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)

IDDM results from the immune-mediated destruction of pancreatic islet beta cells. Clinicopathologic heterogeneity in IDDM is reflected in part by the wide age range over which the onset of clinical symptoms can occur, after months to years of subclinical "insulitis." Because MHC genes play a critical role in immune function we studied their possible contribution to IDDM heterogeneity by analyzing HLA profiles of 194 IDDM patients in relation to their age at diagnosis. Restriction of HLA-DR heterogeneity was observed in patients diagnosed before age 21 years. Frequencies of DR3 and DR3/4 were highest in the < or = 6-year-old age group and thereafter declined with increasing age at diagnosis. In contrast, the frequency of DR4 remained increased up to age 30 years at diagnosis. DR7, normally considered to be a neutral allele, was like DR2 and DR5, significantly decreased in patients diagnosed before age 21 years. The A30-B18-DR3 haplotype was significantly increased in the < or = 6-year-old age group, A1-B8-DR3 was increased in the > or = 31-year-old group. B62-DR4 was increased only in the > 12-year-old age group. In DR4 patients the frequency of DQ8 was increased across all age groups. A sex difference was observed in those diagnosed at < or = 12 years of age, with an excess of females in the DR3+/DR4- group and males in the DR3-/DR4+ group. An association of DPB1 with IDDM was revealed by an increased frequency overall of DPB1*0301 and/or DPB1*0401, being more pronounced in patients diagnosed at > 20 years of age.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA antigens and age at diagnosis of insulin-dependent diabetes mellitus. 774 14

The transmission of HLA-DR and DQ was compared between 46 families with at least one child affected by insulin dependent diabetes mellitis (IDDM) and 43 healthy control families. In the patient families, there was an increased transmission of DR4 (p < 0.025) and DQB1*0302 (p < 0.01) from both parents to the index patient. There was an increased transmission of DQB1*0302 (p < 0.03) from the mothers only. The non-inherited maternal haplotypes showed a significantly decreased frequency (p < 0.01) of positively associated haplotypes (DR4-DQA1* 0301-DQB1*0302, DR3-DQA1*0501-DQB1*0201) compared to all parental haplotypes in the control families. In the control families neither transmission rates nor frequencies of non-inherited haplotypes differed from those expected in the control families. In conclusion, the observed reduction of IDDM-positively associated haplotypes in patient non-inherited maternal haplotypes, but not in non-inherited paternal haplotypes, suggests that tolerance during fetal life to maternal non-inherited HLA molecules may be important to diabetes development.
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PMID:Inheritance of MHC class II genes in IDDM studied in population-based affected and control families. 786 82

Serum IgA class reticulin autoantibody test was performed prospectively once a year on 238 children and adolescents with insulin dependent diabetes mellitus (IDDM). At the initial testing, within one year after onset of IDDM, five were positive and 233 were negative. During follow up a further 11 of the initially antibody negative children became positive (6.7%). Jejunal biopsy was performed at the appearance of the autoantibodies and silent coeliac disease was shown in nine (3.8%). One of these children showed on initial biopsy after the onset of IDDM to have normal jejunal mucosal architecture deteriorating later to a flat lesion. Jejunal immunohistochemical studies of another of the patients positive for reticulin autoantibodies but normal on routine biopsy showed an increased density of intraepithelially located gamma/delta T cells and aberrant HLA-DR expression in the crypts pointing to ongoing mucosal inflammation and potential coeliac disease. This study shows that in IDDM patients, reticulin autoantibody negative subjects become antibody positive, which may be followed by coeliac disease. Repeated serological screening and rebiopsy should be considered to detect late developing clinically silent coeliac disease among patients with IDDM.
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PMID:Seroconversion of reticulin autoantibodies predicts coeliac disease in insulin dependent diabetes mellitus. 788 23

Insulin-dependent diabetes mellitus (IDDM) is associated with class II molecules of the MHC on chromosome 6, in particular HLA-DR and -DQ alleles, but a pathogenic role for TNF-alpha in the class III region of the MHC has also been implied. We therefore tested whether there was any independent association between a biallelic TNF polymorphism and IDDM. The TNF2 allele was present in 61 of 114 (54%) IDDM patients compared to 101 of 253 (40%) control subjects (odds ratio 1.73; p < 0.02). Stratification analysis in individuals matched for HLA-DR3 revealed, however, that this association was not independent of HLA-DR3 and is most likely to be a result of linkage disequilibrium between these alleles.
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PMID:Comparative analysis of the genetic associations of HLA-DR3 and tumour necrosis factor alpha with human IDDM. 805 88

A sensitive C-peptide immunoreactivity radioimmunoassay demonstrated the presence of subtle, but definite residual beta-cell function in patients with IDDM of long duration. Although HLA antigens are known to influence susceptibility to IDDM, their contribution to the extent of pancreatic beta-cell destruction has not yet been examined extensively. We studied the relationship between residual beta-cell function and HLA class I and class II antigens in 111 unrelated Japanese IDDM patients. Using the sensitive C-peptide immunoreactivity radioimmunoassay, the presence or absence of residual beta-cell function was evaluated by the C-peptide immunoreactivity response to a 100-g oral glucose load. DNA typing for HLA-DQA1 and HLA-DQB1 antigens was performed in addition to serological typing of HLA-A, HLA-B, HLA-C, and HLA-DR antigens. A C-peptide immunoreactivity response > 0.033 nM was regarded as an indication of the presence of residual beta-cell function, not the assay error. Surprisingly, 35 of 37 (94.6%) patients without residual beta-cell function had HLA-A24, whereas only 39 of 74 (52.7%) patients with residual beta-cell function had this antigen (corrected P = 9.795 x 10(-6). Any other HLA antigens, including the DR and DQ loci, showed no difference in the frequency with regard to residual beta-cell function. The duration of diabetes was similar between the groups with and without residual beta-cell function.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Association of HLA-A24 with complete beta-cell destruction in IDDM. 809 84

Stable cell surface presentation of MHC class I molecules requires active transport of antigenic peptides across the endoplasmic reticulum by products of two genes, TAP1 and TAP2, which are maped in the MHC class II region. There are many human diseases whose onset are associated with particular MHC alleles. However it has not always been possible to assign susceptibility to individual genes because genes within the complex are in linkage disequilibrium. In this study, we tested DNA from sixty-three healthy controls and 64 Insulin Dependent Diabetes Mellitus: IDDM patients by Polymerase Chain Reaction-Sequence Specific Oligonucleotide: PCR-SSO, Polymerase Chain Reaction-Single Strand Conformation Polymorphism: PCR-SSCP analysis and DNA sequencing. These studies demonstrated the difference in frequencies of TAP2 gene products between healthy control and IDDM patient, and between Japanese and Caucasian population. Statistic analysis of HLA antigens and variants amino acids of TAP showed the linkage disequilibrium between TAP2-665, -687 sequence and HLA-DR alleles. The data suggests that the association of TAP2 allele with IDDM disease may be a simple reflection of the linkage disequilibrium between TAP allele and DR4 gene.
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PMID:[Polymorphism of the TAP genes Japanese healthy control and type I diabetes mellitus]. 815 58

Serological typing of HLA-DR antigens was performed on 116 patients with IDDM and 380 healthy controls. As expected a high incidence of HLA-DR3 and DR4 antigens was observed in patients with IDDM. However, the HLA-DR2 antigen, which rarely occurs in IDDM and is considered to confer protection against IDDM, was found in equal distribution (35%) in both patients and controls. HLA-DQ genotype analysis in 10 children with IDDM and 13 controls, all with the HLA-DR2 haplotype, showed that the great majority of affected children and normal controls carry the DR2 (16) or AZH-DQA1 *0102, DQB *0502 subtype. The high incidence of this subtype in normal individuals possibly explains why the DR2 antigen does not offer protection against IDDM in Greeks.
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PMID:Genetic predisposition and IDDM in Greece. 826 24

Bacterial antigen fragments complexed with class II major histocompatibility molecules (HLA-D) on antigen presenting cells (APCs) stimulate CD4+ T lymphocyte proliferation, presumably to protect the host. This study examined these responses to antigens of two periodontal pathogens in four groups (n = 15) of age- (young adult) and sex-matched Caucasian subjects with or without type 1 diabetes and moderate to severe periodontitis: Group DP = diabetics with periodontitis; Group DnP = diabetics without periodontitis; Group nDP = nondiabetics with periodontitis; and Group nDnP = nondiabetics without periodontitis. HLA-D phenotypes for each subject were determined by lymphocytotoxicity assays. T lymphocytes purified from peripheral blood were stimulated in cell culture with APC pulsed with various concentrations of tetanus toxoid, Porphyromonas gingivalis, and Capnocytophaga sputigena antigens. T lymphocyte reactivity (3H thymidine incorporation) was numerically lower in cultures from diabetics stimulated with unpulsed APC (not significant), and antigen-pulsed cultures showed low proliferation and no significant differences among groups. Stimulation indices in cultures from diabetic patients stimulated with P. gingivalis or C. sputigena, however, were significantly elevated at all antigen concentrations compared to nondiabetic cultures. The occurrence of HLA-DR4 was moderately associated with diabetes (P < 0.05) and highly associated with periodontitis (P < 0.001, log-linear model for categorical variables); and HLA-DR53 and HLA-DQ3 were significantly associated with periodontitis (P < or = 0.02). HLA-DR was crucial to lymphocyte stimulation (anti-HLA-DR blocking experiments), but the low peripheral blood T cell reactivity to antigens of periodontal pathogens could not be linked with HLA-D type or periodontitis susceptibility.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA-D and T lymphocyte reactivity to specific periodontal pathogens in type 1 diabetic periodontitis. 827 7

Activation of T-helper cells is modulated by the intensity of HLA class II expression on antigen-presenting cells. We evaluated whether any abnormalities could be found in the expression of HLA-DR and -DQ molecules on monocytes in type 1 diabetic subjects. DR and DQ molecules were induced by human recombinant interferon-gamma on cultured peripheral blood monocytes obtained from children with type 1 diabetes (N = 28), their siblings (N = 18) and unrelated healthy controls (N = 21). The response in DQ induction varied considerably between different individuals, but the average responsiveness was significantly lower in patients compared to siblings and unrelated controls. In addition to the diabetic subjects deficient DQ induction was also observed in three siblings. One of them had high levels of islet cell antibodies and presented with diabetes 6 months later, and another had active rheumatoid arthritis. The response in DR induction was also slightly lower in patients than in siblings, but did not differ from that in unrelated controls. The results suggest abnormalities in the regulation of HLA class II expression in type 1 diabetic subjects possibly reflecting the ongoing autoimmune process.
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PMID:Defective HLA class II expression in monocytes of type 1 diabetic patients. The Childhood Diabetes in Finland Study Group. 832 1

A burgeoning number of antigenic targets of the islet cell autoimmunity in IDD have been identified, and more can be anticipated through improved methods for their identification. The challenge for those investigating the pathogenesis of IDD will be to assign the relative importance of these antigens to the development of the disease, and to resolve whether there is a dominant primary immunologic event that is followed by a series of secondary immunizations to a variety of normally sequestered islet cell antigens in the sequence of pathogenic events that culminate in IDD. One interesting observation that may have potential pathogenic implications is the observation that of all islet cell autoantigens described, only two (i.e., 64 kD/GAD, 38 kD) are reactive in their native configurations, implying that recognition of conformational epitopes is most important. This property argues for primary immunizing agents rather than secondary ones after release of denatured antigens and antigenic recognition through their epitopes. Given the complex and multiple physiological functions of islet cells and the continuous variation in their activity, it is reasonable to speculate that the speed of the progression to IDD could vary between individuals with respect to their insulin needs and the relative activities of their islets. Activated islets may express autoantigens that have only limited expression in quiescent islets. The often times striking variation in the severity of insulitis seen in different islets of a single pancreas may be explained by the level of activity of individual islets. Furthermore, disparity in HLA-DR/DQ associations with disease may involve differences in the immunological recognition of autoantigens. Whereas there is still much to learn, it is clear that disease predictability and disease intervention studies have been enhanced through the identification of the islet cell autoantigens in IDD.
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PMID:Islet cell autoantigens in insulin-dependent diabetes. 840 15


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