UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic susceptibility is an important issue in understanding the mechanism of the autoimmune endocrinopathies and in assessing the risk of these conditions in pediatric patients. To this end, we evaluated autoantibodies to thyroid antigens, thyroglobulin (TgA) and microsomal antigen (TMA), in white and in American black juvenile patients with Type I diabetes mellitus (DM) to determine the predictive value of thyroid autoantibodies for the development of autoimmune thyroid disease. Sera from 159 patients (77 black and 82 white) with Type I DM were evaluated. A greater number of whites (41/82 or 50%) than blacks (12/72 or 16%) had thyroid autoantibodies (p less than 0.01). Fourteen patients (4 black and 10 white) exhibited hypothyroidism, and all had both TgA and TMA. Three patients (all black) had Graves' disease, one of whom had both TgA and TMA. Families of each racial group that had a diabetic child (proband) with thyroid autoantibodies (seropositive) or without thyroid autoantibodies (seronegative) were assessed for TgA and TMA as well as autoimmune thyroid disease. The prevalence of thyroid autoantibodies among siblings of seropositive probands was significantly greater than among the siblings of seronegative probands (p less than 0.01). The white sibling population showed a closer association of thyroid autoantibody prevalence with increasing age (p less than 0.05) than the blacks. Significantly more parents of probands than control parents exhibited thyroid autoantibodies (p less than 0.01). The general pattern of inheritance of either racial group showed that if one or both parents had thyroid autoantibodies, their progeny developed a significantly higher prevalence of thyroid autoantibodies than those of the seronegative parents. While there was no increase in overt thyroid disease among siblings of seropositive probands, a risk of developing autoimmune thyroid disease is probably imparted to these siblings by virtue of the thyroid autoantibodies.
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PMID:Thyroid autoantibodies in black and in white children and adolescents with type 1 diabetes mellitus and their first degree relatives. 198 29

The prevalence rate for autoimmune thyroid disease (ATD) is about 30 times higher in the type I diabetic (IDDM) families that were ascertained for Genetic Analysis Workshop 5 (GAW5) than in the general population. Two approaches were used to study the clustering of ATD and IDDM in these families: 1) HLA haplotype sharing in sib pairs in which one has IDDM and the other has ATD was analyzed with the genetic interrelationship method. The hypotheses of different alleles (at the same locus or at different loci) were rejected. Thus there must exist at least one common allele that predisposes to both IDDM and ATD. 2) The DR genotype frequencies suggest that in the GAW5 families two alleles may be predisposing to ATD; a recessive DR3-associated allele and a dominant DR4-associated allele.
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PMID:Autoimmune thyroid disease in type I diabetic families. 249

The polyglandular autoimmune syndrome type II, (Schmidts syndrome), is defined as coexistence of two of the diseases: Addison's disease, insulin dependent diabetes mellitus and autoimmune thyroid disease. The first endocrine deficiency state typically develops after the age of twenty and in most cases it is Addison's disease. The prevalence is approximately 5 per 100,000. The syndrome occurs within families in half of the cases. The immunological mechanism is not finally determined, but both the humoral and cellular systems seem to be involved and furthermore there is an association with the major histocompatibility complex. Whereas treatment of the components in polyglandular autoimmune syndrome is straightforward, diagnosis may be troublesome: Patients with Addison's disease may be biochemically hypothyroid the first months of corticosteroid treatment. Patients with myxedema show decreased urine excretion of 17-ketosteroids until thyroid substitution treatment is sufficient. A decreased insulin requirement or increased frequency of hypoglycaemic attacks may be the first sign of an adrenocortical hypofunction in diabetic patients. Patients with one autoimmune disease and their relatives are predisposed to (other) autoimmune diseases.
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PMID:[Polyglandular autoimmune syndrome type II]. 260 41

The immunoglobulin fractions of serum from patients with spontaneous hyperinsulinaemic hypoglycaemia and others with type 1 diabetes stimulated insulin release both in islet-cell cultures and in vivo in rats. Serum from patients with type 2 diabetes, which is not an autoimmune disease, did not stimulate insulin release. The discovery of islet-cell-stimulating antibodies (ICSTA) completes for the islet the triad of autoantibodies (anticytoplasmic, antiproduct, and antireceptor) previously described in autoimmune thyroid disease. ICSTA may be important modulators of islet-cell secretion in man.
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PMID:Graves' disease of the beta cell: glucose dysregulation due to islet-cell stimulating antibodies. 290 75

Insulin-dependent diabetes mellitus is frequently associated with organ-specific autoimmune diseases and/or high titers of organ-specific autoantibodies. The effects of thyroid autoantibodies on islet-cell function were examined in the present study. Islet cell surface antibody (ICSAb) was detected in sera from 6 of 40 patients with autoimmune thyroid disease (AITD) who were positive for thyroid microsomal autoantibodies (TMA). Furthermore, all of the ICSAb-positive patients had high TMA titers. In vitro study using isolated rat pancreatic islets revealed that TMA positive sera significantly suppressed glucose-induced insulin release. Only one of 19 (5%) AITD patients showed complement-dependent antibody-mediated cytotoxicity and only one of 6 AITD patients (17%) was positive for antibody-dependent cellular cytotoxicity. These results suggest that TMA has an effect on an antigen of the islet cell membrane in which insulin releasing mechanism might be involved.
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PMID:Effect of antithyroid autoantibodies on pancreatic islet-cell function. 330 84

To investigate the possible coinheritance of autoimmune diseases that are associated with the same HLA antigen, we studied 70 families in which at least two siblings had either type I diabetes mellitus (IDDM), autoimmune thyroid disease (ATD), rheumatoid arthritis (RA), or a combination of these diseases. HLA-A, B, and C typing was performed on all affected sibs in one generation or more. First, we estimated by sib-pair analysis the disease allele frequency (pD) and the mode of inheritance for each disease. According to the method of ascertainment entered into the analysis, the pD for ATD ranged from .120 to .180, for an additive (dominant) mode of inheritance. For RA, the pD ranged from .254 to .341, also for additive inheritance, although recessive inheritance could not be excluded. For IDDM, the pD ranged from .336 to .337 for recessive inheritance; additive inheritance was rejected. Second, we examined the distribution of shared parental haplotypes in pairs of siblings that were discordant for their autoimmune diseases. The results suggested that the same haplotype may predispose to both IDDM and ATD, or IDDM and RA, but not to both RA and ATD. Analysis of pedigrees supported this hypothesis. In 16 families typed for HLA-DR also, the haplotype predisposing to both IDDM and ATD was assigned from pedigree information to DR3 (44%), DR4 (39%), or DR5, DR6, or DR7 (5.5% each). In some families, these haplotypes segregated over several generations with ATD only (either clinical or subclinical), suggesting that in such families, ATD was a marker for a susceptibility to IDDM. In several families, an IDDM haplotype segregated with RA but not with ATD. This suggests that ATD- and RA-associated susceptibilities to IDDM may be biologically different and thus independently increase the risk of IDDM.
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PMID:Genetic interrelationship between insulin-dependent diabetes mellitus, the autoimmune thyroid diseases, and rheumatoid arthritis. 345 97

We have developed a method to study the genetic relationship between any two HLA-associated diseases. We have considered the following hypotheses: (1) both diseases are caused by a common allele; (2) different alleles at the same locus predispose to the two diseases; (3) one disease is predisposed by two alleles, one of which can also lead to the second disease; and (4) different HLA-linked loci are involved in the etiology of each disease. For each hypothesis, we have derived the expected HLA haplotype-sharing distribution in sib pairs who are affected with two diseases. The comparison of the expectations indicate that, in many cases, the alternate hypotheses can be distinguished, if the sample size is appropriately large. The knowledge of the mode of inheritance of each disease is not usually necessary; however, it can greatly increase the power of the test. Analyses of data on pairwise combinations of rheumatoid arthritis (RA), autoimmune thyroid disease (ATD), and insulin-dependent (type I) diabetes mellitus (IDDM) suggest that (a) IDDM is predisposed by two HLA-linked alleles, one of which also predisposes to ATD, (b) one of the IDDM alleles also confers susceptibility to RA, and (c) although the HLA-linked susceptibilities to RA and ATD appear to be primarily due to distinct alleles, the ATD allele may also have a minor role in predisposition to RA.
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PMID:Analysis of genetic interrelationship among HLA-associated diseases. 363 Oct 74

Evidence is presented for the first time of a significantly increased prevalence of type 1 (insulin-dependent) diabetes in the close relatives of patients with rheumatoid arthritis. Thirty-nine (13%) of 295 patients with classical or definite rheumatoid arthritis had a first or second degree relative with type 1 diabetes and 38 (13%) had a close relative with autoimmune thyroid disease. These findings could be compatible with a possible common genetically determined mechanism of susceptibility to both diseases.
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PMID:Evidence for an association between rheumatoid arthritis and autoimmune endocrine disease. 685 61

We have postulated that a defect in specific antigenic induction of suppressor T lymphocytes may account for the immunoregulatory disorder in autoimmune thyroid disease. In this context, we have measured the proliferative responses of peripheral blood mononuclear cells (PBMC) to the synthetic peptides corresponding to the extracellular domain of the TSH receptor (TSHR) and recombinant glutamate decarboxylase (GAD65) by means of 3H thymidine incorporation. We have also studied the antigenic activation of CD4+ and CD8+ T lymphocytes by measuring human leukocyte antigen-DR (HLA-DR) expression on the cell surface by flow cytometric analysis. PBMC obtained from 47 patients with Graves' disease (GD) [including 19 hyperthyroid GD (hyper GD)], 18 with Hashimoto's thyroiditis (HT), 7 with nontoxic nodular goiter (NG), 18 with insulin-dependent diabetes (IDDM), and 20 normal controls (N), were cultured for 7 days in the presence or absence of the pool peptides representing 3 different segments of TSHR or GAD65 at final concentration of 30 micrograms/mL or 10 micrograms/mL. The proportion of subjects whose PBMC gave a positive proliferative response with a stimulation index (SI) of over 2.3 (i.e. above the mean +2 SD for N) to TSHR peptides was significantly higher in the hyper GD group than among euthyroid GD (eu GD), HT, IDDM, and N group. The corresponding differences in mean SI provided analogous results, showing significant responses above normal in only hyper GD. The CD4+ T lymphocytes from hyper GD group were significantly more activated by TSHR peptides compared to eu GD, HT, IDDM, and N, and this induction correlated to their thyroid hormone levels. Quite differently, the activation of CD8+ T lymphocytes from both hyper GD and eu GD group in response to TSHR peptides was impaired compared to HT, IDDM, and the N group; in contrast to the findings with CD4+ T lymphocytes, this was independent of thyroid hormone levels. On the other hand, while the CD8+ T lymphocytes from GD and N groups were activated equally by GAD65, the activation of CD8+ T lymphocytes from the IDDM group by GAD65 was impaired compared to the GD and N groups. In conclusion, the activation of CD8+ T lymphocytes from GD and IDDM by relevant antigens (i.e. TSHR peptides for GD and GAD65 for IDDM) was impaired, but not by irrelevant antigens (i.e. GAD65 for GD and TSHR peptides for IDDM). There was also a modest stimulation of CD8+ T cells from all groups by tetanus toxoid and cardiac myosin light chain peptide, both irrelevant antigens.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activation of T lymphocyte subsets by synthetic TSH receptor peptides and recombinant glutamate decarboxylase in autoimmune thyroid disease and insulin-dependent diabetes. 771 99

HLA-DQA1 and DPB1 alleles were examined in relation to autoimmune thyroid disease (AITD) in the Japanese type 1 diabetic patients. The subjects consisted of 14 type 1 diabetic patients with Graves' disease, 12 patients with Hashimoto's thyroiditis and 32 type 1 diabetic patients without AITD. Comparisons were made with 35 normal controls. Among the type 1 diabetic patients with Graves' disease, the age at onset of diabetes was 31.8 +/- 14.6 years old, which was later than that of those without AITD (P < 0.01). DR9 was increased (57.1% vs. 25.9%, P < 0.05, RR: 3.85, chi 2:4.36) in the patients with Graves' disease. DQA1*0301 was increased and DQA1*0103 was decreased in the patients with Graves' disease and those without AITD. HLA-DPB1*0501 was increased (92.9% vs. 54.3%, P < 0.05, RR: 11.0, chi 2:6.57) in the patients with Graves' disease. These findings suggest the existence of a Graves' complicated subgroup characterized by the increasing association of DPB1*0501 and late onset of diabetes in Japanese type 1 diabetic patients. There exists a heterogeneity in Japanese type 1 diabetes.
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PMID:Immunogenetic heterogeneity in type 1 (insulin-dependent) diabetes among Japanese--class II antigen and autoimmune thyroid disease. 778 92

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