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)

The role of HLA class II alleles in genetic predisposition to insulin dependent diabetes mellitus (IDDM) was examined by PCR/oligonucleotide probe typing of 42 Mexican-American IDDM families derived from Hispanic Caucasians and Native Americans. All high risk haplotypes (HLA-DR3 and DR4) were of European origin while the most strongly protective haplotype (DRB1*1402) was Native American. Of the 16 DR-DQ DR4 haplotypes identified, only those bearing DQB1*0302 conferred risk; the DRB1 allele, however, also markedly influenced IDDM risk. The general pattern of neutral and protective haplotypes indicates that the presence of Asp-57 in the HLA-DQ beta chain does not confer IDDM protection per se and indicates that both DRB1 and DQB1 influence IDDM susceptibility as well as protection.
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PMID:HLA class II alleles and susceptibility and resistance to insulin dependent diabetes mellitus in Mexican-American families. 798 58

We examined the prevalence of HLA-DRB1, DQB1, DQA1 and TAP2 genes in children with insulin-dependent diabetes mellitus (type 1 diabetes). These HLA and TAP2 alleles were identified by dot-blot analysis of polymerase chain reaction (PCR)-amplified genomic DNA with sequence-specific oligonucleotide probes. The results show that those DQB1 alleles, which carry non-aspartic acid at position 57, in conjunction with DQA1 alleles carrying arginine at position 52, are strongly associated with susceptibility to type 1 diabetes. The prevalence of the TAP2* 0201 allele in diabetic patients was significantly lower than that in normal controls. Analysis of the data suggests that DQ alleles have the primary association with type 1 diabetes and that the association of TAP2 alleles with the disease is secondary.
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PMID:HLA-DQ and TAP2 genes in patients with insulin-dependent diabetes mellitus. 800 38

Insulin-dependent diabetes mellitus (IDDM) is strongly associated with the presence of arginine in position 52 of the DQ alpha chain and absence of aspartic acid in position 57 of the DQ beta chain in Caucasians. With the aim of confirming this association in Chinese, extensive oligonucleotide dot blot hybridization of PCR-amplified DQA1 and DQB1 genes was studied using samples from 48 IDDM patients and 46 healthy nondiabetic control subjects. Three major findings emerged from our analysis. 1) DQ alpha 52-Arg and DQ beta 57-non-Asp are strongly associated with IDDM susceptibility as compared with controls (P < 0.001 and 0.005, respectively). 2) DQ beta 57-non-Asp homozygous (NA/NA) is associated with increased susceptibility to IDDM (22.9% vs 2.2% in controls, P < 0.01). DQ beta 57-Asp homozygous (A/A) is associated with protection against IDDM (14.6% vs 47.8% in controls, P < 0.01). 3) In this study, about 14.6% of IDDM patients were homozygous for DQ beta 57-Asp, compared with 0% of American patients. Only 22.9% were homozygous for DQ beta 57-Asp, compared with 96% of American diabetic subjects in a previous study. Thus it is unlikely that the DQ beta 57 amino acid has a major effect on IDDM susceptibility in Chinese.
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PMID:HLA-DQA and DQB alleles contribute to susceptibility to insulin-dependent diabetes mellitus. 803 70

We examined HLA Class II antigens in 116 Japanese IDDM patients [84 typical IDDM (T-IDD); 32 slowly progressive IDDM (S-IDD)] by the hybridization protection assay (HPA) which is a novel HLA typing method based on hybridization of acridinium-ester-labeled DNA probes to amplified DNA. We detected HLA-DRB1, -DQA1 and -DQB1 genes by this method which is capable of analyzing over 50 samples within 4 h with high sensitivity. Positive associations were found in DRB1*0405, DRB1*0802, DRB1*0901, DQA1*0301, DQB1*0303 and DQB1*0401, negative correlations in DRB1*0403, DR2, DR12, DRB1*0801 or 03, DQA1*0101 or 02, DQA1*0501, DQB1*0301 and DQB1*0602 alleles. The absence of aspartic acid (Asp) at position 57 of the DRB1 chain and the presence of arginine (Arg) at position 52 of the DQA1 chain correlated positively with both types of IDDM. There were no significant differences in HLA between T-IDD and S-IDD. These results suggest that the absence of Asp at position 57 of the DRB1 chain and the presence of Arg at position 52 of the DQA1 chain are significant Japanese IDDM patients and that DRB1*0802, in which the amino acid at position 57 is aspartic acid, may play a role in the pathogenesis of IDDM. Also, T-IDD and S-IDD have common bases in the HLA gene.
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PMID:Analysis of MHC class II antigens in Japanese IDDM by a novel HLA-typing method, hybridization protection assay. 807 Mar 5

The particular histocompatability antigen (HLA) gene(s) that may confer systemic lupus erythematosus (SLE) susceptibility remains unknown. In the present study, 58 unrelated patients and 69 controls have been analyzed for their class I and class II serologic antigens, class II (DR and DQ) DNA restriction fragment length polymorphism, their deduced DQA1 and B1 exon 2 nucleotide sequences and their corresponding amino acid residues. By using the etiologic fraction (delta) as an almost absolute measure of the strongest linkage disequilibrium of an HLA marker to the putative SLE susceptibility locus, it has been found that the strength of association of the HLA marker may be quantified as follows: DQA1*0501 (associated to DR3) or DQB1*0201 (associated to DR3) > non Asp 57 beta DQ/Arg 52 alpha DQ > DR3 > non Asp 57 beta DQ. Thus, molecular HLA DQ markers tend to be more accurate as susceptibility markers than the classical serologic markers (DR3). However, dominant or recessive non Asp 57 beta DQ susceptibility theories, as previously postulated for insulin-dependent diabetes mellitus, do not hold in our SLE nephritic population; indeed, three patients bear neither Arg 52 alpha DQ nor Asp 57 beta DQ suscepibility factors. On the other hand, nonsusceptibility factors are included in our population in the A30B18CF130-DR3DQ2(Dw25) haplotype and not in A1B8CS01-DR3DQ2(Dw24); this distinctive association has also been recorded in type I diabetes mellitus and may reflect the existence of common pathogenic HLA-linked factors for both diseases only in the A30B18CF10DR3DQ2(Dw25) haplotype. Finally, the observed increase of deleted C4 genes (and not 'null' C4 proteins) in nephritic patients shows that C4 genes are disease markers, but probably without a pathogenic role.
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PMID:Differential contribution of C4 and HLA-DQ genes to systemic lupus erythematosus susceptibility. 810 32

The allelic constitution at HLA class II DRB1, DQB1, DQA1, and DPB1 loci of IDDM patients from Taiwan was compared with that of ethnically matched nondiabetic individuals by PCR-based DNA typing. Of the three haplotypes found to be positively associated with IDDM in Taiwan, two (DRB1*0301-DQA1*0501-DQB1*0201 and DR4-DQA1*0301-DQB1*0302) appear to be identical to the susceptible haplotypes in Caucasian and black populations, whereas the third haplotype (DR4-DQA1*0301-DQB1*04) has been reported to be positively associated with IDDM only in the Japanese population. The three haplotypes, DRB1*1502-DQA1*0102-DQB1*0601 and DRB1*1201 (or 1202)-DQA1*0501-DQB1*0301 and DRB1*0803-DQA1*0103-DQB1*0601, were negatively associated with IDDM in Taiwan; a protective effect of the last haplotype has not been reported previously. Neither DQ beta non-Asp-57 nor DQA1*0301 alone appears sufficient to account for the HLA-associated susceptibility to IDDM in Taiwan. Also, the DQ alpha beta heterodimer encoded by the alleles DQA1*0301/DQB1*0201, DQA1*0301/DQB1*0302, or DQA1*0501/DQB1*0201 does not explain the susceptibility of a larger fraction of the IDDM patients than the residue at position 57 of the DQ beta chain or DQA1*0301. Finally, the DRB1 alleles appear to affect IDDM susceptibility, although for most haplotypes the effect of individual loci cannot be assessed due to the linkage disequilibrium between the DQ and the DR region.
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PMID:Association of insulin-dependent diabetes mellitus in Taiwan with HLA class II DQB1 and DRB1 alleles. 810 65

IDDM patients of North East Italian region were molecularly typed for their HLA-DQB1 and DQA1 loci by using allele specific oligonucleotide probes and PCR amplified genomic DNA. IDDM status strongly correlated with DQB1 alleles carrying a non-aspartic acid residue in position 57 of DQ beta chain and DQA1 alleles with an arginine residue in position 52 of DQ alpha chain. Genotype analysis revealed that individuals with two DQB1 alleles having a non-aspartic residue in position 57 and two DQA1 alleles with an arginine residue in position 52 had the highest relative risk of disease: they constituted 41% of IDDM patients as compared to 0% of controls. Heterozygosity either at residue 57 of DQB1 or residue 52 of DQA1 was sufficient to abrogate statistical significance for disease association, although 43.6% of IDDM patients were included in these two groups as compared to 21.6% of normal controls. On the other hand the presence of two DQB1 alleles with aspartic acid in position 57 was sufficient to confer resistance to disease irrespective of the DQA1 genotype. Based on the number of possible susceptible heterodimers an individual can form, it was found that 85% of IDDM cases could form two or more heterodimers (two in cis and two in trans), but no IDDM case was found to form one susceptible heterodimer in cis. These results demonstrate that the complete HLA-DQ genotype, more than single DQB1 or DQA1 alleles or DQB1-DQA1 haplotypes, is associated with the highest risk of disease. Screening of the population for preventive purposes and/or early signs of IDDM should then take advantage of this result and "susceptible homozygous" individuals should be followed very closely and considered the first group of choice for possible new therapeutical trials.
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PMID:The complex interplay of the DQB1 and DQA1 loci in the generation of the susceptible and protective phenotype for insulin-dependent diabetes mellitus. 818 82

In the last few years the improvement of our knowledge of the pathogenesis of type I diabetes mellitus has been possible mainly because of the development of studies of the role played by genetic factors and the better definition of lesion mechanisms. The availability of experimental models such as "non obese diabetic (NOD)" mice and "Bio-Breeding (BB)" rats, which develop a form of type I diabetes similar to that of humans, has provided many data regarding the relevance of T lymphocytes in the pathogenesis of the disease, and made it possible to anticipate the immunopathological steps leading to pre-insulitis, insulitis and, finally, to pancreatic beta-cell destruction. The analysis of sera of patients with type I diabetes has demonstrated the presence, also in the preclinical states, of several autoantibodies directed against specific autoantigenic structures of beta cells, which have come to be useful for early diagnosis and in the monitoring of the disease. However, hard evidence for a relevant role of these autoantibodies in the pathogenesis of the disease does not exist. At present, we can affirm that the expansion of autoreactive T lymphocytes specific for membrane antigens of beta cells is the most relevant immunological event for the induction and sustenance of insular lesions. Autoreactive T lymphocytes may be able to activate several effector systems of lesions through the production of multiple combinations of cytokines. The aetiology of the disease is certainly multifactorial and involves both genetic and environmental factors. With respect to the former, the most accurate studies have been performed on the HLA system. It has been clearly shown that type I diabetic patients more frequently display HLA DR3 and DR4 specificities. The results obtained by the application of molecular techniques have suggested considering as risk factors the occurrence of DQB1 0302 DQB1 0201 alleles, the presence of a neutral amino acid residue in position 57 of the DQ beta chain instead of aspartic acid, as well as an arginine residue in position 52 of the DQ alpha chain. With regard to acquired aetiological factors, the hypothesis that primary lesions of pancreatic islets could be due to some viral infections capable of triggering, through several undefined mechanisms, persistent and self-sustaining autoimmune reactions, has gained some credit.
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PMID:[Current views on the etiopathogenesis of type-I diabetes mellitus]. 821 79

For complex genetic diseases involving incomplete penetrance, genetic heterogeneity, and multiple disease genes, it is often difficult to determine the molecular variant(s) responsible for the disease pathogenesis. Linkage and association studies may help identify genetic regions and molecular variants suspected of being directly responsible for disease predisposition or protection, but, especially for complex diseases, they are less useful for determining when a predisposing molecular variant has been identified. In this paper, we expand upon the simple concept that if a genetic factor predisposing to disease has been fully identified, then a parent homozygous for this factor should transmit either of his/her copies at random to any affected children. Closely linked markers are used to determine identity by descent values in affected sib pairs from a parent homozygous for a putative disease predisposing factor. The expected deviation of haplotype sharing from 50%, when not all haplotypes carrying this factor are in fact equally predisposing, has been algebraically determined for a single locus general disease model. Equations to determine expected sharing for multiple disease alleles or multiple disease locus models have been formulated. The recessive case is in practice limiting and therefore can be used to estimate the maximum proportion of putative susceptibility haplotypes which are in fact predisposing to disease when the mode of inheritance of a disease is unknown. This method has been applied to 27 DR3/DR3 parents and 50 DR4/DR4 parents who have at least 2 children affected with insulin dependent diabetes mellitus (IDDM). The transmission of both DR3 and DR4 haplotypes is statistically different from 50% (P < 0.05 and P < 0.001, respectively). An upper estimate for the proportion of DR3 haplotypes associated with a high IDDM susceptibility is 49%, and for DR4 haplotypes 38%. Our results show that the joint presence of non-Asp at DQ beta position 57 and Arg at DQ alpha position 52, which has been proposed as a strong IDDM predisposing factor, is insufficient to explain the HLA component of IDDM predisposition.
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PMID:Homozygous parent affected sib pair method for detecting disease predisposing variants: application to insulin dependent diabetes mellitus. 822 7

The Sardinian population has an extremely high incidence of IDDM (30.2 of 100.000 in the age group of 0-14 years). This study reports the molecular characterization of HLA class II genes in 120 IDDM sporadic patients and 89 healthy subjects of Sardinian origin. Compared with other Caucasians, both Sardinian patients and controls had an unusual distribution of haplotypes and genotypes. In particular, there was a high gene frequency of the DRB1*0301, DQA1*0501, DQB1*0201 susceptibility haplotype both in patients (0.58) and controls (0.23) while a reduction of the DRB1*1501, DQA1*0102, DQB1*0602 protective haplotype (0.03) was observed in the healthy population. This distribution may partially explain the high incidence of IDDM reported in Sardinia. The analysis of the DQ beta 57 and DQ alpha 52 residues showed that the absence of Asp 57 and the presence of Arg 52 were associated with IDDM in a dose-response manner. On the other hand, we found that (a) a very similar distribution of these residues was found when comparing Sardinians with another healthy Caucasian population from the same latitude but with a lower rate of IDDM incidence; (b) several genotypes encoding the identical DQ alpha 52/DQ beta 57 phenotype carried very different relative risks; and (c) the DRB1*0403, DQA1*0301, DQB1*0304 haplotype (DQ beta 57 Asp-neg and DQ alpha 52 Arg-pos) was found in 40% of the DR4-positive controls but not in patients (p = 0.00034), while the DRB1*0405, DQA1*0301, and DQB1*0302 haplotype carrying the same residues at the same positions was found in 70% of the DR4-positive patients and in only one control (p = 0.00003). These findings suggest that IDDM susceptibility cannot be completely explained by the model in which only DQ alpha 52 and DQ beta 57 residues are taken into account.
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PMID:Combinations of specific DRB1, DQA1, DQB1 haplotypes are associated with insulin-dependent diabetes mellitus in Sardinia. 822 39


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