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)

The aim of our study was to investigate the relative prevalence of the different forms of diabetes in young adults and their respective clinical characteristics. Included were 51 nonobese patients (BMI < 27 kg/m2) with diabetes diagnosed before age 40, excluding typical IDDM. Each patient was subjected to screening for glucokinase gene (MODY2) and mitochondrial DNA (at nucleotide 3243) mutations, to HLA class II genotyping, and screening for the presence of islet cell antibodies (ICAs) and anti-GAD antibodies. Informative families were analyzed for linkage of diabetes to chromosome 12q (MODY3). Based on clinical criteria, patients were subdivided into MODY (n = 19) and non-MODY (n = 32). In the MODY group, we identified three patients with MODY2, one with the 3243 mitochondrial mutation, and another with autoimmune diabetes. One of the five MODY families available for linkage study was shown to have MODY3. In the non-MODY group, we found five patients with autoimmune diabetes and one with MODY2. No clinical parameter was helpful to classify patients in one of these subclasses of diabetes; however, the glucagon-stimulated C-peptide was useful to discriminate between MODY2 patients and the others. In conclusion, young and lean non-insulin-dependent diabetic patients constitute a very heterogeneous group, although they present similar clinical characteristics. The clinical distinction of MODY and non-MODY patients allows correct classification in, at most, 75% of the patients and thus is not sufficient to predict clinical course. However, immunological and genetic parameters allowed us to classify only 25% of the patients in specific diagnostic classes.
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PMID:Diagnostic heterogeneity of diabetes in lean young adults: classification based on immunological and genetic parameters. 907 2

Insulin dependent diabetes mellitus (IDDM) is an autoimmune disease with a strong association between disease and the HLA class II region. Because abnormal antigen processing, in part characterized by altered class I processing, has been identified in patients with IDDM, the TAP (transporter associated with antigen processing) genes located in the HLA class II region make attractive candidate genes for IDDM. Five coding region variants of TAP1 were typed in a cohort of well characterized Finnish patients with diabetes (n = 119) and compared to racially marched control subjects (n = 92). We found that although no single TAP1 polymorphism was associated with IDDM, a genotypic combination of Ile/Val at codon 333 with Asp/Asp at codon 637 was found more frequently in subjects with IDDM (9.4%) compared to controls (1.2%; p = 0.025). This could not be accounted for by an association with any particular haplotype defined by class I or class II serology.
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PMID:Evaluation of TAP1 polymorphisms with insulin dependent diabetes mellitus in Finnish diabetic patients. The Childhood Diabetes in Finland (DiMe) Study Group. 912 74

Recent advances in knowledge of crystal structures of MHC class II molecules has advanced understanding of the molecular basis for interactions between peptides and HLA class II molecules. Polymorphism of HLA class II molecules influences structures of peptides bound to HLA class II molecules. To elucidate mechanisms for statistical association between particular HLA class II alleles and susceptibility to autoimmune diseases, it is important to identify self peptides presented by disease-susceptible HLA class II molecules and triggering disease-causative autoreactive T cells. In this study, we tried to identify self-peptides triggering autoimmune diseases including rheumatoid arthritis, insulin autoimmune syndrome, insulin dependent diabetes mellitus and infant-onset myasthenia gravis. Susceptibility to all of these diseases in the Japanese population are known to be strongly associated with particular HLA-DR-DQ haplotypes unique to Asians, and clinical features of some of these diseases are different between Caucasians and Asians including Japanese. We investigated differences in binding-peptide motifs between disease susceptible and non-susceptible HLA class II molecules and predicted candidates of autoimmune self-peptides carrying binding-motifs to disease-susceptible HLA class II molecules. Indeed the major epitope for insulin-autoreactive CD4+ T cell was successfully identified by this strategy. We also found heterogeneity in immunogenetic background between Western type and Asian type of multiple sclerosis. Our data indicated that our strategy is useful to identify autoimmune self-peptides, and it is suggested that not only disease-susceptible HLA class II but also self-peptides causing diseases are different between Caucasians and Asians. These differences may well correlate to different clinical manifestations of diseases between the two ethnic groups.
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PMID:[Binding-peptide motifs of HLA class II molecules susceptible to autoimmune diseases]. 920 Sep 22

Considerable evidence exists that the genes coding for the HLA class II DQ molecules in the MHC region are major contributors to genetic susceptibility in insulin-dependent diabetes. Located centromeric to the DQ loci are the genes encoding DMA and DMB, two class II-like molecules which play an essential role in the pathway leading to antigen presentation by HLA class II. In this study we have examined the distribution of the DMB allele and studied HLA DQA1-DQB1-TAP2-DMB haplotypes in 52 IDDM families and 65 un-related controls. DMB allele frequencies in IDDM and control subjects were not significantly different. DMB*0101 was present in 85% of patients vs. 76% of controls, DMB*0102 in 12 vs. 17%, DMB*0103 in 3 vs. 5%, DMB*0104 in 0 vs. 2%. The IDDM-susceptible MHC DQA1-DQB1 haplotypes found by analysis of IDDM families were not associated with specific DMB alleles. We conclude that the described DMB polymorphisms are not associated with IDDM susceptibility and DMB genotyping is unlikely to improve the assessment of genetic risk for IDDM.
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PMID:Lack of association of DMB polymorphism with insulin-dependent diabetes. 923 3

Japanese IDDM patients have been demonstrated to have unique and different HLA associations from white patients. To elucidate the effect of HLA-associated genetic factors on the clinical heterogeneity of IDDM in Japanese people, HLA-DRB1, DQA1, and DQB1 genotypes in 88 childhood-onset Japanese IDDM patients were examined by polymerase chain reaction-sequence-specific oligonucleotide (PCR-SSO) or sequence-specific primers (SSP). Of the 88 IDDM patients, 26 (29.5%) had DRB1*0405-DQA1*0302-DQB1*0401/X (DR4-DQ4/X), 38 (43.2%) had DRB1*0901-DQA1*0302-DQB1*0303/X (DR9-DQ9/X), and 9 (10.2%) were DR4/9-DQ4/9 heterozygous in the present study (X does not contain protective alleles). Clinical heterogeneity such as age distribution at onset, prevalence and serum level of anti-GAD antibodies (GADAb), and residual pancreatic beta-cell function after diagnosis were compared between patients with HLA-DR4-DQ4 and DR9-DQ9. The frequency of DR9-DQ9 genotype was significantly higher in the younger (0-10 years) than in the older (11-16 years) age-group of onset, but the frequency of DR4-DQ4 was higher in the older (11-16 years) age-group. Although no association of DR-DQ genotypes with the prevalence and serum level of GADAb was found among newly diagnosed patients, long-standing DR9-DQ9 patients had significantly higher levels of GADAb than those with DR4-DQ4. While no difference in time course of serum C-peptide (CPR) levels was detected between GADAb+ and GADAb- patients, a remarkable difference was demonstrated between DR9-DQ9 and DR4-DQ4 patients. The residual pancreatic beta-cell function was retained more in patients with DR4-DQ4 than in those with DR9-DQ9 at diagnosis through 12-18 months after diagnosis. These results suggest that the DR9-DQ9 genotype may induce stronger autoimmune destructive response (T-helper 1 function) against target beta-cells than the DR4-DQ4 genotype does. Our findings may warrant further studies on the association of diabetogenic autoimmune response with HLA class II molecules and contribute to a clarification of interracial differences in HLA-encoded susceptibility to IDDM.
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PMID:Association of HLA-DR, DQ genotype with different beta-cell functions at IDDM diagnosis in Japanese children. 935 42

Autoimmunity associated with tumor cell development seems an important mechanism by which to prevent progression to clinical cancer. In this brief review, tumor autoantigens associated with paraneoplastic syndrome, non-HLA-associated organ-specific autoimmune diseases, and the highly cell-specific autoimmune eradication of the islet beta cells in type 1 diabetes are compared and discussed. It is suggested that autoreactivity is important in preventing tumor formation; however, it may be at the expense of the development of autoimmune disease. Although the cytotoxic T lymphocytes (CTL) induction by HLA class I has been studied and used in clinical trials, little is understood about the initiation and HLA class II mediated induction of an immune response to neoplastic cells. This induction apparently takes place because paraneoplastic disorders are often due to an immune response to the tumor cell resulting in a cross-reactivity with a normally expressed autoantigen on a remote nontumor-associated target cell. The problem of immune surveillance to eradicate neoplasm or downregulate pathological autoimmunity are therefore closely related phenomena. An improved understanding of immune mediated tumor suppression should therefore greatly benefit immunotherapy of type 1 diabetes, and the two areas of research would benefit from an interdisciplinary endeavor.
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PMID:Immune surveillance: paraneoplastic or environmental triggers of autoimmunity. 941 31

Five to 20% insulin-dependent diabetes mellitus (IDDM) patients do not bear the classical HLA class II DR3 or DR4 susceptibility haplotypes. We have studied the clinical characteristics, anti-islet cell antibodies (Ab) and HLA class II genotypes in 72 non-DR3/non-DR4 Caucasian patients, mainly adults, presenting with clinically typical IDDM. The DRB1*08-DQB1*0402-DQA1*0401 haplotype frequency was increased in the patients compared to 272 non-DR3/non-DR4 controls (OR = 5.9, Pc < 0.005). This association was even stronger in the Ab-positive patients (DRB1*08: OR = 7.2, Pc < 0.005; DQB1*0402: OR = 9.2, Pc < 0.005; DQA1*0401: OR = 9, Pc < 0.02). In those subjects the DRB1*15 allele was less frequent than in controls (OR = 0.1, Pc = 0.05). By contrast, IDDM patients with no Ab showed no particular association with HLA class II allele although they had clinical and metabolic characteristics similar to that of Ab-positive subjects. The genetic basis for IDDM predisposition in the Ab-positive subgroup remains elusive since the DRB1*08-DQB1*0402 haplotype encodes an Asp57-positive DQ beta chain. However, all DR8 patients had a non-Asp57 encoding DQB1 allele on the second haplotype. Thus, trans-complementation leading to peculiar predisposing DQ alpha beta heterodimers may occur. Alternatively, a direct role of the DRB1*08 allele cannot be excluded. These results show that autoimmune type 1 diabetes occurs in non-DR3/non-DR4 subjects, mainly adults. They further support that IDDM, when defined on a clinical basis, encompass different pathogenetic entities.
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PMID:Insulin-dependent diabetes mellitus in non-DR3/non-DR4 subjects. 943 1

HLA DQA1*0301-DQB1*0302 (DQ8) and DQA1*0501-DQB1*0201 (DQ2) are positively and DQA1*0102-DQB1*0602 (DQ6) negatively associated with IDDM. In DQA1*0301-DQB1*0302 (DQ8)-positive patients, susceptibility is also mediated by DRB1*0401. The aim of the study was to determine the association between HLA-DR4 and DQ and the presence of GAD65, ICA512, and insulin autoantibodies as well as ICA in 425 Swedish children with IDDM and 367 controls in the age group of 0-15 years. We found that ICA512 autoantibodies were associated primarily with DRB1*0401 and not with DQA1*0301-DQB1*0302 (DQ8). No such hierarchy could be demonstrated for insulin autoantibodies, which were associated with both DQA1*0301-DQB1*0302 (DQ8) and DRB1*0401. GAD65 autoantibodies, known to be closely associated with DQA1*0501-DQB1*0201 (DQ2)-DRB1*0301 haplotype, also showed no preferential association with DQA1*0301-DQB1*0302 (DQ8) versus DRB1*04. These results suggest that the immune response to different beta-cell autoantigens may be mediated via HLA class II molecules from different loci. Design of the antigen-specific immuno-intervention trials should take into account these HLA-DR and DQ subtype associations.
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PMID:Association between autoantibody markers and subtypes of DR4 and DR4-DQ in Swedish children with insulin-dependent diabetes reveals closer association of tyrosine pyrophosphatase autoimmunity with DR4 than DQ8. 955 Mar 29

Insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease with a predominantly non-hereditary etiology that results in a destruction of pancreatic beta cells by autoaggressive T lymphocytes. Neither the mechanism of initial stimulation of these T cells nor the nature of the environmental factors implicated in the disease have so far been identified. However, both issues are taken into account by the hypothesis of initial T cell activation by viral or bacterial mimicry peptides with sequence similarities to pancreatic self antigens. We determined sequential epitope motifs to search for mimicry peptides stimulating T cell lines specific for two epitopes derived from the IDDM autoantigen 65-kDa glutamic acid decarboxylase (GAD65). These were GAD65 (88-99), presented by HLA-DRB1*0101, and GAD65 (248-257), presented by HLA-DRB5*0101. T cell stimulation by peptides with substitutions in HLA anchor or T cell contact positions was analyzed to establish degenerate epitope motifs for database searching. Out of 28 tested candidate mimicry peptides derived from bacterial, viral and human proteins, 3 stimulated T cell lines and a T cell clone specific for epitope GAD65 (248-257). Our results demonstrate that mono- and polyclonal GAD65-specific T cells from IDDM patients can be stimulated by viral and bacterial peptides with little apparent sequence homology with autoantigenic epitopes. Moreover, in a synopsis with related published studies, our findings suggest that simple degenerate search motifs comprising principal T cell contacts plus HLA class II binding motifs may suffice to identify most mimicry peptides.
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PMID:Identification of mimicry peptides based on sequential motifs of epitopes derived from 65-kDa glutamic acid decarboxylase. 964 72

Autoimmune diabetes is the clinical end point for a sequential cascade of immunologic events that occur in a genetically susceptible individual. Structural and functional analysis of the HLA class II susceptibility genes in IDDM suggests likely molecular mechanisms for several of the key steps in this cascade of autoimmune events. We outline a pathway in which the HLA-DQ genes associated with IDDM bias the immunologic repertoire toward autoimmune specificities, creating an autoimmune-prone individual, followed by amplification and triggering events that promote subsequent immune activation. There are several direct links between genetics and autoimmune disease in this pathway: the developmental maturation of T-cells in a genetically susceptible individual occurs through molecular interactions between the T-cell receptor and the HLA-peptide complex. Selection of T-cells with receptors likely to contribute to autoreactivity may preferentially occur in the context of specific HLA-DQ alleles that are diabetes prone, because of inefficiencies in the peptide-MHC structural interactions of these molecules. Subsequent activation of these T-cells in the context of recognizing islet-associated antigens can trigger a poorly regulated immune response that results in progressive islet destruction. These subsequent diabetes-specific events are also directed by specific HLA genes, most prominently by the binding of specific antigenic peptides by the disease-associated HLA molecules. In this sequential cascade, opportunities for environmental influences and modulation by non-HLA genes are identified that likely act in concert with the predominant genetic susceptibility contributed by the HLA molecules themselves. Clarification of the steps in this pathway extends our understanding of the prevailing role of HLA genes in IDDM pathogenesis and suggests opportunities to intervene at discrete initiating, disease-promoting, or regulatory steps in IDDM development.
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PMID:Molecular basis for HLA-DQ associations with IDDM. 970 14


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