Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetes mellitus (IDDM), in which only the pancreatic beta cells are destroyed by the autoimmune response, is the paradigm of organ-specific autoimmunity. As a result of a combination of factors, the number of immunohistologic/cellular/molecular studies of pancreas in IDDM is very limited. We report here studies conducted in the pancreata of two IDDM patients: one newly diagnosed (case 1) and one long standing (case 2). In case 1, we demonstrated the presence of morphologically normal viable beta cells without evidence of viral infection. In both cases the expression of the autoantigens defined by islet cell Abs and by glutamic acid decarboxylase was markedly reduced in the islet cells whereas expression of hsp60, another putative autoantigen, was normal. Over-expression of HLA class I was detected in 58% of the islets in pancreatic sections and in cultured beta cells in case 1 and also in 30% of islets in case 2 but it was not restricted to any insular cell type. In case 1, there was "inappropriate" HLA class II expression in islets cells but it was a rare finding and not beta cell specific. The analysis of the correlation between class I overexpression, residual insulin, and insulitis suggests that the first event is the increase of HLA class I expression. Of adhesion molecules, ICAM-1, VLA, VCAM, and LFA-3 were normal and only ICAM-1 was moderately overexpressed in and around the islets of case 1 insulitis, as was detected by immunofluorescence which showed that 18% of the islets of case 1 had CD8+ lymphocytes as the predominant population. Reverse transcription-PCR demonstrated moderate V beta skewing and the profile of cytokines expected in CTLs: IL-2, IL-4, IL-10, and IFN-gamma negative, perforin positive. In addition, IFN-alpha, IFN-beta, and IL-6 transcripts were detected in the case 1 pancreas, consistent with the existence of a silent viral infection. Overall, the results indicated that, differently from spontaneous animal models of diabetes, in the pancreas of IDDM patients there are no elements of the inductive phase of the autoimmune response.
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PMID:Pancreas in recent onset insulin-dependent diabetes mellitus. Changes in HLA, adhesion molecules and autoantigens, restricted T cell receptor V beta usage, and cytokine profile. 791 15

Isodisomy (ID) is a genetic anomaly defined as the inheritance of two copies of the same genetic material from one parent. ID in an offspring is a rare cause of recessive genetic diseases via inheritance of two copies of a mutated gene from one carrier parent. We studied a newborn female with a mut(o) of methylmalonic acidemia and complete absence of insulin-producing beta cells in otherwise normal-appearing pancreatic islets, causing insulin-dependent diabetes mellitus. The patient died 2 wk after birth. Serotyping of the HLA antigens, DNA typing of HLA-B and HLA class II loci, study of polymorphic DNA markers of chromosome 6, and cytogenetic analysis demonstrated paternal ID, involving at least a 25-centiMorgan portion of the chromosome pair that encompasses the MHC. ID probably caused methylmalonic acidemia by duplication of a mutated allele of the corresponding gene on the chromosome 6 inherited from the father. It is also very likely that ID was etiologically related to the agenesis of beta cells and consequent insulin-dependent diabetes mellitus in our patient. We thus speculate on the existence of a gene on chromosome 6 involved in beta cell differentiation.
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PMID:Isodisomy of chromosome 6 in a newborn with methylmalonic acidemia and agenesis of pancreatic beta cells causing diabetes mellitus. 791 14

Both metabolic and genetic factors may contribute to the etiology of diabetic nephropathy. We selected 2 different groups of Type I diabetic patients in an attempt to evaluate both factors. HbA1c values and urinary albumin excretion were examined in 114 selected Type I diabetes patients with disease duration of more than 15 yr. We found signs of late renal complications in 28% of these patients. A clear difference in blood glucose control appeared between the 2 groups; the mean HbA1c value during the last 3 yr was 9.5% in the group with microalbuminuria or nephropathy, compared to 8.5% in the normoalbuminuric group (p < 0.0001). With the aim of studying genetic markers alone, we selected a group of 30 Type I diabetes patients with microalbuminuria and a control group of patients without microalbuminuria, but with very similar blood glucose control (e.g. similar mean 1 yr HbA1c values), age and disease duration. All individuals in both patient groups were genomically typed for HLA-DR, -DQ genes and insulin-gene region (INS) polymorphisms. We found no association between HLA class II alleles and microalbuminuria. Neither did we find any association with particular INS polymorphisms. This data indicates that neither genes in the HLA nor in the insulin region are of importance for development of diabetic microalbuminuria. However, all 11 patients with overt nephropathy carried a given INS polymorphism, suggesting an influence of this region for progression to overt nephropathy.
Diabetes Res 1993
PMID:Influence of genetic factors (HLA class II genes, insulin-gene region polymorphisms) and metabolic control on the development of diabetic nephropathy. 792 46

Susceptibility to insulin-dependent diabetes mellitus (IDDM) is determined by both genetic and environmental factors. The major genetic susceptibility to IDDM is conferred by genes in the HLA class II region on chromosome 6. In Caucasians, this susceptibility is thought to be determined by DQA1 and DQB1 genes including the presence of arginine at position 52 of the DQ alpha chain and the absence of aspartic acid at position 57 of the DQ beta chain. In Japanese subjects, IDDM has been found to be associated DR, DQA1, and DQB1 genes. Positive associations with arginine at position 52 of the DQ alpha chain have been demonstrated in Japanese IDDM patients. However, the majority of Japanese IDDM patients do not show positive association to the absence of aspartic acid at position 57 of the DQ beta chain. Susceptibility to IDDM in Japanese subjects appears to be due to combination of DR genes and DQA1-DQB1 haplotypes.
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PMID:[Analysis of HLA-DR, -DQA1, -DQB1 genes in Japanese IDDM patients]. 798 9

Previous studies have suggested an association between polymorphisms in the insulin gene region and insulin-dependent diabetes mellitus (IDDM). Most of the studies so far have been performed in Caucasoid populations. We have investigated 418 random IDDM patients and 422 healthy control subjects from three different ethnic groups; Tanzanian blacks, Norwegian Caucasians and Japanese orientals. Our data suggest that polymorphisms in the insulin gene region confer susceptibility to IDDM in Caucasians, and that a similar tendency though not statistically significant is observed among Tanzanian blacks, while no significant contribution is seen among Japanese orientals. We further demonstrate that the disease-associated genotype INS +/+ confers susceptibility independently of HLA class II alleles associated with IDDM. Compared to the contribution of particular HLA-DQ alleles in IDDM susceptibility, the additional risk conferred by the insulin gene region polymorphism is, however, small. Genotyping of the insulin gene region will therefore most probably not be a useful tool in the prediction of IDDM.
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PMID:IDDM susceptibility associated with polymorphisms in the insulin gene region. A study of blacks, Caucasians and orientals. 798 75

Using a highly discriminatory DNA typing technique, based on the polymerase chain reaction and reverse dot blot hybridization, more refined results were obtained on the association of particular HLA class II alleles, haplotypes and genotypes with insulin-dependent diabetes mellitus in the Belgian population. The previously reported predisposing effect for the DRB1*0301 encoded DR3 serologic specificity was confirmed and could be assigned to the DRB3*0200 encoded DR52b serologic specificity. A second high risk haplotype, DRB1*0401-DQB1*0302 encoding the DR4-DQ8 serologic specificity, accounted for increased susceptibility both in the total insulin-dependent diabetic population and among DR4-positive patients. Moreover, we found that these DR4 associated DRB1 and DQB1 alleles act as independent risk factors. A possible role for the DPB1 locus can be rejected since the observed predisposing effect for DPB1*0202 probably occurred due to linkage disequilibrium of this allele with DRB1*0301. Particular extended haplotypes accounted for the decreased relative risk observed for the DR2, DR11 and DR13 serologic specificities. The highest relative risk was observed for those DQA1/DQB1 genotypes, allowing for the formation of 4SS (DQ alpha Arg52+/DQ beta Asp57-) heterodimers.
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PMID:Association of particular HLA class II alleles, haplotypes and genotypes with susceptibility to IDDM in the Belgian population. 798 83

In Type I diabetes the observation of a decreased release of interleukin-2 (IL-2) and soluble IL-2 receptors by means of stimulated lymphocytes in vitro indicates that a primary immunoregulatory defect may be involved. To confirm this hypothesis we investigated the T-cell activation trend, evaluating the surface expression of IL-2 receptor (CD25), transferrin (CD71), HLA class II (DR), and CD69 phenotypes after in vitro stimulation with phytohemagglutinin (PHA; 1 and 10 micrograms/ml) and concanavalin A (12.5 micrograms/ml) in six newly diagnosed Type I diabetics and six islet cell- and insulin autoantibody-positive first-degree relatives. As controls were studied six long-standing Type I diabetics and six healthy subjects. T-cell cultures from the four groups were performed on the same day and examined at 0, 24, 48, 96, 120, and 144 hr. Cytometric analysis was performed, keeping PBMC gating constant on the basis of physical parameters (scatter and volume). Using both PHA concentrations, a lower level of CD25, CD71, CD69, and DR antigen expression was found in newly diagnosed patients at all observation times with respect to control cultures (P < 0.001). Unexpectedly, pre-Type I diabetic subjects, after 1 microgram/ml of PHA, showed a significantly reduced expression of CD69 (P < 0.001) and CD71 (P < 0.001). The levels remained low, also with high PHA, at the different observation periods, while CD25 expression was found to be reduced in prediabetics only after 1 micrograms/ml of PHA (P < 0.001). The long-standing patients showed a T cell activation trend very close to the latter. Our data show that in Type I diabetes and in the early phases of the disease, the initial activation signal(s) appears to be affected, particularly with one or more subsequent events necessary to initiate the appearance of "activation antigens." This study suggests that the natural history of immunoregulation in pre-Type I and Type I diabetes is characterized by a primary defect in this system, which also persists in patients with long-standing disease.
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PMID:Study of T-cell activation in type I diabetic patients and pre-type I diabetic subjects by cytometric analysis: antigen expression defect in vitro. 809 71

Strategies for studying the genetics of autoimmune diseases have undergone a considerable evolution during the last years, especially due to molecular biology techniques and to systematic genome studies. Genetic factors account for 20 to 40% of the risk, and environmental elements play a major role. The major histocompatibility complex comprising HLA genes remains the immunogenetic system most studied and most closely associated with various autoimmune diseases. These associations are mainly observed with HLA class II genes polymorphisms; the precise knowledge of their structure has allowed to define HLA sequence polymorphisms which are themselves risk markers: specific combinations of HLA-DQA and DQB alleles in insulin-dependent diabetes mellitus or a given DR, DQ haplotype for multiple sclerosis. No strong association with HLA-DP has been demonstrated. In all cases the genes involved have a normal structure and the disease is secondary to the combination of a given set of genes with environmental factors. The present knowledge of insulin-dependent diabetes mellitus and multiple sclerosis genetics is rather advanced. Other genes of the HLA region might also be involved in the genetic susceptibility. Results about other immunogenetic systems (T cell receptor genes or heavy chain immunoglobulin genes) are still contradictory but no major gene for autoimmune susceptibility seems to exist in these regions; however autoimmune diseases are under polygenic control; susceptibility genes shared between different diseases often occurring within the same families (Graves' disease and insulin-dependent diabetes mellitus) and genes specific for a given disease (insulin gene region in diabetes) both exist. The present rapid progress in this area is due to the use of highly polymorphic markers randomly distributed across the genome (microsatellites being most informative) and that of animal models: the list of "candidate genes or regions" potentially involved in the genetics of autoimmune diseases is enlarging; the development of coordinated epidemiological studies of molecular genetics along with the sharing of biological resources between different teams allow to build up powerful informative studies which will confirm or refute those "candidates". However, once the list of genes involved is established their mechanism of action will still take time to elucidate.
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PMID:[Genetics of autoimmune diseases]. 817 58

Immune status with reference to the disease duration and genetic factors (HLA-typing) was studied in various clinical variants of insulin-dependent diabetes mellitus. The disease duration appeared the key factor in development of immune deficiency in insulin-dependent diabetes mellitus. Critical immunological values were established (CD5+ cells--1200 in 1 microliter, CD4+ cells--35%, expression of CD5 and antigens HLA class II--110 and 75%, respectively) for septic complications which are highly probable in lower indices. Females with diffuse thyroid enlargement, subclinical hypothyroidism, wide spectrum of antibodies to DNA, antigenic determinants of thyroid gland, hypophysis were found to be a group associated with HLA--DR3 carriage.
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PMID:[The immune status in different clinical forms of insulin-dependent diabetes mellitus]. 829 26

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


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