UMLS:C0011854 - FACTA Search

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

Type I Insulin-Dependent Diabetes Mellitus (IDDM) is an autoimmune disease characterised by the destruction of pancreatic Beta cells. There is an evidence for a contribution of genetic factors to the development of the disease and it is widely documented that HLA antigens contribute to the disease susceptibility. HLA-DR3 and HLA-DR4 associations have been firstly described in Caucasian. Recent studies at the gene level have elucidated this HLA association more precisely, pointing out the prominent role of HLA-DQ locus genes. The hypothesis has been proposed that some critical amino-acid at position 57 of DQ Beta chain and at position 52 of DQ Alpha chain both contribute to disease susceptibility. According to the functional role of HLA class II molecules, these particular residues may affect the antigen binding and T cell recognition and therefore contribute to the triggering of the pathological auto-immune response.
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PMID:[Genetic susceptibility of insulin-dependent diabetes]. 129 34

To study the expression of HLA-DQ beta chain alleles associated with type 1 diabetes, mAbs were generated from mice immunized with synthetic peptides representing allelic HLA-DQw7 and HLA-DQw8 beta chain sequences. The splenocytes from immunized mice were fused with myeloma cells, either immediately after or following additional in vitro boosting with peptide. Peptide-specific mAbs, predominantly of the IgG isotype, were isolated only from in vitro boosted splenocytes. Immunoblot analysis showed that several of the mAbs cross-reacted with DQ beta chain molecules. One mAb to a peptide representing DQw8 beta position [49-60] specifically recognised the DQw8 beta chain. Three mAbs to a peptide representing DQw8 beta position [39-52] specifically recognised an epitope consisting of Gly-Val-Tyr in position 45-47, i.e., all DQ beta alleles except DQw7 beta (position 45-47: Glu-Val-Tyr) and DQw2 beta (position 45-47; Gly-Glu-Phe). In FACS analysis these mAbs bound lymphocytes with the same specificity as found by immunoblotting analysis. Thus, by combining in vivo and in vitro immunization we have generated a number of epitope specific monoclonal IgG antibodies that distinguish closely related HLA-DQ beta chain alleles in predetermined positions.
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PMID:Production of epitope specific monoclonal IgG antibodies to HLA class II molecules by combining in vivo and in vitro immunization. 137 72

The presence of DQA and DQB alleles conferring protection or susceptibility was assessed in a panel of 39 insulin-dependent diabetes mellitus patients and 39 healthy control subjects from the central highland of Ethiopia. The results were grouped into three entities: a combination of alleles conferring susceptibility, a group conferring protection, and a group without any apparent HLA-DQ or -DR predisposition to insulin-dependent (type 1) diabetes mellitus (IDDM). Statistical analysis revealed that the relative risk of the first group is 64.1. If a similar approach is applied to the data on a study in caucasoid IDDM patients and controls of Kahlil and colleagues, the pattern is fully consistent with the data presented here, with an extraordinarily high relative risk (RR 258.2). It will be of interest to study whether this subdivision is reflected or supported by clinical or etiologic differences of the disease. The predictive value of susceptibility phenotypes appears to be more accurate by the proposed subdivision. Furthermore, in combination with islet-cell antibody analysis, assessment of genotype will permit more accurate identification of prediabetic individuals to be entered in clinical trials.
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PMID:Relative contribution of HLA-DQA and -DQB alleles to predisposition to insulin-dependent diabetes mellitus. 142 35

Some insulin-dependent diabetic patients present with auto-immune diseases involving extra pancreatic tissues (type 1b diabetes mellitus). The genetic specificity of this syndrome, as opposed to insulin dependent diabetes mellitus (IDDM) free of such associations (Type 1a IDDM) is not clearly established. We have analyzed the HLA-DQB1 and DQA1, loci, after PCR amplification of genomic DNA, in 44 Type 1b IDDM patients, 78 Type 1a IDDM patients and 105 control subjects. No essential difference in HLA-DQ profiles appeared between Type 1b and Type 1a IDDM patients. Both diabetic groups displayed a significant enrichment in DQB1 alleles negative for aspartate at position 57 (Type 1b: 83%; Type 1a: 89%; controls 48%; p < 0.001 vs both patient groups) and in DQB1 Asp 57 negative homozygosity: 71% of Type 1b; 80% of Type 1a; 25% of controls (p < 0.01). This enrichment in DQB1 Asp 57 negative alleles was accounted for by DQB1* 0201 in the Type 1b group, and by DQB1 % 0201 and 0302 in the Type 1a patients. Conversely, alleles DQB1* 0602 and 0301 (DQB1 Asp 57 positive) were protective. Both diabetic groups also displayed a significant enrichment in DQA1 alleles positives for arginine at position 52 (65% of Type 1b; 76% of Type 1a; 50% of control subjects; p < 0.01 and 0.001, respectively, vs controls), and in DQA1 Arg 52 positive homozygotes (48% of Type 1b, 58% of Type 1a, 22% of control subjects; p < 0.01). All differences between diabetic groups and the control group were more pronounced in the case of Type 1a than of Type 1b patients. The HLA-DQ genes shared by Type 1a and Type 1b patients must therefore be closely associated with islet autoimmunity. Genetic differences between Type 1a and Type 1b syndromes, if any, must be investigated in other MHC and non-MHC regions of the genome.
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PMID:Similarity of HLA-DQ profiles in adult-onset type 1 insulin-dependent diabetic patients with and without extra-pancreatic auto-immune disease. 145 19

Insulin-dependent diabetes mellitus (IDDM), or type I diabetes, is the end result mainly of a T-cell mediated autoimmune destruction of pancreatic islet beta cells. Genetical and environmental factors are both of importance in the pathogenesis. Genes in the HLA complex seem to be the most important genetical factors. Among Blacks, Caucasoids and Orientals, IDDM susceptibility is associated with some particular combinations of DQA1 and DQB1 genes in cis or trans position. This strongly argues that susceptibility is primarily associated to the corresponding HLA-DQ molecules themselves. However, weaker contributions by other genes in the HLA complex cannot be excluded. Similarly, a dominant protection is strongly associated with some other DQ molecules, in particular HLA-DQ6, in all three ethnic groups. The function of HLA-DQ (and other class II) molecules is to present peptide-fragments of antigens to CD4+ T cells (mainly helper T cells). Thus, the recognition of certain islet beta cell derived peptides by self-reactive CD4+ T cells, may be an initial event in the pathogenesis. The DQ molecules involved in IDDM susceptibility or protection may exert their function either during thymic development of potential self-reactive CD4+ T cells, or by preferential presentation of certain beta-cell derived peptides to CD4+ T cells, or both. The finding that certain DQ molecules as such confer IDDM susceptibility may lead to new methods to prevent IDDM, for example by using blocking peptide analogues.
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PMID:Role of HLA genes in predisposition to develop insulin-dependent diabetes mellitus. 148 49

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

Some alleles of the HLA-DQB1 and DQA1 loci are preferentially associated with susceptibility to type 1 (insulin-dependent) diabetes mellitus (IDDM). Analysis of the HLA-DQ genetic profile may therefore become important for the screening of subjects at risk of IDDM. However ethnic variations in the genetic profile can occur and require background knowledge of the HLA-DQ allelic distribution before screening campaigns. In the present work, HLA-DQA1 and DQB1 genes have been analyzed, after PCR amplification of the genomic DNA, in French and Algerian control subjects (a total of 148) and diabetic patients (a total of 107). Allelic distributions have been investigated in view of a) possible inter-ethnic differences; b) identification of risk and protective alleles and c) the prevalence of DQB1 aspartate 57 negative and DQA1 arginine 52 positive alleles in control and diabetic groups. The DQB1 allelic distribution was similar in both control groups; alleles negative for aspartate at position 57 were 48% in French and 50% in Algerian. In both diabetic groups, the prevalence of alleles negative for aspartate at position 57 was significantly higher: 91% (French) and 81% (Algerian) (p less than 0.001). A majority of patients were homozygote for DQB1 Asp 57 negativity: 83% (French) and 63% (Algerian). The highest relative risk was associated with HLA-DQB1 0201/0302 heterozygosity. The HLA-DQA1 allelic distribution was also similar in French and Algerian controls. Alleles positive for arginine (ARG+) at position 52 were 50% (French) and 57% (Algerian) of controls. In both diabetic groups the prevalence of alleles positive for arginine at position 52 was significantly higher: 78% (French) and 84% (Algerian).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA-DQA1 and DQB1 alleles in French and Algerian type 1 diabetic subjects. 168 68

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

HLA-DR specificities in 72 Addison's (AD) patients and 808 local controls were compared. We confirmed earlier reports that the HLA-DR3 specificity is significantly increased in AD patients. In our study a relative risk of 3.4 chi 2 = 22.5; pc = 0.01) for the disease was calculated. Analysis of HLA-DQB1 alleles in DR4+ Addison's patients with diabetes mellitus (N = 6) and without IDDM (14 of 18 individuals tested) revealed that the HLA-DQw8 allele (DQB1*0302) was significantly increased in AD patients with IDDM (chi 2 = 13.5; p = 0.001); conversely, a clustering of the HLA-DQw7 allele was detected in DR4+ Addison's patients without IDDM. We thus conclude that particular polymorphic alleles corresponding to non-charged amino acids at position 57 of the HLA-DQ beta-chain [non-Asp-57 alleles] are associated with IDDM also in Addison's patients.
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PMID:The HLA-DQ beta non-Asp-57 allele: a predictor of future insulin-dependent diabetes mellitus in patients with autoimmune Addison's disease. 187 64

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