically. This article reviews some recent clinical findings relevant to Wiskott-Aldrich syndrome, the proposed cellular role of this molecule, its biochemical interactions, and genotype-phenotype considerations.
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PMID:Recent advances in our understanding of Wiskott-Aldrich syndrome. 991 48


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