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

The distribution of HLA class II alleles associated with insulin-dependent diabetes mellitus (Type 1) in the Algerian population is poorly known. We have typed 36 Algerian Type 1 diabetic probands and their families using DQA1 and DQB1 oligonucleotide probes. Fifty-nine parental haplotypes non transmitted to diabetic offspring served as controls. The frequencies of DQA1 and DQB1 alleles and haplotypes and their associations with Type 1 diabetes were, except minor differences, similar to those reported in French. Susceptibility DQA1 (Arg52+) and DQB1 (Asp57-) alleles were significantly increased among patients versus controls (90% vs 53%, RR = 8.4, p < 10(-6), and 94% vs 64%, RR = 9.4, p < 10(-5), respectively). 85% of Type 1 diabetics versus 34% of control haplotypes were either DR3DQw2 or DR4DQw8 susceptibility haplotypes (DQA1 Arg52+, DQB1 Asp57-) (RR = 10.8, p < 10(-7). 75% of the probands vs 14% of the controls (RR = 18, p < 10(-5)) and 73% of affected siblings versus 24% of unaffected siblings (RR = 8.4, p < 0.02) possessed a genotype composed of these two susceptibility haplotypes in the homozygous or heterozygous state. 42% of the probands were DR3DQw2/DR4DQw8, corresponding to Hardy-Weinberg expectations. The lack of excess of heterozygotes could be due to the consanguine families in this sample, as among the patients with consanguine parents the frequency of DR3, 4 heterozygotes was lower (27% vs 48% in non-consanguine patients, NS) and that of DR3 homozygotes increased (45% vs 12%, respectively, p < 0.03).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA DQA1 and DQB1 study in Algerian type 1 diabetes families. 129 2

In Caucasians the predisposition to Type 1 (insulin-dependent) diabetes mellitus has been shown to associate with HLA-DR3,DQw2 and DR4,DQw8 and with the presence of amino acids other than aspartic acid at position 57 on the HLA-DQ beta chain. In Finland the haplotype-specific absolute risk for developing Type 1 diabetes differs between various DR3 and DR4 positive haplotypes. The aim of our present analysis was to find out whether this variation is attributable to polymorphism at the DQ locus. As part of a nationwide prospective study including 757 serologically HLA genotyped families, we determined HLA-DQ alpha and DQ beta restriction fragment polymorphisms in 17 selected families with important susceptibility haplotypes. Additionally, the DQA1 alleles were determined from 19 haplotypes using sequence-specific oligonucleotide probes, and the DQB1 second exon was sequenced from nine haplotypes. The DR3 as well as DR4 positive haplotypes frequently found in Type 1 diabetic patients showed no variation at the HLA-DQ locus, and they were DQw2 and DQw8, respectively. The absolute risk for Type 1 diabetes for DR4,DQw8 positive haplotypes A2,Cw4,Bw35,DR4 A3,Cw3,Bw62,DR4, A24,Cw7,Bw39,DR4, A2,Cw3,Bw62, DR4, and A2,Cw1,Bw56,DR4 was 35/100,000, 130/100,000, 166/100,000, 196/100,000, and 218/100,000, respectively. The absolute risks for DR3,DQw2 positive haplotypes A1, Cw7,B8,DR3 and A2,Cw7,B8,DR3 were 68/100,000 and 103/100,000, respectively. These results provide further evidence that not only the polymorphism at the DQ locus but also other genes of the haplotypes contribute to susceptibility to Type 1 diabetes.
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PMID:HLA haplotypes in type 1 (insulin-dependent) diabetes mellitus: molecular analysis of the HLA-DQ locus. The DIME Study Group. 134 11

Previous studies have shown that insulin-dependent diabetes mellitus is positively associated with HLA-DR4 and HLA-DR9 in Japanese populations. It was proposed that susceptibility to the disease is determined by a single HLA allele associated with both DR4 and DR9. DR genotypes in a Japanese population with insulin-dependent diabetes mellitus were determined by DRB/DQB RFLP analysis. A single disease-susceptibility-allele model was tested by the antigen-genotype-frequency-among-patients method. Recessive and additive inheritance of a single susceptibility allele were rejected. The DR9-associated disease-susceptibility allele in Japanese subjects is distinct from both the DR3- and DR4-associated susceptibility alleles in white Caucasians. The data suggest further complexity in the inheritance of HLA-associated susceptibility to insulin-dependent diabetes mellitus.
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PMID:Investigation of the mode of inheritance of insulin-dependent diabetes mellitus in Japanese subjects. 134 95

A role for heat shock proteins (HSPs) in autoimmunity has recently been suggested by several authors. Autoantibodies against HSPs have been associated with such autoimmune diseases as systemic lupus erythematosus, polymyositis, and the NOD mouse model of diabetes. Moreover, genes for the major 70,000-M(r) HSP (HSP70) are located within the MHC. To investigate a potential association of an HSP70-2 gene polymorphism with insulin-dependent diabetes mellitus (IDDM), we analyzed restriction-fragment-length polymorphism (RFLP) of this gene in 29 families with one or more member affected by IDDM. With the enzyme PstI, as reported previously, two HSP70-2 alleles of 8.5- and 9.0-kb were found. The 8.5-kb allele was found more frequently on diabetic haplotypes compared with control haplotypes (41 of 66 [62%] vs. 20 of 46 [43%], P = 0.03). This association was due to the conservation of alleles on extended haplotypes we previously reported to be associated with diabetes on initial analysis of families. Twenty-three of 26 diabetic DR3 haplotypes and 3 of 3 normal DR3 haplotypes and all instances of [HLA-B8, SC01, DR3] and [HLA-B18, F1C30, DR3] had the 8.5-kb allele, whereas 0 of 9 normal DR2 haplotypes and 0 of 2 diabetic DR2 haplotypes had the 8.5-kb allele (P = 8 x 10(-7) DR3 vs. DR2 haplotypes). The alleles were equally distributed among DR4 haplotypes.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1992 Jul
PMID:No independent association between HSP70 gene polymorphism and IDDM. 135 54

The question of HLA susceptibility to Type 1 (insulin-dependent) diabetes mellitus remains unresolved. In the present study, 127 diabetic patients and 177 unrelated control subjects have been analysed for their class I and class II serological antigens, class II (DR, DQ) DNA restriction fragment length polymorphisms and DQA1 and B1 exon-2 nucleotide sequences and their corresponding amino acid residues. By using the aetiologic fraction (delta) as an almost absolute measure of the strongest linkage disequilibrium of an HLA marker to the putative Type 1 diabetes susceptibility locus, it has been found that the strength of association of the HLA markers may be quantified as follows: DR4 less than DR3 less than DR3 or DR4 less than non-Aspartate 57 beta DQ and Arginine 52 alpha DQ less than Arginine 52 alpha DQ. Thus, molecular HLA-DQ markers appear to be more accurate as susceptibility markers than the classic serologically defined ones (DR3 and DR4); however, any effect of DQ markers disappears when non-DR3/DR4 individuals are considered, suggesting that DR factors (or others in between DQ and DR) are also important. In addition, a dominant non-Aspartate 57 beta DQ susceptibility theory does not hold (but a recessive one does) in our diabetic population (probably due to the high frequency of the protective DR7-non-Aspartate 57 beta DQ haplotypes); Arginine 52 alpha DQ is the best single HLA marker found in our population, both as a recessive or as a dominant one. Also there are 13 patients in our sample who bear neither Arginine 52 alpha DQ nor non-Aspartate 57 beta DQ susceptibility factors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison between HLA-DRB and DQ DNA sequences and classic serological markers as type 1 (insulin-dependent) diabetes mellitus predictive risk markers in the Spanish population. 135 47

Antibodies to glutamic acid decarboxylase, previously known as the 64 kD antigen, appear to be more predictive of Type 1 (insulin-dependent) diabetes mellitus in Caucasoids than other autoantibodies to islet cell antigens. However, seropositivity to glutamic acid decarboxylase is not universal at the onset of Type 1 diabetes and the prevalence in Asians is low compared to Caucasoid patients. This suggests the involvement of multiple pancreatic autoantigens in the Type 1 diabetes autoimmune process or, genetic differences within and between ethnic groups that contribute to the heterogeneous autoimmune response to glutamic acid decarboxylase or both. Alternatively some cases of Type 1 diabetes could have an aetiology unrelated to autoimmunity. This study examined the differential response to glutamic acid decarboxylase according to HLA-DR and -DQ genotypes, as determined by RFLP, in 49 white Australian and 44 Asian patients with Type 1 diabetes. Among Australians heterozygous for HLA-DR3, DR4, 85% were positive for antibodies to glutamic acid decarboxylase, significantly different (p = 0.039) from the prevalence of 48% in patients with at least one HLA-DR antigen other than DR3 or DR4. Also, among Australians, the presence of "low risk" HLA-DQ antigens, namely DQw5, DQw6 or DQw7, reduced the prevalence of antibodies to glutamic acid decarboxylase by 40% (p = 0.064). Among Asians with Type 1 diabetes and with antibodies to glutamic acid decarboxylase, HLA-DR9 was significantly (p = 0.037) increased in frequency, at 63% compared with 22% in those without glutamic acid decarboxylase antibodies, and the presence of a "low risk" HLA-DQ allele reduced the antibody rates by 87% (p = 0.003).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antibodies to glutamic acid decarboxylase are associated with HLA-DR genotypes in both Australians and Asians with type 1 (insulin-dependent) diabetes mellitus. 136 Apr 32

The reasons why diabetic patients present with an increased susceptibility to frequent and protracted infections remain unclear. The virtual absence of epidemiological studies of the independent risk factors involved contrasts with the multitude of in vitro models focused on the metabolism and function of immune cells from diabetic patients. This review analyzes some of these models and their clinical relevance. The different levels of diabetes pathogenesis: genetic (Type 1), autoimmune (Type 1) and metabolic (Type 1 and Type 2) are responsible for immune abnormalities demonstrated in in vitro models. The participation of genetic and autoimmune factors has been mainly characterized on T lymphocyte function. The B8 DR3 haplotype is associated with several minor immunologic abnormalities in vitro. However, the high frequency of this haplotype in healthy individuals argues against its involvement in significant defects of antimicrobial immunity. Genetic deficiency of C4, present in 25% of Type 1 diabetic patients could, on the other hand, be responsible for opsonization defects against encapsulated pathogens. Several immunological abnormalities related to the autoimmune process preceding the onset of Type 1 diabetes mellitus, such as the depletion of memory CD4+ cells and the defective natural killer activity could transiently impair host defences against viral diseases. Several in vitro functional defects of the immune system have been correlated with the metabolic control of diabetic patients. This suggests the involvement of insulinopenia in some of the abnormalities observed. Insulinopenia-induced enzymatic defects have often been proposed to inhibit energy-requiring functions of phagocytes and lymphocytes. However, the relevance of this mechanism could be confined to patients with extremely severe metabolic abnormalities. The importance of systemic consequences of insulinopenia such as hyperglycaemia and ketosis has also been addressed. Usually, the defects induced in vitro by these factors are slight and require supraphysiologic concentrations of glucose or ketone bodies. Recent studies have shown abnormalities of signal transduction mechanisms in which insulinopenia itself and other factors such as circulating immune complexes could be involved. Despite numerous controversies, many in vitro studies of the immune cells of diabetic patients have demonstrated significant defects which bear quantitative similarities with abnormalities described in other immunodeficiency syndromes. Furthermore, several mechanisms have been proposed to link the different defects observed with the specific infections encountered in diabetic patients.
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PMID:Impaired immune responses in diabetes mellitus: analysis of the factors and mechanisms involved. Relevance to the increased susceptibility of diabetic patients to specific infections. 139 73

The DNA methylation state of the 5'-regulatory region of human HLA-DQ beta genes was examined. Two restriction enzymes were utilized to detect methylated (meCG) dinucleotides in the 5'-regulatory region of the DQ-beta genes: the restriction enzyme Msp I, which recognizes CCGG and CmeCGG, and Hpa II recognizes only the unmethylated CG sequence. DNA samples were prepared from 95 HLA-typed individuals including 40 B-lymphoblastoid cell lines and peripheral blood leukocytes of 55 individuals. Of these samples, 20 were from parents of individuals with insulin-dependent diabetes. Allele specific methylation was observed in particular DR-associated DQ-beta gene alleles. The DQw8 (DQw3.2) allele, most DQw7 (DQw3.1) alleles, and the DR3-associated DQw2 allele were all unmethylated. The parental methylation state was stably transmitted to offspring. Because these DQ alleles are highly associated with several autoimmune diseases, our results raise the possibility that the regulation of expression of these particular DQ-beta alleles might be different from that of other alleles, and that the 5'-regulatory DNA sequences of these particular DQ beta alleles may be responsible for, or contribute to, susceptibility to autoimmune diseases.
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PMID:Allele-specific methylation in the 5'-regulatory region of class II DQ beta genes in the human major histocompatibility complex (MHC): relationship to autoimmune disease susceptibility. 142 41

One-hundred and seventy-two normotensive, insulin-dependent diabetic patients without clinical proteinuria (Albustix negative) were typed for the major histocompatibility complex class I (HLA-A, -B) and class II (HLA-DR) antigens. Urinary albumin excretion was measured as the albumin:creatinine ratio (UA/UC, mg/mmol) in an early morning sample. Patients expressing the HLA-A2 antigen had significantly higher UA/UC values than those not expressing the antigen. The observed ratio of geometric means was 1.77 (95 per cent confidence interval (CI) 1.18-2.67; p < 0.01); the relative risk of microalbuminuria (UA/UC > 3.0 mg/mmol) associated with expression of HLA-A2 was 2.52 (95 per cent CI 1.11-5.73; p < 0.05). There was no significant association between UA/UC and HLA-B8, -B15, -DR3, -DR4 or other antigens. Patients were re-studied after a mean period of 5.3 years: multiple linear regression analysis showed that the UA/UC at this time was positively related to the initial glycosylated haemoglobin level (p < 0.01) and expression of the HLA-A2 antigen (p < 0.05), but not to blood pressure or creatinine clearance. Fifteen patients developed macroalbuminuria at follow-up (UA/UC > 45.5 mg/mmol). Compared with a group matched for age, sex, duration of diabetes, and glycosylated haemoglobin who did not develop macroalbuminuria, macroalbuminuric patients had a higher frequency of HLA-A2 (p < 0.01). The odds ratio of progressing to macroalbuminuria associated with HLA-A2 had a 95 per cent CI of 1.71 to infinity. We conclude that an immunogenetic factor may play a role in the development of early diabetic nephropathy and that the risk associated with expression of the HLA-A2 antigen is independent of metabolic control and blood pressure.
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PMID:The immunogenetics of early nephropathy in insulin-dependent diabetes mellitus: association between the HLA-A2 antigen and albuminuria. 144 47

To determine whether genetic markers can improve the predictive value of islet cell antibodies for development of Type 1 (insulin-dependent) diabetes mellitus, 536 siblings aged 2-29 years were consecutively enrolled in a 8-year prospective survey. The risk of developing diabetes was estimated, using life-table methods, by years of follow-up and age, according to genetic factors (shared HLA-haplotypes, DR antigens, C4 allotypes) and islet cell antibody status. Fifteen siblings (2.8%) developed Type 1 diabetes during the study period (risk 4.4% after 8 years, 4% by age 22 years). DR3,4 heterozygosity identified higher risk (16% after 8 years, 12% by age 22 years, p less than 10(-5)) than HLA-identity (10% and 7%, respectively, p less than 0.01); risks for DR3 or DR4 positive and for haplo-identical siblings were low (4%, 3% and 4.4%, respectively, NS). C4BQO also conferred significant risk (11% vs 3% in non-C4BQO siblings, p less than 0.01). The predictive value of genetic markers alone was poor (12% for DR3,4, 7% for HLA-identity, 9% for C4BQO) compared with that of islet cell antibody levels greater than 4 Juvenile Diabetes Foundation units (41%, risk 56% after 8 years, p less than 10(-7)). HLA markers significantly contributed to risk prediction in combination with islet cell antibodies: islet cell antibody-positive DR3,4+ subjects had the highest risk (70% after 8 years, predictive value 58%, p less than 10(-7)) compared with islet cell antibody-positive DR3,4- (37% and 20%, respectively) and islet cell antibody-negative DR3,4+ (5% and 3.6%, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Life table analysis of the risk of type 1 (insulin-dependent) diabetes mellitus in siblings according to islet cell antibodies and HLA markers. An 8-year prospective study. 145 52


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