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)

Insulin antibodies (IAA) can be detected in the serum of the majority of newly diagnosed IDDM patients prior to insulin therapy. In first degree relatives of IDDM patients, IAA are associated with an increased risk of development of IDDM. However, the disease specificity of IAA, detected by radiobinding assays, has not been addressed. We thus tested sera from patients with autoimmune disease for IAA. One of 29 (3%) patients with Graves' disease and five of 27 (19%) patients with SLE had IAA levels exceeding the range for normal controls. IAA were not detected in sera from 29 patients with Addison's disease, 15 patients with pernicious anaemia or 10 patients with increased gamma globulins. Non-specific binding of 125I-labelled insulin was increased in serum from 14 (21%) samples from patients with Graves' disease, 10 (37%) patients with SLE, one (3.2%) of 29 patients with Addison's disease and two (13%) of 15 patients with pernicious anaemia. The increased non-specific binding most likely relates to immunoglobulin binding as it was also found in eight of 10 patients with oligoclonal or polyclonal increase in gamma globulins. Our findings suggest that moderate elevations of IAA are not uncommon in patients with SLE, in whom increased non-specific binding of insulin is also common. This observation is of importance in preclinical diabetes screening studies.
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PMID:Insulin autoantibodies in patients with autoimmune diseases. 147 50

Antibodies reacting with proinsulin but not with insulin determinants have been observed recently in Type I diabetes. We describe here that ELISA-determined proinsulin autoantibodies (IgG-PAA) also occur in first-degree relatives of IDDM patients (38/513, 7.4% vs 1.9% in controls, P less than 0.025). In contrast to insulin autoantibodies (IgG-IAA) and islet cell antibodies (ICA) no association with HLA type was found. Furthermore, IgG-PAA occur independently of IgG-IAA and ICA. We conclude that the humoral autoimmune response to proinsulin determinants is under separate genetic control.
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PMID:Proinsulin autoantibodies: association with type I diabetes but not with islet cell antibodies, insulin autoantibodies or HLA-DR type. 225 25

The presence of cytoplasmatic islet cell antibodies (ICA) and IgG insulin autoantibodies (IgG-IAA) has been observed in the prediabetic state of type 1 (insulin-dependent) diabetes (IDDM). We therefore analyzed the prevalence of these markers in sera from 1117 healthy HLA-typed first-degree relatives (1 degree Rel) of IDDM patients. ICA was determined by indirect immunofluorescence on cryostat sections of human pancreas. For IgG-IAA measurement a competitive solid-phase ELISA was used. ICA were present in 3.5% of 1 degree Rel vs 0.4% of controls (P less than 0.025). The highest frequencies of ICA were found in individuals of IDDM multiplex families (7.7%) and HLA-DR1,3 (5.4%), -DR1,4 (5.8%), and -DR3,4 (6.7%) positive subjects. We therefore conclude that the prevalence of ICA is increased in 1 degree Rel with high genetic risk for diabetes. IgG-IAA occurred in 9.9% of 1 degree Rel vs 1.4% of controls (P less than 0.01). Like ICA, IgG-IAA were significantly increased in a group of subjects being positive for either HLA-DR1,3 -DR1,4, or -DR3,4 (16.5%, P less than 0.01). In multiplex families, however, prevalence of IgG-IAA was not increased. In contrast to ICA there was an additional influence of age and sex: IgG-IAA were found more often in siblings (mean age, 16.6 years; prevalence, 15.0%) than in parents (mean age, 44.1 years; prevalence, 8.3%) of IDDM patients (P less than 0.01). In brothers the prevalence of IgG-IAA is higher than in other 1 degree Rel. Only a weak association between ICA and IgG-IAA was observed in subjects (n = 810) tested for both antibodies.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prevalence of cytoplasmatic islet cell antibodies and insulin autoantibodies is increased in subjects with genetically defined high risk for insulin-dependent diabetes mellitus. 264 70

The specific genes causing type 1 diabetes susceptibility in any species are unknown. Serological HLA studies have shown susceptibility to type 1 diabetes is linked to HLA DR3 and DR4 allels, whereas DR2 and DR5 alleles contain protective elements. DR4 chromosomes can be divided into diabetes prone or resistant by restriction fragment length polymorphism analyses with cDNA probes for DQ beta-gene. No type 1 diabetes-specific environmental factors have been revealed to be convincingly implicated in human type 1 diabetes. Congenital rubella, by its lasting influence on T cells creates susceptibility to many organ-specific autoimmune diseases. Certain dietary proteins shown in BB rats as well as hyperglycemia during the prenatal period increase the later incidence of type 1 diabetes. Human type 1 diabetes results from a progressive probably autoimmune loss of the pancreatic beta cells. The immunologic hallmarks of type 1 diabetes is the lymphocytic infiltration of pancreatic islets, the hyperexpression of class I MHC on all islet cells and the abarrent class II MHC expression on beta cells within inflamed islets, the increased frequency of activated T cells in islet and circulation. It is generally accepted that cellular immunity plays the major role in the pathogenesis of type 1 diabetes. The heightened autoimmune reactivity being detectable during the preclinical period, lasting months to years, has been proved by antibodies directed against cytoplasmic islet cell antigens (ICA), beta cell surface antigens (ICSA), insulin (IAA), and with a lower frequency against non-islet cell antigens. The presence of IgG insulin autoantibodies and complement fixing ICA confers increased risk for future type 1 diabetes development in genetically predisposed individuals than the presence of either marker alone. For ICSA a more specific and quantitative assay is needed. 90% of children developing type 1 diabetes were detected positive for ICA and/or IAA. By the time of clinical onset if type 1 diabetes some 90% of the insulin secretory beta cell mass has already been destroyed. For this reason, new approaches are needed to address the causes of diabetes and not just the consequences. The development of insulin-dependent diabetes may be reversible, or even preventable by early detection coupled with the judicious use of immunotherapy.
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PMID:Immunological disorders of type 1 diabetes mellitus. 268 94

We have improved an ELISA technique for the detection of IgG and IgM class IAA demonstrating the sensitivity and the specificity of antigen-antibody reaction. In sera of 135 first degree relatives of IDDM patients and of 128 autoimmune patients "at risk" for IDDM either positive or negative for islet cell antibodies (ICA), the prevalence of IAA IgG/IgM in all groups studied was significantly (p less than 0.001) higher than in controls, but the highest frequency of IAA was observed in the ICA-positive subjects. A similar association was also observed in complement-fixing ICA (CF-ICA) positive subjects. Future prospective studies will be necessary to establish the role of IAA as marker of B-cell damage.
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PMID:Detection of insulin autoantibodies using an ELISA technique in first-degree relatives of IDDM patients and in autoimmune patients. 344 12

In 105 children and adolescents with IDDM, insulin antibodies were detected as a percentage of radiolabelled insulin both at onset of disease and during the first 8 years of treatment. At diagnosis, 29 patients (27%) were insulin autoantibody positive (IAA+). An inverse relationship was found between IAA levels and age at diagnosis. No significant correlation was seen between IAA positivity and HLA antigens, while there was a negative correlation between IAA and C-peptide levels in the second year of the disease. The percentage of insulin antibody (IA) positive patients increased after insulin administration, with a maximum peak between the first and second year of the disease. The IA response to insulin therapy was similar in IAA+ and IAA- patients, while it was greater in younger children. No relationship was found between IA levels and haemoglobin A1c values, daily insulin requirement, HLA and early complications. No difference in either percentage of positivity or IA levels was seen in patients treated continually for the first 5 years of the disease with monocomponent porcine insulin or human insulin. A negative correlation was found between IA and C-peptide levels in the first and second years of the disease. In conclusion, we have shown that, even after many years of disease, neither IAA nor IA, induced in equal measures by current human insulin preparations, have significant effects on the clinical course of the disease.
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PMID:An 8-year follow-up of anti-insulin antibodies in diabetic children: relation to insulin autoantibodies, HLA type, beta-cell function, clinical course and type of insulin therapy. 767 Feb 46

The frequency of antibodies to glutamic acid decarboxylase (GAD) and insulin (IAA) in presymptomatic Type 1 diabetes mellitus with a positive test for antibodies to islet cell antigen (ICA) was examined. Thirty-two persons positive for ICA (> 10 JDF units) were tested 2 to 48 months before their ascertained onset of Type 1 diabetes. ICA was quantitated by immunofluorescence as JDF units, anti-GAD by radioimmunoprecipitation and anti-insulin by radioimmunoassay. There was a positive test for anti-GAD in 25 (78%), and for IAA in 23 (72%), of the 32 prediabetic ICA-positive subjects. Stratification according to age at the onset of diabetes showed differing frequencies of anti-GAD and IAA in the prediabetic stage. Thus the positivity rate for anti-GAD for 18 subjects older than 10 years at onset of diabetes was 83%, and for 14 aged 10 or younger at onset was 71%; conversely, the rate for IAA for 18 subjects older than 10 at onset was 56% and for 14 aged 10 or less at time of onset was 93% (p = 0.01). The frequency of anti-GAD was higher in females (88%) than males (71%) whereas the frequency of IAA was higher in males (82%) than in females (60%). Since autoantibodies to GAD and insulin occur in presymptomatic Type 1 diabetes with differences in frequencies by age and gender, the stimuli to autoimmunity may operate differently at different ages, and may also be gender-related.
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PMID:Autoantibodies to glutamic acid decarboxylase and insulin in islet cell antibody positive presymptomatic type 1 diabetes mellitus: frequency and segregation by age and gender. 770 24

The clinical onset of insulin-dependent diabetes is associated with several autoimmune phenomena including islet cell antibodies, glutamic acid decarboxylase (the GAD65 isoform) autoantibodies (GAD65Ab) as well as insulin autoantibodies. The molecular cloning of these autoantigens has permitted the development of precise and reproducible antibody immunoassays to identify marker-positive patients and control subjects. Among patients with new-onset diabetes about 70% were GAD65Ab positive compared to 1.5% among control subjects while 46% of patients had IAA compared to 1% among control subjects. The autoreactive sites or epitopes of GAD65 and insulin remain to be determined. The disease association with HLA on chromosome 6 may help to define the epitope specificity of the autoimmune reaction. Recent data suggest that 95% of new-onset IDDM children (0-15 years of age) are positive for either DQ2, DQ8 or both compared to about 50% of healthy control subjects. HLA-DQ6 is negatively associated with the disease. Both HLA-DQ2 and DQ8 therefore seem to be necessary, but not sufficient for diabetes. Molecular modelling suggests comparable physicochemical properties of DQ2 and DQ8 but are widely different from DQ6. In 1984, the conclusion was that molecular cloning of the genes for the autoantigens, antibodies, T-cell receptors, as well as HLA class I and II molecules associated with diabetes are essential for analysing the components which control the development of pancreatic beta-cell autoimmunity. In 1994, autoantigens and HLA molecules have been cloned and recombinant reagents developed to be used in experiments aimed at testing whether it will be possible to predict IDDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of IDDM. 782 43

Several polymorphisms of the insulin gene and its flanking regions (INS region) are in linkage disequilibrium and confer susceptibility to insulin-dependent diabetes (IDDM). We have analysed INS AA and AB-BB genotypes at the 1,428 FokI site (3' of the insulin gene) in 217 patients with IDDM, 402 non-diabetic first degree relatives negative for insulin (IAA) and islet cell autoantibodies (ICA), and 116 autoantibody positive (for ICA or IAA, or both) relatives of whom 39 became diabetic on follow-up. Most IDDM patients (83.4%, 181/217) had the AA genotype vs. 50% (25/50) of the controls (P < 10(-6)). Only 16.6% (36/217) of IDDM patients carried the AB genotype and none was BB homozygous, suggesting a protective effect of the B allele. By segregation analysis of the B allele in the IDDM offspring of informative families (only one AB parent) from the United States, the maternal B allele was inherited by 19/35 (54.2%) of the IDDM offspring. In contrast, only 4/26 (15.3%) of the IDDM offspring inherited the paternal B allele (P = 0.001), suggesting maternal imprinting of the INS region. Therefore, the INS B allele may be protective only when paternally inherited. Among the 39 of 116 autoantibody positive relatives who developed IDDM on follow-up, only five of them had the B allele. The frequency of the B allele in this group was much lower (12.8%, 5/39) than that observed in non-diabetic autoantibody positive relatives (32.5%, 25/77, P = 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The paternally inherited insulin gene B allele (1,428 FokI site) confers protection from insulin-dependent diabetes in families. 784 Aug 60

Prediction of insulin-dependent diabetes mellitus (IDDM) is still largely based on islet cell antibodies (ICAs), but it may be improved by combined analysis with other humoral markers. We examined autoantibodies to insulin (IAAs), glutamic acid decarboxylase (GAD), and M(r) 37,000 and M(r) 40,000 fragments of islet antigens (37 and 40 kDa) together with ICA subtypes in 101 family members with ICAs > or = 10 Juvenile Diabetes Foundation units (JDF U) followed for up to 14 years, of whom 18 have developed IDDM. Life-table analysis showed a 43% risk of IDDM within 10 years for those with ICAs > or = 10 JDF U, rising to 53% for those with ICAs > or = 20 JDF U. The risk for ICAs > or = 10 JDF U was 62% in the family members in the youngest age quartile (< 13.2 years) and fell with increasing age to 4% in those > 40.7 years of age (P = 0.03). ICAs > or = 10 JDF U combined with IAAs gave a risk of 84% (P = 0.03 compared with IAA-), and ICAs > or = 10 JDF U combined with GAD antibodies gave a risk of 61% (P = 0.018). The risk for ICAs > or = 10 JDF U with antibodies to 37-kDa antigen was 76% (P < 0.0001). Risk increased with the number of autoantibodies, from 8% for ICAs alone to 88% with > or = 3 autoantibodies (14 cases detected) (P < 0.0001). The increased risk associated with multiple antibodies was observed independent of age.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Combined analysis of autoantibodies improves prediction of IDDM in islet cell antibody-positive relatives. 792 4


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