UMLS:C0011849 - FACTA Search

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

Major histocompatibility complex class I chain-related gene A (MICA) encodes polymorphic, stress-inducible antigens recognized by gammadelta T cells within the intestinal epithelium. MICA microsatellite polymorphism has been implicated to be related to different autoimmune diseases. Ninety-eight patients with type 1 diabetes (median age, 35 years; range, 9-89 years and 51 patients with latent autoimmune diabetes (LADA; median age, 48 years; range, 19-79 years) were compared with 113 healthy control patients (median age, 35 years; range, 19-65 years) to study the importance of MICA-microsatellite polymorphism and HLA-DR-DQ as genetic risk factors for diabetes. The different factors were compared univariately and by logistic regression analysis. In the logistic regression model, heterozygosity for MICA5.0/5.1 was a significant risk factor for LADA (odds ratio [OR] = 12; 95% confidence interval [95%CI], 2.5-59) as well as heterozygosity for HLA-DR3-DQ2/DR4-DQ8 (OR = 15; 95%CI, 2.7-84). None of the MICA polymorphisms were related to type 1 diabetes. Heterozygosity for HLA-DR3-DQ2/DR4-DQ8 was a risk factor for type 1 diabetes (OR = 14; 95%CI, 2.9-66) as well as DR4-DQ8/x (OR = 2.8; 95%CI, 1.4-5.9). HLA-DR15-DQ6 was protective for type 1 diabetes (OR = 0.12; 95%CI, 0.015-0.96). We concluded that both heterozygosity for MICA5.0/5.1 and HLA-DR3-DQ2/DR4-DQ8 are separate risk factors for LADA, but that heterozygosity for HLA-DR3-DQ2/DR4-DQ8 and DR4-DQ8 alone are most important for type 1 diabetes.
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PMID:Heterozygosity for MICA5.0/MICA5.1 and HLA-DR3-DQ2/DR4-DQ8 are independent genetic risk factors for latent autoimmune diabetes in adults. 1294 47

Type 1 diabetes is a multifactorial disease caused by an interplay of poorly known environmental factors and partially characterized genetic factors. Focal infiltration of the endocrine pancreas by mononuclear cells and a strikingly decreased functional beta cell mass constitute the histopathological hallmarks of the disease at diagnosis, but there is a marked interindividual variability in terms of the extent of the lesions. The disease process is triggered long before clinical onset as testified by the appearance of circulating islet cell autoantibodies years before the development of hyperglycemia. After diagnosis the current insulin substitution therapy is unable to completely avoid the occurrence of the chronic complications of hyperglycemia. The design of effective prevention of hyperglycemia in subjects at risk or of a lasting cure in patients intends to eradicate the development of the invalidating chronic complications. Such clinical studies are complicated by the existence of large interindividual differences in the progression of beta cell destruction, both before and after diagnosis. Therefore it is important to first biologically characterize larger representative groups of patients and subjects at increased risk (e.g. first degree relatives), and to follow them up clinically in order to establish objective criteria for the selection of study subjects with a more homogeneous risk of beta cell destruction for participation in clinical prevention studies. In Belgium a national collaborative program--the Belgian Diabetes Registry--has allowed to collect epidemiological, clinical and biological data in more than 3,500 patients and more than 6,000 relatives. The detection of islet cell-specific autoantibodies--if possible complemented with genetic and hormonal markers--facilitates the identification of subjects at high risk of rapid beta cell destruction. For example, in first degree relatives the combined presence of IA-2 antibodies and the HLA-DQ2/DQ8 genotype defines a small group of subjects (< 1%) with 75% risk of diabetes within 5 years. They qualify for participation in intervention studies aiming at beta cell mass preservation. These findings have helped to prepare several prevention studies in Belgium.
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PMID:[Preventative biology of type 1 diabetes: implications for clinical preventative studies]. 1453 38

The presence of islet cell autoantibodies (ICA), and especially of glutamic acid decarboxylase autoantibodies (GAD65Ab), in patients with non-insulin-dependent diabetes mellitus identifies the so-called latent autoimmune diabetes in the adult (LADA). LADA patients have an increased risk for developing insulin deficiency, and in 60-80% of cases the exogenous insulin therapy must be started within 5-6 years. GAD65Ab identify a subgroup of type 2 diabetic (T2DM) patients with low body mass index (BMI) at the time of diagnosis. The presence of GAD65Ab at high titres and directed against COOH-terminal epitopes of the autoantigen, or the presence of both GAD65Ab and ICA, discriminates patients with clinical characteristics very similar to those of a slowly progressive form of type 1 diabetes (T1DM). On the other hand, the presence of low levels GAD65Ab, in the absence of ICA or other immune markers, such as IA-2 antibodies, characterizes a subgroup of patients with clinical characteristics almost indistinguishable from those of typical T2DM patients. The autoimmune origin of LADA is also demonstrated by the increased frequency of thyroid and adrenal autoantibodies, as compared to GAD65Ab-negative T2DM patients, and by the strong genetic association with HLA-DR3-DQ2, -DR4-DQ8 and the polymorphisms of the MHC class I chain-related A (MICA) and CTLA-4 genes. Metabolic studies have shown the coexistence of insulin resistance and insulin secretion defect supporting the hypothesis that LADA may be the result of the interaction of a genetic background predisposing for islet autoimmunity and a genetic background predisposing for T2DM.
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PMID:[Immunologic and genetic aspects of latent autoimmune diabetes in the adult]. 1475

Intolerance of gluten, resposible for Coeliac disease, is essentially shown by an auto-immune enteropathy, even if the cutaneous manifestation (herpetiform dermatitis) and perhaps certain neurological signs (cerebral syndrome, peripheral neuropathy) may be independent as well as associated with the intestinal illness. This affection is of immunological nature, occuring in a genetic field that predisposes to the illness (familial form: concordance of 70% in homozygote twins; 90% of patients show an HLA molecule of type DQ2, DQ8 in almost all the other cases. The exogenous factor is the gluten content contained in wheat, rye and barley, more precisely by the intermediary "the prolamines" which are the "reactive" element that induces a the same time an inflammatory reaction of type TH11 locally (expressed by the histological aspect of a duodenal biopsy evolving as villous atrophy) and a humoral response with production of anti-gliadine and anti-transglutaminase antibodies (the role of the latter enzyme is intervention in the local transformation of antigens to make them antigenic). It is an illness of adults as well as children and this point must now be emphasized. Recent epidemiological studies insist on a high prevalence (1/300 in Europe). Clinical expression, at the start very polymorphic and so misleading, before the appearance of the more classical signs of malabsorption and development, always feared, towards a lymphoma. These signs are haematological (anemia of various types, hyper platelets by hyposplenism, haemorrhagic signs) cutaneous (herpetiform dermatitis, cutaneous vasculitis) mucosal (aphtose), hepatic (cytolysis), neurophysical (fatigue, troubles of behaviour, cerebral syndrome, neuropathy) and osteo-articulitis (osteopenia, arthralgias, diffuse pains). The association of certain auto-immune illnesses must be emphasized (diabetes, Hashimoto thyroiditis, Gougerot disease, primitive biliary cirrhosis). To think early of the possibility of intolerance to gluten, is to give the means of a very easy diagnosis (measurement of anti-gliadin, anti-endomysium and anti-transglutaminase, and secondarily duodenal biopsy if necessary), and it is early elimination of gluten food which will make the various clinical manifestations disappear and so prevent the risk of evolution to a tumoral pathology.
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PMID:[A great imitator for the allergologist: intolerance to gluten]. 1513 80

Type 1 diabetes mellitus is a polygenic disease strongly associated with the class II molecules DR3, 4 and the linked DQ2, 8 alleles. These molecules play an important role in presentation of peptide antigens after intracellular processing to CD4 T lymphocytes. A number of in vitro approaches have been used to elucidate the molecular basis for the association of particular HLA alleles with susceptibility to or protection from Type 1 diabetes mellitus. These have focused on the structure of the antigen-presenting molecules, together with their peptides. Binding studies, peptide elution, molecular modelling and crystallisation of the peptide MHC complex have between them made it possible to define the peptide-binding regions and to examine the stability of binding of peptides from putative autoantigens. It is difficult to study the role of these molecules in vivo in humans, and HLA transgenic mice have been generated to overcome this problem. Studies of mice expressing the HLA class II alleles associated with diabetes have shown that the presence of HLA molecules alone does not cause disease except in the presence of an islet "insult", even when this "insult" would in itself be insufficient to precipitate disease in the absence of the HLA class II transgene. HLA transgenic mice offer a way to elucidate the in vivo role of these molecules, and could help the development of targeted immunotherapy.
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PMID:What can the HLA transgenic mouse tell us about autoimmune diabetes? 1534 28

Latent autoimmune diabetes mellitus in adults (LADA) is characterized by clinical presentation as type 2 diabetes mellitus after 25 years of age, initial control achieved with oral hypoglycemic agents for at least 6 months, presence of autoantibodies and some immunogenetic features of type 1 diabetes mellitus. An 8.3 year-old girl was referred to our pediatric endocrinology department because of incidental glucosuria. She did not complain of polyuria, polydipsia, or weight loss. Her body mass index (BMI) was at the 80th percentile. Fasting glucose was 126 mg/dl, and OGTT glucose level at 120 min was 307 mg/dl. Although C-peptide levels were normal, her first phase insulin response (FIR) was lower than the 1st percentile. Anti-insulin antibody (AIA), islet cell antibody (ICA), and anti-glutamic acid decarboxylase (antiGAD) were negative. According to the clinical and laboratory findings, she was diagnosed as having type 2 diabetes mellitus. She was started with oral anti-diabetic treatment for a period of 1 year. Insulin had to be initiated for worsening of HbA1c levels. In the fourth year of follow-up, she was admitted to our hospital with diabetic ketoacidosis although she was on an intensive insulin regimen. At this time, C-peptide levels were low, antiGAD and AIA were positive with HLA DR3/DQ2 haplotype. In addition, her thyroid peroxidase antibody and endomysium antibody were found to be high at follow-up. Small intestinal biopsy revealed celiac disease. This patient may represent the first case of latent autoimmune diabetes mellitus in children (LADC) with autoimmune thyroiditis and celiac disease.
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PMID:Latent autoimmune diabetes mellitus in children (LADC) with autoimmune thyroiditis and Celiac disease. 1557 Sep 95

The genetic susceptibility for gestational diabetes (GDM) was estimated by comparisons of genotypes within human leukocyte antigen (HLA) and major histocompatibility complex class I chain-related gene A (MICA) in 199 women with GDM and 213 healthy women. At least one of ICA, glutamic acid decarboxylase antibodies, or islet cell antigen-2 antibodies/tyrosine phosphatase antibodies was found in 6.0% (12/199) of women with GDM and were considered as autoimmune GDM, whereas the remaining 187 were considered as nonautoimmune GDM. HLA genotyping was done with polymerase chain reaction and sequence-specific oligonucleotides. MICA polymorphism was determined with polymerase chain reaction and fragment size determination. HLA-DR3-DQ2/x or DR4-DQ8/x and MICA5.0/5.1 were more frequent in autoimmune GDM compared with controls; 92% versus 46% and 42% versus 13% and conferred increased risk (odds ratio [OR] = 13; 95% confidence interval [CI] 1.7-104) and (OR = 4.7; 95%CI 1.4-16). Four other genotypes were more frequent in nonautoimmune GDM compared with controls: HLA-DR7-DQ2/y, 24% versus 14%; DR9-DQ9/y, 9.6% versus 1.9%; DR14-DQ5/y, 7.5% versus 0.94%; and MICA5.0/z, 24% versus 13% and gave increased risk: OR = 2.0; 95%CI 1.2-3.4, OR = 5.6; 95%CI 1.8-17, OR = 8.5; 95%CI 1.9-38, and OR = 2.0; 95%CI 1.2-3.4, respectively. We concluded that autoimmune diabetes with onset during pregnancy is associated with the type 1 diabetes-associated genotypes and also with MICA5.0/5.1, whereas DR7-DQ2/y, DR9-DQ9/y, DR14-DQ5/y, and MICA5.0/z are risk factors for nonautoimmune GDM.
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PMID:Different HLA-DR-DQ and MHC class I chain-related gene A (MICA) genotypes in autoimmune and nonautoimmune gestational diabetes in a Swedish population. 1560 71

Subtypes of HLA-DR4 are associated with susceptibility or protection against type 1 diabetes (T1DM). We addressed whether this reflects linkage disequilibrium with the true susceptibility locus by studying broader MHC haplotypes marked by alleles of HLA-B, IKBL (adjacent to TNFA) and complement C4. The study used a largely Caucasian cohort from Western Australia. HLA-DRB1*0401 and HLA-DRB1*0405 marked susceptibility to T1DM. In Caucasians, DRB1*0401 occurs predominantly in the 44.1 ancestral haplotype (AH; HLA-A2,B44, DRB1*0401,DQB1*0301) and the 62.1AH (HLA-A2,B15(62),DRB1*0401,DQB1*0302). HLA-B15 marked susceptibility and HLA-B44 marked with resistance to T1DM in patients and controls preselected for HLA-DRB1*0401. A gene between TNFA and HLA-B on the 8.1AH (HLA-A1,B8,;DR3,DQ2) modifies the effects of the class II alleles. Here, alleles characteristic of the 62.1AH (C4B3, IKBL+446*T and HLA-A2,B15) were screened in donors preselected for HLA-DRB1*0401. C4B3 was associated with diabetes, consistent with a diabetes gene telomeric of MHC class II. However, increases in carriage of IKBL+446*T and HLA-A2,B15 were marginal, as too few control subjects were available with the diabetogenic alleles. However, with these tools, selection of HLA-DRB1*0401, DQB1*0302 donors who are positive and negative for C4B3 will allow bidirectional mapping of diabetes genes in the central MHC.
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PMID:Does a central MHC gene in linkage disequilibrium with HLA-DRB1*0401 affect susceptibility to type 1 diabetes? 1585 1

To evaluate potential differential diabetes risk of DR3 haplotypes we have evaluated class I alleles as well as two microsatellites previously associated with differential risk associated with DR3 haplotypes. We found that over one-third of patient DR3 chromosomes consisted of an extended DR3 haplotype, from DQ2 to D6S2223 (DQ2, DR3, D6S273-143, MIC-A5.1, HLA-B8, HLA-Cw7, HLA-A1, and D6S2223-177) with an identical extended haplotype in controls. The extended haplotype was present more frequently (35.1% of autoimmune-associated DR3 haplotypes, 39.4% of control DR3 haplotypes) than other haplotypes (no other haplotype >5% of DR3 haplotypes) and remarkably conserved, but it was not transmitted from parents to affected children more frequently than nonconserved DR3-bearing haplotypes. This suggests that if all alleles are truly identical for the major A1, B8, DR3 haplotype (between A1 and DR3), with different alleles on nonconserved haplotypes without differential diabetes risk, then in this region of the genome DR3-DQ2 may be the primary polymorphisms of common haplotypes contributing to diabetes risk.
Diabetes 2005 Jun
PMID:"Extended" A1, B8, DR3 haplotype shows remarkable linkage disequilibrium but is similar to nonextended haplotypes in terms of diabetes risk. 1591 12

We hypothesized that homozygosity for the major histocompatibility complex (MHC) class I chain-related gene A (MIC-A)5.1 allele with premature stop codon would increase diabetes risk of individuals followed from infancy in the DAISY study (Diabetes Autoimmunity Study in the young). Forty five percent (10/22) of relatives (siblings and offspring cohort, SOC) who developed anti-islet autoantibodies were MIC-A5.1/5.1 homozygous. Of SOC individuals without autoantibodies, 12/58 (19%, p = 0.02) were MIC-A5.1 homozygous. By life table analysis of expression of autoantibodies, DR3-DQ2/ DR4-DQ8 more than 50% of MIC-A5.1 homozygous children became autoantibody positive by 7 years of age, compared to delayed development of autoantibodies for non-MIC-A5.1/5.1 DR3-DQ2/ DR4-DQ8 children (p = 0.005). For DR3-DQ2/DR4-DQ8 nonrelatives, the risk of activating anti-islet autoimmunity remained low even with MIC-A5.1 homozygosity suggesting that there are additional factors contributing to the marked risk of relatives compared to the general population with the DR3-DQ2/DR4-DQ8 genotype.
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PMID:Homozygosity for premature stop codon of the MHC class I chain-related gene A (MIC-A) is associated with early activation of islet autoimmunity of DR3/4-DQ2/8 high risk DAISY relatives. 1613 85

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