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:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our knowledge of the genetics of insulin dependent diabetes (IDDM), and in particular the HLA system, has gained considerable expansion thanks to the application of molecular biology. The genetic susceptibility to the disease is linked to the HLA region, particularly at DQ-alpha and DQ-beta chain genes. Particular amino acid other than aspartic acid in position 57 of the DQ beta chain and the presence of an arginine in position 52 of the DQ alpha chain and to how these markers can be used to identify subjects at risk for developing IDDM. The identification of such subjects may be useful for the development of strategies aimed to prevent the disease and in addition may offer a new insight into population screening.
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PMID:The HLA system and insulin dependent diabetes: recent findings and prospects for disease prediction. 128 13

Major determinants of susceptibility to Type 1 (insulin-dependent) diabetes (IDDM) have been mapped to the HLA complex, near to or identical with genes encoding class II molecules. The association of IDDM with HLA-DR3 and/or DR4 antigens and the highest risk for DR3/4 heterozygotes suggest a synergistic effect of the two haplotypes. The characterization at the molecular level of the class II region has provided evidence that DQ rather than DR determinants may primarily influence the disease. In caucasians the susceptibility strongly correlates with the absence of aspartic acid at position 57 on the DQ beta chain and/or the presence of arginine at position 52 on the DQ alpha chain. The formation of a putative DQ susceptibility molecule (DQ alpha Arg52+, DQ beta Asp57-) accounts best for the disease associations when trans-complementation between alpha and beta chains encoded by different haplotypes is postulated to explain the excess of heterozygotes. Observations in other populations and in animal models indicate, however, that other residues on DQ alpha and beta chains, other class II (DR beta) molecules and non-HLA linked genes also contribute to the susceptibility. The mechanism(s) by which susceptibility determinants influence IDDM is not known. It is probably in relation with the role of class II molecules in the antigen presentation to T lymphocytes.
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PMID:[The role of the HLA system in the genetics of Type I diabetes mellitus]. 145 12

Insulin-dependent diabetes mellitus (IDDM) in whites is strongly associated with particular HLA-DQ alpha beta heterodimers composed of a DQ alpha chain with an arginine at residue 52 (Arg52+) combined to a DQ beta chain lacking an aspartic acid at residue 57 (Asp57-). With the aim of confirming this association, clarifying which heterodimers account for the highest risk of IDDM and explaining the excess risk of DR3-DQw2/DR4-DQw8, 115 unrelated white IDDM patients and 108 unrelated healthy nondiabetic control subjects were studied. With polymerase chain reaction and sequence-specific oligonucleotide probes, both patients and control subjects were typed for their HLA-DQA1 and DQB1 alleles and their DQA1-DQB1 haplotype and genotype frequencies were compared. Four major findings emerged from our analysis. 1) Arg52+ DQ alpha/Asp57- DQ beta heterodimers, formed in cis and/or in trans, are strongly associated with susceptibility to IDDM; 97% of patients and 46% of control subjects had at least one such susceptibility heterodimer (relative risk [RR] 32, confidence interval [Cl] 14.25-71.86, P less than 10(-7). 2) The degree of disease susceptibility depends on the number of such DQ heterodimers that a subject can express according to his or her DQA1-DQB1 genotype. The highest RR was observed in patients with four susceptibility DQ heterodimers (RR 41, Cl 17.05-95.9). 3) Only part of the susceptibility DQ heterodimers were significantly increased in patients, conferring IDDM susceptibility of different strength. The strongest association was with the DQA1*0501-DQB1*0302 combination formed in trans position (RR 35.2, CI 12.88-96.78, P less than 10(-7).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dose effect of cis- and trans-encoded HLA-DQ alpha beta heterodimers in IDDM susceptibility. 155 98

Particular HLA-DQ beta chain alleles were reported as immunogenetic markers of type I diabetes mellitus with young onset of the disease. In a homogeneous German population, we studied HLA-DR specificities and HLA-DQ beta chain alleles in young-onset (less than 21 years of age; n = 185) and adult-onset (greater than 40 years of age; n = 48) insulin-dependent diabetics. In both cohorts of type I diabetics, the HLA-DR3 and -DR4 specificities were significantly increased. The presence of an HLA haplotype with an amino acid other than aspartic acid at position 57 of the DQ beta chain was significantly associated with type I diabetes in both cohorts (etiologic fraction: 93% and 73%). We conclude that the presence of DNA sequences coding for an amino acid other than aspartic acid at the 57th position of the DQ beta chain provides a molecular risk marker for type I diabetes of both and adult onset.
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PMID:Prevalence of HLA-DQ beta chain non-Asp alleles in type I (insulin-dependent) diabetics with young and older ages of onset. 179 91

Cytoplasmic islet cell antibodies (ICA) were determined in a group of non-diabetic Caucasian schoolchildren (n = 4208). The prevalence rate for ICA positivity was 1.05 per cent (95 per cent confidence interval: 0.8-1.4 per cent). Analysis of HLA risk factors revealed that HLA-DRB1*03 (p less than 0.01), HLA-DRB1*04 (p less than 0.01) and HLA haplotypes with non-charged amino acids (non-Asp) at codon 57 of the HLA-DQ beta (p less than 0.01) chain were significantly increased when compared to controls. High levels of islet cell antibodies, i.e. Juvenile Diabetes Federation units (JDF units) equal to or greater than 30 JDF units were found to be associated with amino acids other than aspartic acid at codon 57 of the DQ beta chain molecule. Also the persistence of circulating ICA was found to be associated with non-Asp homozygosity of the proband (p less than 0.03).
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PMID:The level and the persistence of islet cell antibodies in healthy schoolchildren are associated with polymorphic residues of the HLA-DQ beta chain. 179 50

The aetiology of insulin-dependent diabetes (IDDM) involves genetic predisposition, a major component of which has been mapped in the HLA complex, near to or identical with genes encoding class II molecules. In Caucasian populations IDDM is strongly associated with the serologically defined HLA-DR3 and DR4 antigens, which are widely recognised as markers of susceptibility. The particularly high risk of DR3/DR4 heterozygotes suggests that susceptibility is determined by two genes acting synergistically. The development of recombinant DNA technology has allowed a finer description of the class II region and provided evidence that DQ rather than DR determinants may primarily influence IDDM susceptibility. The search for specific structural changes of the DQA and DQB genes has shown that susceptibility correlates with the absence of aspartic acid at position 57 on the DQ beta chain (DQ beta 57 Asp--) and/or the presence of arginine at position 52 on the DQ alpha chain (DQ alpha 52 Arg+). In Caucasians the formation of a putative DQ susceptibility molecule (DQ alpha 52 Arg+, DQ beta 57 Asp-) accounts best for the disease associations when transcomplementation molecules consisting of DQ alpha and beta chains encoded by different haplotypes are postulated to explain the excess risk of heterozygotes. The HLA-IDDM associations in the Japanese, however, are not explained by this model. These and other unresolved questions indicate that other residues of the DQ alpha and beta chains or other class II molecules (DR beta chains), as well as non-MHC genes, may also contribute to the susceptibility.
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PMID:The role of genetic predisposition to type I (insulin-dependent) diabetes mellitus. 193 Sep 40

Insulin-dependent diabetes mellitus (IDDM) in Caucasians is closely associated with the HLA-DQ gene, especially the residue 57 of the DQ beta chain. Aspartic acid at this position provides protection against IDDM, and substitution of this residue by alanine, valine or serine increases susceptibility to IDDM. To determine whether this is a common feature of IDDM in different ethnic groups, we studied DQB1 DNA in Japanese patients with IDDM by polymerase chain reaction and non-radioactive restriction site analysis. In contrast to Caucasian patients with IDDM, most Japanese patients with IDDM possessed at least one aspartic acid at position 57 of DQ beta. This finding strongly suggests that aspartic acid at position 57 of DQ beta does not protect the Japanese from IDDM.
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PMID:Aspartic acid at position 57 of the HLA-DQ beta chain is not protective against insulin-dependent diabetes mellitus in Japanese people. 197 Nov 72

It has now become clear that certain HLA antigens are associated with disease susceptibility more than any other genetic markers. Insulin-dependent diabetes mellitus (IDDM or type I) is an HLA-associated condition. Moreover, there is evidence to show that IDDM is a genetically programmed autoimmune disease. Studies of the HLA-DR region have shown a strong association with IDDM, with over 90 per cent of IDDM patients possessing DR3 and/or DR4. Although the HLA-DR region is a major component in the inherited disease susceptibility, it is not the only gene region involved. Recent studies demonstrated that HLA-DQ may be more closely linked to the disease locus than HLA-DR. Sequence analysis of the HLA-DQ3 gene products suggest that a single amino acid (aspartic acid) at position 57 is uniquely important for determining susceptibility or resistance to IDDM. Although there is a strong association of certain HLA loci with IDDM, it may not explain nor account for all the genetic susceptibility to the disease. It seems that 60 per cent of the genetic basis of IDDM is related to the HLA gene (chromosome 6) and another 40 per cent is non-HLA-associated (i.e., chromosomes 2, 7, 11, and 14). Even though great progress has been made in the understanding of the genetics of IDDM, the mode of inheritance of the disease remains controversial. The present review discusses various aspects of the autoimmune process believed to be involved in pancreatic beta cell destruction in individuals genetically susceptible to IDDM. The possible modes of inheritance and new data regarding estimated risks of transmitting the disease are presented.
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PMID:Insulin-dependent diabetes mellitus and immunogenetics: maternal and fetal considerations. 205 68

Insulin-dependent diabetes mellitus is characterized by the infiltration of lymphocytes into the islets of Langerhans of the pancreas (insulitis) followed by destruction of insulin-secreting beta-cells leading to overt diabetes. The best model for the disease is the non-obese diabetic (NOD) mouse. Two unusual features of the class II major histocompatibility complex (MHC) of the NOD mouse are the absence of I-E and the presence of unique I-A molecules (I-ANOD), in which aspartic acid at position 57 of the beta-chain is replaced by serine. This feature is also found in the HLA-DQ chain of many Caucasians with insulin-dependent diabetes mellitus. We have previously reported that the expression of I-E prevents the development of insulitis in NOD mouse. Here we report that the expression of I-Ak (A alpha kA beta k) in transgenic NOD mice can also prevent insulitis, and that this protection is seen not only when the I-A beta-chain has aspartic acid as residue 57, but also when this residue is serine. These results show that the single amino-acid substitution at position 57 of the I-A beta-chain from aspartic acid to serine is not sufficient for the development of the disease.
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PMID:Direct evidence for the contribution of the unique I-ANOD to the development of insulitis in non-obese diabetic mice. 197 76

Transplantation of bone marrow cells from nonobese diabetic (NOD) mice, a model for type 1 diabetes mellitus, to C3H/HeN mice, which express I-E alpha molecules and have aspartic acid at residue 57 of the I-A beta chain, induced insulitis followed by overt diabetes in the recipient C3H/HeN mice more than 40 weeks after bone marrow transplantation. When cyclosporin A, which perturbs T-cell functions, was injected intraperitoneally into [NOD----C3H/HeN] chimeric mice daily for 1 month, the chimeric mice developed insulitis and overt diabetes within 20 weeks following bone marrow transplantation. Transplantation of bone marrow cells from (NZW x BXSB)F1 mice, which develop lupus nephritis, myocardial infarction, and idiopathic thrombocytopenic purpura, into C3H/HeN or C57BL/6J mice induced in the recipient strains both lupus nephritis and idiopathic thrombocytopenic purpura more than 3 months after transplantation. Transplantation of a stem-cell-enriched population from (NZW x BXSB)F1 mice into normal mice also induced autoimmune disease in the recipients. These results indicate that both systemic autoimmune disease and organ-specific autoimmune disease originate from defects that reside within the stem cells; the thymus and environmental factors such as sex hormones appear to act only as accelerating factors.
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PMID:Organ-specific and systemic autoimmune diseases originate from defects in hematopoietic stem cells. 223 44


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