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)

New insights into the autoimmune basis for Addison's disease have come from identification of at least three P450 cytochrome enzymes as autoantigens, each having distinct associations with Addison's disease as part of the APS type 1 or 2 syndrome. Enzymes are tissue-restricted proteins which are the frequent targets of autoimmunity in other organ-specific diseases (Editorial, 1992), and it seems likely that further P450 enzymes could be involved in the pathogenesis of other components of these syndromes. How adrenal damage is initiated remains unclear. Adrenal autoantibodies may have a pathogenic role, as yet obscure, or could arise secondary to T cell-mediated tissue damage, although it seems highly likely that the same autoantigen provokes cell-mediated and humoral autoimmunity. Sharing of autoantigens between ovary and adrenal glands, particularly the side-chain cleavage enzyme, is one explanation for the close association of ovarian failure and Addison's disease, but other, more common forms of ovarian autoimmune disease exist. Their further definition will come from identification of the autoantigens involved. By analogy with animal models, T cell-mediated injury is likely to be central to pathogenesis. The evidence for antibodies blocking hormone receptors in premature ovarian failure is meagre at present, but the availability of recombinant LH and FSH receptors should clarify this issue. HLA-DR3 is associated with almost all autoimmune endocrinopathies, and this is particularly striking in APS type 2. However, there is no such association with APS type 1; the most likely genetic candidate in this condition is at a locus controlling T cell development. Although the adrenal and ovarian autoimmune processes in APS type 1 and 2 may be distinct, the characterization of the gene involved in APS type 1 will have major implications for our understanding of autoimmune endocrine disease.
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PMID:Autoimmunity to steroid-producing cells and familial polyendocrine autoimmunity. 772 95

Autoimmune polyglandular disease type I (APECED) is an autosomal recessive autoimmune disease characterized by a variable combination of the failure of the endocrine glands. The pathogenesis of this unique autoimmune disease is unknown; unlike many other autoimmune diseases, APECED does not show association to specific HLA haplotypes. Unravelling the APECED locus will identify a novel gene outside the HLA loci influencing the outcome of autoimmune diseases. We have assigned the disease locus to chromosome 21q22.3 by linkage analyses in 14 Finnish families. Linkage disequilibrium studies have significantly increased the informativeness of the analyses and helped to locate the critical DNA region for the APECED locus to just 500 kilobases, a much more precise definition than linkage analyses alone could achieve.
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PMID:An autosomal locus causing autoimmune disease: autoimmune polyglandular disease type I assigned to chromosome 21. 798 97

The pathogenetic background of human autoimmunity is only partially understood. By discovering the defective gene causing the autosomal recessive polyglandular autoimmune disease type I (PGD I, APECED) we hope to provide new insights into autoimmune responses in general. Here we have taken advantage of newly developed amplifiable multiallelic microsatellite markers and performed the analyses using the microtiter well format of the polymerase chain reaction. This rapid semiautomated protocol was applied to analyze 62 assigned highly polymorphic loci. The linkage analyses coupled with the EXCLUDE analysis resulted in an exclusion map of this polyglandular autoimmune disease and in the preliminary assignment of the APECED locus to chromosome 22. The method proved to be an effective and economical tool for gene mapping compared with standard blotting and hybridization.
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PMID:Autoimmune polyglandular disease type I. Exclusion map using amplifiable multiallelic markers in a microtiter well format. 805 25

Autoimmune polyglandular disease type I (APECED) is an autosomal recessive autoimmune disease (MIM 240300) characterized by hypoparathyroidism, primary adrenocortical failure, and chronic mucocutaneous candidiasis. The disease is highly prevalent in two isolated populations, the Finnish population and the Iranian Jewish one. Sporadic cases have been identified in many other countries, including almost all European countries. The APECED locus has previously been assigned to chromosome 21q22.3 by linkage analyses in 14 Finnish families. Locus heterogeneity is a highly relevant question in this disease affecting multiple tissues and with great phenotypic diversity. To solve this matter, we performed linkage and haplotype analyses on APECED families rising from different populations. Six microsatellite markers on the critical chromosomal region of 2.6 cM on 21q22.3 were analyzed. Pairwise linkage analyses revealed significant LOD scores for all these markers, maximum LOD score being 10.23. The obtained haplotype data and the geographic distribution of the great-grandparents of the Finnish APECED patients suggest the presence of one major, relatively old mutation responsible for approximately 90% of the Finnish cases. Similar evidence for one founder mutation was also found in analyses of Iranian Jewish APECED haplotypes. These haplotypes, however, differed totally from the Finnish ones. The linkage analyses in 21 non-Finnish APECED families originating from several European countries provided independent evidence for linkage to the same chromosomal region on 21q22.3 and revealed no evidence for locus heterogeneity. The haplotype analyses of APECED chromosomes suggest that in different populations APECED is due to a spectrum of mutations in a still unknown gene on chromosome 21.
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PMID:Genetic homogeneity of autoimmune polyglandular disease type I. 880 4

The polyglandular autoimmune syndromes (PGA) are well known and are distinguished into type I, type II and type III. PGAI, also called APECED (autoimmune polyendocrinopathy, candidiasis and ectodermal dystrophy), is an autosomal recessive disorder, appearing in childhood and typically characterized by hypoparathyroidism (unusual in PGAII and PGAIII) and adrenal insufficiency. In APECED, autoimmune destruction of the pancreatic beta cells with development of insulin-dependent type 1 diabetes is possible, but less frequent than in the other PGAs, especially PGAII. The pathogenesis of this unique autoimmune disease is unknown. No HLA association seems to exist and genetic studies have assigned the autosomal APECED locus to chromosome 21. The case of a 28-years-old female suggesting the diagnosis of APECED, is presented, characterized by psycho-somatic abnormal development, teeth alterations, post-puberal gonadal failure with dystrophic hypoplasia of external genitalia, previous vaginal candidiasis, a slowly developing juvenile brittle diabetes. Intestinal malabsorption induced by Giardia lamblia occurred (probably resulting, like candidiasis, from immunological anergy). A strong familiarity linked to female sex was noticed (the mother, a sister, the little nice and some maternal female cousins being affected) while the father and a brother were healthy. Diabetes seems to be characterized by early onset and severe complications. In this patient no organo-specific antibodies were detected and the only immunologic disorder was a small decrease of CD3 and CD4/CD8 ratio, both CD4 and CD8 being at the lower normal range. This patient (and her female maternal relatives) needs a long-term follow-up in order to evaluate the function of endocrine glands and to initiate early treatment for hormonal deficits, as well as to detect the non-endocrine components of disease.
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PMID:[A rare case of juvenile diabetes mellitus associated with APECED (autoimmune poly-endocrinopathy, candidiasis and ectodermal dystrophy) with strong X-linked familial inheritance]. 930 48

Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is the only described systemic autoimmune disease with established monogenic background, and the first autoimmune disorder localized outside the major histocompatibility complex (MHC) region. The primary biochemical defect in APECED is unknown. We have isolated a novel gene, AIRE, encoding for a putative nuclear protein featuring two PHD-type zinc-finger motifs, suggesting its involvement in transcriptional regulation. Five mutations in AIRE are reported in individuals with this disorder. This is the first report of a single-gene defect causing a systemic human autoimmune disease, providing a tool for exploring the molecular basis of autoimmunity.
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PMID:An autoimmune disease, APECED, caused by mutations in a novel gene featuring two PHD-type zinc-finger domains. 939 40

The molecular background of human autoimmunity is poorly understood. Although many autoimmune diseases have a genetic basis, the actual disease appearance results from a complex interplay between genes and environment and thus these diseases represent typical multifactorial diseases. Even with molecular tools provided by the Human Genome Project, it still remains a challenge to identify the predisposing DNA variants behind such multifactorial traits. Two strategies have been suggested to provide short-cuts to the dissection of the genetic background of complex autoimmune diseases: (i) identification of genes in rare human diseases with a strong autoimmune component or (ii) unravelling loci causing phenotypes resembling autoimmune diseases in inbred mice strains. Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is a monogenic autosomal disease with a recessive inheritance pattern, characterized by multiple autoimmune endocrinopathies, chronic mucocutaneous candidiasis and ectodermal dystrophies. Since it is the only known human autoimmune disease inherited in a Mendelian fashion, it provides an excellent model to analyse the genetic component of human autoimmunity. The causative gene for APECED was isolated recently by a traditional positional cloning strategy by two independent groups. The cDNA for the APECED gene proved to originate from a novel gene, AIRE , which is expressed prevalently in thymus, pancreas and adrenal cortex. Multiple mutations in AIRE have been identified in APECED patients. The predicted proline-rich AIRE polypeptide harbours two PHD-type zinc finger motifs and contains a putative nuclear targeting signal suggesting its involvement in the regulation of transcription. In the future, functional analysis of the AIRE protein both in vitro and in vivo will provide valuable insight not only into the molecular pathogenesis of APECED but also into the aetiology of autoimmunity in general.
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PMID:Gene defect behind APECED: a new clue to autoimmunity. 973 75

Mutations in the human AIRE gene (hAIRE) result in the development of an autoimmune disease named APECED (autoimmune polyendocrinopathy candidiasis ectodermal dystrophy; OMIM 240300). Previously, we have cloned hAIRE and shown that it codes for a putative transcription-associated factor. Here we report the cloning and characterization of Aire, the murine ortholog of hAIRE. Comparative genomic sequencing revealed that the structure of the AIRE gene is highly conserved between human and mouse. The conceptual proteins share 73% homology and feature the same typical functional domains in both species. RT-PCR analysis detected three splice variant isoforms in various mouse tissues, and interestingly one isoform was conserved in human, suggesting potential biological relevance of this product. In situ hybridization on mouse and human histological sections showed that AIRE expression pattern was mainly restricted to a few cells in the thymus, calling for a tissue-specific function of the gene product.
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PMID:The mouse Aire gene: comparative genomic sequencing, gene organization, and expression. 1002 80

Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is the only autoimmune disease characterized so far that is caused by a defect in a single gene. We have recently isolated the defective gene in this disease by positional cloning and have identified several different mutations in APECED patients. This novel gene, AIRE, contains two plant homeodomain (PHD)-type zinc finger motifs and a newly described putative DNA-binding domain SAND. We have further shown that the protein encoded by the AIRE gene is localized to the nuclear body-like structures of cell nuclei. Similar discrete speckles within the nucleus have been suggested to be involved in the regulation of transcription, oncogenesis and differentiation of cells. Together with the predicted structural features of the APECED protein the new data obtained both in vitro and ex vivo suggest that this protein participates in the regulation of gene expression in a restricted set of tissues and cells.
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PMID:Cloning of the APECED gene provides new insight into human autoimmunity. 1034 83

Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is a rare monogenic autoimmune disease with endocrine components including type 1 diabetes, adrenal failure, and thyroid dysfunction, with major autoantibodies directed against adrenal, pancreas, and thyroid tissue. A 13-bp deletion in exon 8 of the autoimmune regulator (AIRE1) gene on chromosome 21q22.3 accounts for more than 70% of mutant alleles in United Kingdom subjects with APECED. To determine whether this polymorphism contributes to disease susceptibility in subjects with autoimmune disease in general, we screened 302 patients with Graves' disease, 154 patients with autoimmune hypothyroidism, 235 patients with type 1 diabetes, and 318 control subjects for the 13-bp deletion of the AIRE1 gene. The mutation was present in only 1 (0.33%) patient with Graves' disease, 1 patient with autoimmune hypothyroidism (0.6%), and 1 (0.315) of the control subjects. No patients with type 1 diabetes were found to carry the mutation. We conclude, therefore, that the 13-bp deletion of the AIRE1 gene is not a susceptibility locus for the more common autoimmune endocrinopathies in the United Kingdom.
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PMID:A heterozygous deletion of the autoimmune regulator (AIRE1) gene, autoimmune thyroid disease, and type 1 diabetes: no evidence for association. 1072 83

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