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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study was undertaken to clarify a role of interleukin-12p40 gene (IL-12B) polymorphism, located on chromosome 5q33-34 (IDDM 18), in Japanese subjects with Type 1 diabetes mellitus (T1DM) and autoimmune thyroid diseases (AITD). In 179 subjects with T1DM, 166 with AITD (128 with Graves' disease and 38 with Hashimoto's thyroiditis) and 115 healthy control subjects, the IL-12B 3'UTR A-C polymorphism was determined by PCR-RFLP method. In T1DM subjects, the genotype was also analyzed in relation to human leukocyte antigen (HLA)-DRB1-DQB1 haplotype status. There was a weak difference in the distribution of the genotype frequency between T1DM and control subjects, and the C allele frequency was higher in T1DM subjects (P<0.05). In 68 T1DM subjects without having high-risk HLA haplotypes to T1DM in this population, the genotype distribution and C allele frequency was significantly different from control subjects without high-risk HLA haplotypes (P<0.01), and from T1DM subjects with high-risk HLA haplotypes (n=111) (P<0.05). There was no difference in the genotype and allele frequencies between AITD and control subjects. In conclusion, the IL-12B 3'UTR A-C polymorphism did not seem to play a major role on genetic susceptibility to T1DM and AITD in Japanese, although the polymorphism conferred susceptibility in T1DM subjects without having high-risk HLA haplotypes. The IL-12B 3'UTR A-C polymorphism would be considered as a supplementary risk factor to T1DM in conjunction with HLA haplotypes.
Diabetes Res Clin Pract 2006 Feb
PMID:Interleukin-12p40 gene (IL-12B) polymorphism and Type 1 diabetes mellitus in Japanese: possible role in subjects without having high-risk HLA haplotypes. 1600 98

The insulin autoimmune syndrome is characterized as producing polyclonal or monoclonal anti-insulin autoantibodies in a patient with no previous history of exposure to exogenous insulin. The patient is 44-year-old Japanese woman and she had symptoms of hypoglycaemia without exposure to exogenous insulin. The patient was considered to have IAS because high titre of anti-insulin autoantibodies (96-98%: bound/total) were found in her serum. Her HLA DR beta1 DNA sequences analysis revealed that she has the DRB1(*)0406 and DRB1(*)0901. Our patient have been taken alpha lipoic acid (ALA) before onset. SH group compounds are known to play an important role in the pathogenesis of IAS, and ALA contains SH. From these data, we propose the possibility of the correlation between pathogenesis of IAS and ALA, and it will be important to pay attention for ALA as a cause of hypoglycemia in such cases.
Diabetes Res Clin Pract 2007 Mar
PMID:Possible relevance of alpha lipoic acid contained in a health supplement in a case of insulin autoimmune syndrome. 1696 49

T1D (type 1 diabetes) incidence rates are extremely low in Asian populations. The prevalences of islet-specific autoantibodies are reported to be low compared with Caucasians. Although the clinical and immunologic characteristics of T1D in Asians appear to be different from those of Caucasians, if we apply correct patient definition and standardized methods, the typical T1D patients are very similar, in the immunologic as well as genetic perspectives. Although the association of individual allele seems to be different between populations, if we compare the identical DR-DQ haplotypes, the association and transmission to diabetic offspring were similar for Asians and Caucasians. The high-risk HLA genotypes/haplotypes were found to be independent determinants of diabetes in the first-degree relatives of individuals with T1D, particularly in the presence of autoantibodies. A different genetic susceptibility including a low frequency of high-risk HLA alleles could explain the lower prevalence of islet-specific autoantibodies and the low incidence of T1D, or different genetic and environmental interactions might be involved in the etiology of T1D. It is certain that DR-DQ linkage disequilibrium (LD) is an important factor explaining the difference in T1D incidence in different countries. LD between highly susceptible DRB1 alleles and protective DQB1 alleles, and vice versa, is the major contributing factor to the low incidence of T1D in Asians. We also suggested that different genetic/environmental interactions might operate in the etiology of T1D between Caucasians and Asians. It would be of great help for primary prevention to investigate to what degree genetic determinants influence the well-known regional differences in incidences, since we can identify environmental risk factors that may either initiate the autoimmune process or promote already ongoing beta cell damage in different countries. For this, population-based epidemiological studies are necessary to identify risk determinants that may be useful for primary prevention strategies.
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PMID:Why is type 1 diabetes uncommon in Asia? 1713 May 29

Type 1 diabetes is a polygenic disease with a major susceptibility locus, IDDM1, located in the human leukocyte antigen (HLA) region. Although class II loci, DR and DQ genes in particular, are major components of IDDM1, accumulating lines of evidence indicated that IDDM1 consists of multiple components and that non-class II genes in addition to class II genes contribute to susceptibility to and/or age-at-onset of type 1 diabetes. To identify a second component of IDDM1, we investigated the association of a panel of polymorphisms in 2.2 Mb region of the HLA encompassing from class II to class I regions with type 1 diabetes. Polymorphisms types were: DRB1 and DQB1 in class II; two microsatellite markers, BAT2-GT and TNFa in class III; and, five microsatellite markers, STR-MICA, MIB, C1-3-1, C2-4-4, and C3-2-10 in class I region. A total of >200 Japanese patients and healthy control subjects were studied. Class II DRB1*0405 and DQB1*0401 were significantly associated with susceptibility to, but not with age-at-onset of, type 1 diabetes. C1-3-1, located near C locus, was significantly associated with not only susceptibility to, but also age-at-onset of type 1 diabetes. These data suggest that a second component of IDDM1 maps to the HLA class I region, contributing to susceptibility to as well as age-at-onset of type 1 diabetes.
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PMID:A second component of HLA-linked susceptibility to type 1 diabetes maps to class I region. 1713 May 66

Diabetes mellitus occurs spontaneously in dogs, which is believed to have an autoimmune component and to be a model of human latent autoimmune diabetes of adults (LADA). Some dog breeds (e.g. Samoyed) are particularly predisposed, whereas others (e.g. Boxer) are highly resistant. With the completion of the Dog Genome Assembly, comparative genomic studies of complex diseases in dogs, including diabetes, could provide an important investigative approach into such disorders. Type 1 diabetes in humans is strongly associated with major histocompatibility complex (MHC) class II polymorphisms. We have investigated whether canine dog leucocyte antigen (DLA) class II haplotypes are associated with diabetes. DNA from 460 cases and 1047 controls were genotyped for DLA-DRB1, DLA-DQA1 and DLA-DQB1 using sequence-based typing. Three DLA haplotypes, DRB1*009/DQA1*001/DQB1*008, DRB1*015/DQA1*0061/DQB1*023 and DRB1*002/DQA1*009/DQB1*001, were found at significantly increased frequency in cases with diabetes compared with controls. One DLA-DQ haplotype, DQA1*004/DQB1*013, was significantly reduced in cases with diabetes. Further analysis showed that DQA1 alleles carrying arginine at codon 55 of DQA1 were increased in dogs with diabetes. To our knowledge, this is the first report of a comparative study of MHC and diabetes in a non-rodent species. Since no laboratory model of LADA exists and dogs and humans share similar environments, further research into canine diabetes is warranted.
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PMID:Identification of susceptibility and protective major histocompatibility complex haplotypes in canine diabetes mellitus. 1717 36

Ligand binding grooves of MHC class I molecules are able to load a panel of endogenous peptides of varying length and sequence derived from self or foreign origin to activate or deactivate cytotoxic CD8(+) T cells. Peptides are assembled with class I molecules by pathways that are either dependent or independent of transport by ABC proteins (TAP) and degradation in the immunoproteasome by its subunits LMP2 and LMP7. Those peptides that require TAP and LMP treatment appear to be subject to control and optimization by TAP for proper customizing and efficient presentation. Therefore, allelic variations in the coding sequences of TAP and LMP were suspected for a long time to be responsible for improper antigen processing, interruption of self-peptide presentation and reduced cell surface expression of MHC class I molecules resulting in the activation of autoreactive CD8(+) T cells. In this article we reviewed the controversial findings regarding the role of TAP and LMP genes in autoimmune diabetes and reevaluated data of eleven separate studies in a cross-study analysis by genotype and HLA haplotype matching. We could confirm previous results by showing that TAP2*651-A/F and TAP2*687-A/A are significantly associated with disease, independently of linkage disequilibrium (LD). LMP2-R/H surprisingly seems to be primarily disease-conferring although a weak association with DR4 serotypes can be observed. Our analysis also suggests that LMP7-B/B, TAP1-A/A and TAP2*687-A/B are the protective genotypes and that these associations are not secondary to LD with DRB1. Consequently, intracellular antigen processing associated with TAP- and proteasome-dependent pathways seems to be a critical element in T cell selection for the retention of a balanced immunity.
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PMID:Genetic susceptibility to type 1 diabetes in the intracellular pathway of antigen processing - a subject review and cross-study comparison. 1749 58

The distribution of human leukocyte antigen (HLA)-DRB1-DQA1-DQB1 haplotypes was analyzed separately in two distinct French ethnic groups with type I diabetes (T1D), i.e. French North African migrants (n= 64, mean age at diagnosis = 8.25 years) and ancient French natives (n= 60, mean age at diagnosis = 7.42 years). HLA associations were determined by calculating odds ratios (ORs) between patients and two ethnic-matched control populations. Results show highly similar ORs for the conservative DRB1*0301-DQA1*0501-DQB1*0201 haplotype of susceptibility (OR: 3.22 and 3.93 in migrants and natives, respectively) and the DRB1*1501-DQA1*0102-DQB1*0602 haplotype of resistance (OR: 0.05 and 0.03, respectively). In contrast, among the more variable DRB1*04-DQB1*0302 haplotypes of susceptibility, the DRB1*0402 (OR: 3.10 and 32.84) and 0405 (OR: 5.90 and 16.25, respectively) were associated with T1D in migrants and natives, whereas an increase of DRB1*0401, a rare allele in migrants, was significant in natives only. Also, among the DRB1*11-DQA1*0505-DQB1*0301 haplotypes of resistance, the OR observed for DRB1*1104-DQA1*0505-DQB1*0301, common in migrants, was lower (OR: 0.08) than for DRB1*1101-DQA1*0505-DQB1*0301 (OR: 0.32), common in natives. How DRB1*11 subtypes might affect differently the risk conferred by DQA1*0505-DQB1*0301 will be discussed.
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PMID:HLA-associated genetic resistance and susceptibility to type I diabetes in French North Africans and French natives. 1766 9

Functional polymorphisms of two MHC genes (DRB1 and RAGE) were analysed in Italian pediatric patients with Type 1 diabetes and in a control group. The diabetic condition is related positively to the positive electric charge of the pocket 4 of pro-inflammatory DRB1 alleles (R = 0.5072, P = 0.0001) and negatively to at least one anti-inflammatory RAGE allele (R = -0.2200, P = 0.0106). The association DRB1-disease decreases from high risk positively charged alleles to low risk negatively ones. A multiple regression model including the effect of electric charges at positions 70 and 74 of the DRB1 explains more than 31% of the variability of our data. The addition of the RAGE dependent variables does not increase the significance of the model. Our results confirm that the interaction between a negatively charged amino acid of insulin autoantigenic peptides and a positively charged DRB1 is the key event triggering the autoimmune process. The linkage disequilibrium between RAGE and DRB1 is the main cause of the association between the variants of RAGE and the initial outcome of the disease. However, since RAGE ligands increase during the disease progression, the observed association suggests that the proinflammatory RAGE and DRB1 polymorphisms synergize to activate the immune response which leads to the complications of diabetes. These evidences support a new hypothesis that considers the largely unexplored role of the MHC genes in genetic adaptation to a variable environment and in the maintenance of the metabolic biodiversity. A mechanism based on the maternal immunization against the negatively charged autoantigens, such as the insulin peptide B9-23, and on the fetal-maternal interaction might transform the physiological adaptation into adaptive changes of the genetic population structure. According to the "thrifty-genotype" hypothesis, "thrifty DRB alleles" with a positive charge are responsible for the susceptibility to diabetes and for an efficient storage of caloric intake in arctic climates with scarce food availability while "non-thrifty DRB alleles" with a negative or neutral charge are advantaged in tropical climates with constant food supply.
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PMID:Pro-inflammatory variants of DRB1 and RAGE genes are associated with susceptibility to pediatric type 1 diabetes: a new hypothesis on the adaptive role of autoimmunity. 1798 63

Both the human leucocyte antigen (HLA) DRB1 and the HLA DQB1 gene loci play a role in the development and progression of autoimmune diabetes mellitus (T1DM). Similarly, the insulin promoter variable number tandem repeats (INS-VNTR) polymorphism is also involved in the pathogenesis of diabetes mellitus (DM). We studied the association between each of these polymorphisms and DM diagnosed in patients older than age 35 years. Furthermore, we analysed possible interactions between HLA DRB1/DQB1 and INS-VNTR polymorphisms. Based on C-peptide and GADA levels we were able to distinguish three types of diabetes: T1DM, latent autoimmune diabetes in adults (LADA) and T2DM. INS-VNTR was genotyped indirectly by typing INS-23HphI A/T polymorphism. The genotype and allele frequencies of INS-23HphI did not differ between each of the diabetic groups and group of healthy subjects. We did, however, observe an association between the INS-23HphI alleles, genotypes and C-peptide secretion in all diabetic patients: A allele frequency was 86.2% in the C-peptide-negative group vs. 65.4% in the C-peptide-positive group (P(corr.) < 0.005); AA genotype was found to be 72.4% in the C-peptide-negative group vs. 42.6% in the C-peptide-positive groups (P(corr.) < 0.01). The HLA genotyping revealed a significantly higher frequency of HLA DRB1*03 allele in both T1DM and LADA groups when compared to healthy subjects: T1DM (25.7%) vs. control group (10.15%), odds ratio (OR) = 3.06, P < 0.05; LADA (27.6%) vs. control (10.15%), OR = 3.37, P < 0.01. The simultaneous presence of both HLA DRB1*04 and INS-23HphI AA genotype was detected in 37.5% of the T1DM group compared to only 9.2% of the healthy individuals group (OR = 5.9, P(corr.) < 0.007). We summarize that in the Central Bohemian population of the Czech Republic, the INS-23HphI A allele appears to be associated with a decrease in pancreatic beta cell secretory activity. HLA genotyping points to at least a partial difference in mechanism, which leads to T1DM and LADA development as well as a more diverse genetic predisposition in juvenile- and adult-onset diabetes. The simultaneous effect of HLA and INS-VNTR alleles/genotypes predispose individuals to an increased risk of diabetes development.
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PMID:HLA DRB1, DQB1 and insulin promoter VNTR polymorphisms: interactions and the association with adult-onset diabetes mellitus in Czech patients. 1827 73

The high-risk human leukocyte antigen (HLA)-DRB1, DQA1 and DQB1 alleles cannot explain the entire type 1 diabetes (T1D) association observed within the extended major histocompatibility complex. We have earlier identified an association with D6S2223, located 2.3 Mb telomeric of HLA-A, on the DRB1(*)03-DQA1(*)0501-DQB1(*)0201 haplotype, and this study aimed to fine-map the associated region also on the DRB1(*)0401-DQA1(*)03-DQB1(*)0302 haplotype, characterized by less extensive linkage disequilibrium. To exclude associations secondary to DRB1-DQA1-DQB1 haplotypes, 205 families with at least one parent homozygous for these loci, were genotyped for 137 polymorphisms. We found novel associations on the DRB1(*)0401-DQA1(*)03-DQB1(*)0302 haplotypic background with eight single nucleotide polymorphisms (SNPs) located within or near the PRSS16 gene. In addition, association at the butyrophilin (BTN)-gene cluster, particularly the BTN3A2 gene, was observed by multilocus analyses. We replicated the associations with SNPs in the PRSS16 region and, albeit weaker, to the BTN3A2 region, in an independent material of 725 families obtained from the Type 1 Diabetes Genetics Consortium. It is important to note that these associations were independent of the HLA-DRB1-DQA1-DQB1 genes, as well as of associations observed at HLA-A, -B and -C. Taken together, our results identify PRSS16 and BTN3A2, two genes thought to play important roles in regulating the immune response, as potentially novel susceptibility genes for T1D.
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PMID:Reproducible association with type 1 diabetes in the extended class I region of the major histocompatibility complex. 1929 42


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