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)

HLA class II associations with IDDM in populations of non-Caucasoid origin can provide important insights into the nature of the HLA and disease association. Firstly, HLA class II alleles that are rare in Caucasoids but common in other populations can be assessed for their contributory role in IDDM. Secondly, the different HLA class II gene linkage arrangements in different populations can help map the IDDM susceptibility determinants. This chapter reviews studies of HLA class II associations with IDDM in Asian Indians, Chinese, Japanese, Africans and black Americans. Most of these studies have been based on HLA-DR serology. However, DNA analyses, based on restriction fragment length polymorphism, sequence specific oligonucleotide hybridizations of polymerase chain reaction products and DNA sequencing, have made clear the identity of genes contributing to susceptibility or resistance to IDDM in populations of non-Caucasoid origin. DNA sequence analysis of the variable regions of the HLA-DQA, DQB and DRB genes has revealed at least eight alleles at HLA-DQA, 13 at HLA-DQB and 34 at HLA-DRB1. This chapter correlates HLA-DR and DQ allelic diversity with inherited predisposition to IDDM on a global basis. IDDM is strongly associated with the serological specificities of HLA-DQ, rather than with particular amino acid substitutions in class II alleles. DQw8 has a high risk for IDDM, DQw4, DQw5 and DQw9 have a lesser risk, while DQw6 and DQw7 are protective in IDDM. DQw2 is permissive for IDDM, depending on the presence of other HLA class II alleles. Increased heterozygosity at HLA is observed in Oriental patients, as it is in Caucasoid IDDM patients. The nature of this synergism is examined in terms of possible interactive effects between DQA and DQB alleles or DRB and DQB alleles; both effects could be operating. The conclusion from this genetic analysis is that molecular mimicry at HLA-DQ, with either foreign or autoantigens, may be an important mechanism in IDDM. Additionally, the anomalous role of DQw2 in IDDM suggests that a further mechanism, such as T cell activation, may control the ability to mount an immune response against autoantigens. Further studies, possibly with transfectant cell lines, are necessary to clarify the functional role of HLA class II genes in IDDM.
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PMID:Cross-ethnic group comparisons of HLA class II alleles and insulin dependent diabetes mellitus. 189 68

On the basis of our own studies and those of others, we suggest that several DQ molecules may be involved in IDDM susceptibility (Table 2). Our studies suggest that these DQ molecules may be encoded both when the DQA1 and DQB1 genes are in cis or trans position. A common denominator of several of these IDDM susceptibility molecules is that they have a non-Asp amino acid at DQ beta chain residue 57. Our studies demonstrate that this residue may be an important residue for peptide presentation to T cells.
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PMID:Insulin dependent diabetes mellitus susceptibility or protection may be determined by certain HLA-DQ molecules. 189 71

HLA Class II polymorphisms were analysed in 27 families with at least one Type I diabetic proband using Southern blotting technique according to 10th Histocompatibility Workshop Standards. The probes used were DRB, DQA1, DQB1 and DOB. We have studied 108 haplotypes and performed segregation analysis with HLA serology and restriction fragment length polymorphism (RFLP) data and compared "affected" with "non-affected" haplotypes (not inherited by IDDM patients). RFLPs correlated well with DR and DQ serology and detected additional polymorphisms. In particular, DQB polymorphism analysis showed segregation of the DQw3 splits with 88.5% of the DR4 affected haplotypes bearing the DQw3.2 split (now DQw8) and 11.5% the DQw3.1 split (now DQw7) while in the non-affected DR4 haplotypes 33.3% were DQw3.2 and 66.6% were DQw3.1. Haplotype analysis showed that DR4-DQw3.2 was in strong linkage with the U fragment (2.1 kb Taq I) of DQA2 (DX alpha) and with the L fragment (5.4 kb BamH I) of DOB. This study confirms previous observations of DQB polymorphisms in heterozygous IDDM patients, supports the protective effect of DQw3.1 (DQw7) against the development of the disease and demonstrates the importance of DQw3.2 (DQw8) for susceptibility to Type I diabetes.
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PMID:Restriction fragment length polymorphism analysis of HLA haplotypes in families with type I diabetes mellitus. 196 92

Insulin-dependent diabetes mellitus (IDDM) susceptibility is associated with the DR4-DQw4 haplotype in Japanese and the DR4-DQw8/-Drw8-DQw4 genotype (among others) in whites. We investigated whether these Japanese and white individuals encode the same or a similar DQ alpha beta heterodimer, which may be an IDDM-susceptibility molecule in both populations. First, we carried out genomic DQA1 and DQB1 typing with sequence-specific oligonucleotide probes. The results revealed that Japanese DR4-DQw4 and white DR4-DQw8/DRw8-DQw4 IDDM patients carried the DQA1*0301 allele and the DQB1*0401 or DQB1*0402 allele, either in the cis (Japanese DR4-DQw4 individuals) or trans (white DR4-DQw8/DRw8-DQw4 individuals) position. Because the DQB1*0401 and DQB1*0402 alleles differ only at residue 23, these DQB1 genes are very similar. We next tested cells from these individuals with a particular DQ-specific T-lymphocyte clone, HH58. The clone was only restimulated with cells from Japanese individuals who carried the DQA1*0301 and DQB1*0401 alleles in the cis position or white individuals who carried the DQA1*0301 and DQB1*0402 alleles in the trans position. Thus, particular cis- or trans-encoded DQ alpha beta heterodimers, which in both cases are recognized by T lymphocytes, may confer susceptibility to IDDM in both ethnic groups.
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PMID:Particular HLA-DQ alpha beta heterodimer associated with IDDM susceptibility in both DR4-DQw4 Japanese and DR4-DQw8/DRw8-DQw4 whites. 204 Mar 92

1. The mode of inheritance of the DR3- and DR4-associated susceptibility genotype is essentially recessive, based on both the segregation data and the existence of Hardy-Weinberg equilibrium in Ashkenazi Jewish and possibly in patients of other populations. 2. Maternal effects may alter the expressivity of IDDM in some susceptible offspring, depending on the maternal DR genotype. Thus, the number of susceptible DR4 types inherited from the mothers may be decreased in certain population samples. Conceivably, these maternal effects also account for the smaller proportion of diabetic children born to diabetic women than to diabetic men. Conversely, maternal DRw6 may raise this risk. 3. The locus of the susceptibility gene is most likely in the DQ region. While specific DQA1 and DQB1 alleles are very closely associated with IDDM in some populations, neither is completely associated with it in DR4 haplotypes and neither accounts for the differences in IDDM susceptibility associated with DR3 haplotypes. 4. Linkage disequilibrium between DR and DP alleles in affected haplotypes indicates the existence of subsets of DR3 and DR7, which account for all or most of the risk to those haplotypes. The possibility of direct DP effects is less likely because the respective DP alleles are different and because DR4 does not maintain disequilibrium with DP alleles in either affected or unaffected haplotypes. 5. The DQA2-BglII-7.2Kb polymorphism in complete association with affected B8,DR3 haplotypes suggests the possible involvement of DQA2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA and IDDM: facts and speculations on the disease gene and its mode of inheritance. 204 89

Analysis of the frequencies of class II HLA-DR and HLA-DQ alleles by serological and DNA typing in 49 Japanese patients with type 1 (insulin-dependent) diabetes and 31 Japanese controls indicates the following. (i) Susceptibility is more strongly associated with the HLA-DQ subregion than with the HLA-DR subregion. (ii) Of the class II alleles detected, the A3 allele of the DQA1 locus was the most strongly associated with disease. Ninety-six percent of the patients were positive for the A3 allele compared to 53% of the controls (P = 0.001; relative risk = 19.7; confidence limits = 3.72-188.64). (iii) The DQw8 allele of the DQB1 locus, which is associated with susceptibility to type 1 diabetes in Caucasians and Blacks, was not increased in frequency in Japanese patients (22%) versus controls (19%). (iv) Asp-57-encoding DQB1 alleles are associated with reduced susceptibility to type 1 diabetes in Caucasians. The major predisposing haplotypes in Japanese are DR4 and DR9. By DNA sequence analysis, both of these Japanese haplotypes have Asp-57-encoding DQB1 alleles. Oligonucleotide dot blot analysis showed that all, except 1, of the 49 Japanese patients and all of the 31 controls have at least one Asp-57-encoding DQB1 allele. In addition, 40% of the patients were homozygous for Asp-57-encoding DQB1 alleles versus 35% of the controls. The high frequencies of Asp-57-encoding DQB1 alleles in this ethnic group may account for the rarity of type 1 diabetes in Japan.
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PMID:The A3 allele of the HLA-DQA1 locus is associated with susceptibility to type 1 diabetes in Japanese. 230 May 72

Family and population studies indicate that predisposition to insulin-dependent (type I) diabetes mellitus (IDDM) is polygenic. It has been shown that the absence of the aspartic acid in position 57 (Asp57) of the DQ beta chain is positively correlated to IDDM. However, Asp57-negative haplotypes do not always confer susceptibility and conversely, some Asp57-positive haplotypes seem to be disease associated. It has been suggested that other HLA class II sequences, probably belonging to the HLA DQA1 gene, confer susceptibility to IDDM. This report, based on extensive oligonucleotide dot blot hybridization of PCR-amplified DQA1 and DQB1 genes, reinforces the importance of the Asp57-negative DQ beta chain, but also introduces the possibility that a DQ alpha chain bearing an arginine in position 52 (Arg52) confers susceptibility to IDDM. A molecular model of susceptibility to IDDM is proposed. This model strongly suggests that the disease susceptibility correlates quantitatively with the expression at the cell surface of a heterodimer, composed of a DQ alpha-chain bearing an Arg52 and a DQ beta chain lacking an Asp57. In view of the respective positions of the two residues and their charge, we might anticipate that both residues DQ beta Asp57 and DQ alpha Arg52 are critical for modulation of susceptibility, presumably via viral-antigenic peptide and/or autoantigen presentation.
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PMID:A combination of HLA-DQ beta Asp57-negative and HLA DQ alpha Arg52 confers susceptibility to insulin-dependent diabetes mellitus. 231 83

INSULIN-dependent (type I) diabetes mellitus (IDDM) follows an autoimmune destruction of the insulin-producing beta-cells of the pancreas. Family and population studies indicate that predisposition is probably polygenic. At least one susceptibility gene lies within the major histocompatibility complex and is closely linked to the genes encoding the class II antigens, HLA-DR and HLA-DQ (refs 3, 4). Fine mapping of susceptibility genes by linkage analysis in families is not feasible because of infrequent recombination (linkage disequilibrium) between the DR and DQ genes. Recombination events in the past, however, have occurred and generated distinct DR-DQ haplotypes, whose frequencies vary between races. DNA sequencing and oligonucleotide dot-blot analysis of class II genes from two race-specific haplotypes indicate that susceptibility to IDDM is closely linked to the DQA1 locus and suggest that both the DQB1 (ref. 7) and DQA1 genes contribute to disease predisposition.
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PMID:Identification of susceptibility loci for insulin-dependent diabetes mellitus by trans-racial gene mapping. 249 58

Because particular human leukocyte antigen (HLA) DQ alleles are the major predisposing factors for type 1 diabetes mellitus (IDDM), we investigated whether they are shared by other endocrine autoimmune diseases. We, therefore, analyzed the HLA DQ genotypes of 171 patients with IDDM, 271 with Graves' disease (GD), 65 with Hashimoto's thyroiditis, 51 with postpartum thyroiditis, 53 with Addison's disease (AD), and 271 healthy controls. HLA DQA1 and DQB1 alleles were defined by polymerase chain reaction and sequence-specific oligonucleotide hybridization as well as by single strand conformational polymorphism analysis. HLA DQA1*0501 was significantly more frequent in IDDM (60%), GD (65%), and AD (70%) than in controls (43%); DQA1*0301 was significantly more frequent only in IDDM (67% vs. 30% controls). The heterozygous state DQA1*0301/*0501 was found in 9% of controls and 35% of IDDM (relative risk, 5.6). An arginine at position 52 on either DQA1 allele was significantly more frequent in patients with IDDM (94%), GD (80%), and AD (89%) compared with controls (66%). HLA DQB1*0201 and DQB1*0302 were more frequent in IDDM patients (*0201, 62% vs. 36% in controls, *0302, 59% vs. 19% controls), whereas DQB1*0602 was less frequent in IDDM (4%) and GD (18% vs. 31% of controls). In conclusion, endocrine autoimmunity has a common immunogenetic background; susceptibility is conferred by DQA1*0501 as well as an arginine at position 52 of DQA1 alleles, and protection against IDDM and GD is conferred by DQB1*0602.
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PMID:Susceptibility and resistance alleles of human leukocyte antigen (HLA) DQA1 and HLA DQB1 are shared in endocrine autoimmune disease. 760 64

To study the role of the HLA DQA1 gene and its interaction with DQB1 in the susceptibility of IDDM, subjects with insulin-dependent (type 1) diabetes mellitus and non-diabetic unrelated controls were recruited from a Chinese population living in northern Taiwan. HLA DQA1 exon 2 was enzymatically amplified by polymerase chain reaction. HLA DQA1 alleles were diagnosed by dot blotting and hybridization with 11 sequence-specific oligonucleotide probes. Among all the DQA1 alleles, DQA1*0301 and DQA1*0501 were more frequent while DQA1*0102, DQA1*0103 and DQA1*0601 were less frequent in Chinese with IDDM than in controls. Among the DQA1 genotypes, only DQA1*0301/0301 and DQA1*0301/0501 were associated with increased risk to IDDM while DQA1*0301/0601 and DQA1*0102/0103 were protective against IDDM in our population. As the cell surface HLA DQ molecules were formed from each DQA1 and DQB1 alleles either in cis- or trans-position, the numbers of susceptible HLA DQ alpha beta heterodimers were then derived from the genotypes of HLA DQA1/DQB1 in each person. The numbers of the possible diabetogenic DQ alpha beta dimers correlated with the degree of risk to IDDM (r = 0.92) but were not statistically significant (p > 0.05). Subjects with absence of diabetogenic HLA DQ molecules were resistant to developing IDDM while subjects with two or more forms of diabetogenic DQ molecules were associated with increased risk to IDDM. In conclusion, both DQA1 and DQB1 genes, which determine the formation of susceptible DQ alpha beta heterodimers, were significantly associated with IDDM in Chinese subjects living in Taiwan.
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PMID:HLA DQA1 genotypes and its interaction with HLA DQB1 in Chinese IDDM living in Taiwan. 762 45


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