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)

TaqI, BamHI and HinddIII polymorphisms of the C4 genes were studied with a 500-bp C4 cDNA probe (pAT-A153) specific for the 5' end of the gene. The restriction patterns obtained were correlated with the C4A and C4B genotypes in 35 patients suffering from insulin-dependent diabetes mellitus (IDDM), and results were compared to those from 40 healthy individuals. The controls, all Caucasian, were genotyped for HLA-A, B, C, DR, Bf, C2 and C4, together with 10 diabetics and their families; haplotypes for the other patients had been deduced using DNA and protein polymorphism, and taking into consideration linkage disequilibrium for neighbouring loci. No significant difference between genotypes at the C4A locus was seen in either population. The C4A gene deletion, associated with a C4B "short" gene (66.7%), was found mainly in the haplotype B8,Cw7,DR3,BfS,C2C, C4AQOB1, and the C4B gene deletion in the haplotype B18,Cw5,DR3,BfF1, C2C,C4A3BQO. When diabetic patients were compared with normal individuals, we observed, at the C4B locus, a decrease in the C4B "long" gene (22% vs. 49% respectively, p less than 0.001). A compensatory increase was observed in patients vs. controls for the frequency of C4BQO, both in the deleted and intact form (26% vs. 10% respectively, p less than 0.03).
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PMID:Marked shortage of C4B DNA polymorphism among insulin-dependent diabetic patients. 197 15

Type I diabetes is strongly associated with the major histocompatibility complex (MHC) class II region (DR and DQ loci), and to a lesser extent the class III region (complement C4 loci). Restriction fragment length polymorphism analysis was employed to investigate the C4 and heat shock protein 70 (HSP70) loci of 176 patients with type I diabetes and 92 healthy controls. In the patient population there was an excess of deletions of the C4A locus (48.5% vs 22.1%, P less than 0.0005). The HSP70 probe in conjunction with the restriction endonuclease Pst I detects two alleles of 9 or 8.5 kilobases (kb). The 8.5 kb allele was significantly increased in the patient group compared to healthy controls (0.569 vs 0.353, respectively, P less than 0.0005). Furthermore, a C4A deletion nearly always occurred with the 8.5 kb HSP70 allele, suggesting that it may be a marker of the HLA-A1,B8,C4A deletion, DR3 extended haplotype.
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PMID:Complement C4 and heat shock protein 70 (HSP70) genotypes and type I diabetes mellitus. 227 64

The association of HLA class I and class II antigens, particularly HLA-B8,DR3, with a variety of autoimmune diseases has been well documented. The C4A*Q0 (non-expressed C4A) allele which is in linkage disequilibrium with HLA-B8,DR3 has also been reported to be associated with systemic lupus erythematosus, insulin-dependent diabetes mellitus and Graves' disease. However, the number of studies has been limited by the requirement of family data for the assignment of the C4A*Q0 allele based on C4 protein typing. Recently, with the availability of a C4 cDNA probe, a C4A gene deletion associated with HLA-B8,DR3 has been reported in normal individuals. We have tried to resolve the problem of assigning the C4A*Q0 allele by using both phenotypic and genotypic approaches and have determined the significance of the C4A*Q0 allele in 80 unrelated patients with Graves' disease and in 50 normal control subjects. Our results demonstrate a strong association of the C4A*Q0 allele with Graves' disease (56 versus 26%; P less than 0.002, relative risk = 3.7) and in particular in association with HLA-B8 and/or DR3 (92 versus 70.6%; P less than 0.04) when compared with normal controls. All the C4A*Q0 alleles that were associated with HLA-B8 and/or DR3 were due to a C4A gene deletion. Of the C4A*Q0 alleles, in Graves' disease, 94% (compared with 82% in the control group) could be detected by C4 DNA analysis using either TaqI or EcoRI restriction endonucleases. It is suggested that a combination of C4 protein typing with C4 DNA analysis is the best approach for the determination of the C4A*Q0 allele in unrelated individuals without access to family data.
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PMID:C4A gene deletion: association with Graves' disease. 257 May 94

Certain alleles for the complement proteins, C4 and Bf, have been shown to be markers for insulin-dependent diabetes mellitus (IDDM) in samples of different racial and geographic composition. However, the same markers are not demonstrable in each group studied. Phenotyping for the complement alleles, C4 and Bf was performed on 168 Caucasian and 49 Black patients with IDDM. All of the patients were followed in Memphis, Tennessee and had onset of disease prior to age 18. The Bf*F1 allelic frequency was significantly increased for the Caucasian patients as compared to 93 healthy Caucasian controls (0.063 vs. 0.016) and for the Black IDDM patients as compared to 43 healthy Black controls (0.102 vs. 0.035). C4 phenotype frequencies showed a significant increase of the C4AQ0 (rr = 2.13) and C4A4 (rr = 2.91) phenotypes for the Caucasian IDDM patients as compared to controls, but the frequency of homozygous null C4A was not significantly increased. In addition significant negative associations of IDDM with C4A3 and C4A6 phenotypes and no association with any C4B phenotype were observed in our Caucasian patient population. Our data for Mild-South Blacks with IDDM suggest a similar positive association of IDDM with the BfF1 phenotype (rr = 3.4). However, there was no evidence among Black IDDM patients of the C4AQ0 and C4A4 associations observed in the Caucasian sample. The data support a possible association of IDDM with the C4A2 (rr = 5.86) and C4B2 (rr = 5.26) phenotypes. The hypothesis that racial admixture may account for the higher frequency of IDDM in US Blacks as compared with African Blacks has been forwarded by others.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:C4 and Bf phenotypes in black and Caucasian patients with childhood onset insulin dependent diabetes mellitus. 264 74

Heterogeneity between two haplotypes in linkage disequilibrium with DR3: B8, C4AQOB1,BfS,DR3 and B18,C4A3BQO,BfF1,DR3, with regard to age at onset of Type 1 (insulin-dependent) diabetes mellitus, was investigated in 325 unrelated French patients (146 males and 179 females, age at onset 1 month to 29 years) who were genotyped for HLA-A, B, C, DR and Bf and 225 of whom were typed for the C4A, B complement components. A subgroup of 82 patients and 75 control subjects were tested for DR beta and DQ beta DNA restriction fragment length polymorphism. The distribution according to age at onset and the mean ages at onset were compared between patients bearing B8, DR3 (n = 58), B18,DR3 (n = 62) or other DR3 haplotypes (Bx, DR3, n = 70), the haplotype segments C4AQOB1,DR3 (n = 41) or C4A3BQO,DR3 (n = 52) and the C4 null alleles C4AQO (N = 48) or C4BQO (n = 112) alone. The B8,DR3 haplotype, its smaller segment C4AQOB1,DR3 or C4AQO alone were associated with age at onset after 6 years (p less than 0.01, less than 0.08 and less than 0.02 respectively); on the other hand, the B18,DR3 haplotype, its segment C4A3BQO,DR3 or C4BQO alone were significantly more frequent in patients aged less than 6 years at onset (p less than 0.02, less than 0.01 and less than 0.01 respectively). Accordingly, the mean age of onset was significantly lower in the latter compared with the former patients (p less than 0.02, less than 0.02 and less than 0.01 respectively). No age-related variation was observed in BX,DR3 patients and their mean age of onset was intermediate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two distinct HLA-DR3 haplotypes are associated with age related heterogeneity in type 1 (insulin-dependent) diabetes. 290 19

Of more than 500 diseases or syndromes studied for HL-A markers, more than 40 are known to be associated with an allele of class I, II, or III. Seven are linked to the HL-A region: six are recessive (idiopathic hemochromatosis, C2, C4A, and C4B deficiencies, congenital and late-onset deficiencies) and one is dominant (spinocerebellar ataxia). In addition, insulin-dependent diabetes mellitus is also linked to HL-A with more than one single locus. HL-A typing is of practical interest for diagnosis of ankylosing spondylitis by B27 antigen determination and for prevention of idiopathic hemochromatosis by genotyping of siblings of the index case. Prenatal diagnosis of 21-OH deficiency by genotyping fetal cells permits genetic counseling. Indeed, the discovery of the relationship between HL-A and disease can be considered a new approach to medical genetics. Extensive use of HL-A technology will probably allow better prediction of risk and may elucidate the mechanisms of certain diseases. For the first time the study of one single immunogenetic system may have a significant effect on public health through the possibility of wide-scale prevention.
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PMID:HL-A and disease. 300 51

54 normal Caucasian families and 169 families in whom at least one child had type I diabetes (IDDM) were genotyped for HLA-A, B, C, DR and for the complement factors Bf and C4. The paternal and maternal transmission of the different alleles and of haplotypes and complotypes in linkage desequilibrium have been analysed. No distortion of the paternal transmission has been observed in the offspring of the two series of families. On the contrary, a distortion of the maternal segregation of the silent alleles at the complement factor C4A and B locus was found: mothers transmitted C4AQ0 more often than expected to their male offspring (p less than 0.04 in normal families, p less than 0.001 in IDDM families) while they transmitted C4BQ0 in excess to their female offspring (p less than 0.01 and p less than 0.03 in normal and IDDM families, respectively).
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PMID:[Distortion of the maternal segregation of the silent alleles of complement factor 4 in normal and diabetic families]. 309 11

From the study of HLA, A, B, C, DR, Bf and C4A, C4B alleles in 287 insulin-dependent diabetes mellitus patients and 108 controls, comparisons were made between 424 diabetic and 216 normal extended haplotypes. In the "cis" situation (haplotype), the highest relative risks (RR) for IDDM were borne by multiloci allelic associations, mainly DR/complement alleles, rather than by DR3 or DR4 considered alone. Susceptibility was strongly associated with two extended haplotypes (Aw30, Cw5, B18, C4BQ0, C4A3, BfF1, DR3 and A2, Cw3, B15, C4Bx, C4A3, BfS, DR4) or their smaller segments. Two haplotypes, S31 associated with DR2 or DR5 and F31 associated with DRw6 or DR7 had a protective effect. In the "trans" situation (opposite haplotype) the large excess of DR3/DR4 heterozygotes was not the only distortion observed. An excess of DR1 (57%) and of C4BQ0 (40%) was noted among non DR3, non DR4 haplotypes in diabetics compared to normal individuals (26% and 23%, respectively, P less than 0.01, 0.05). Homozygotes for DR3 or DR4 were not increased, and other homozygotes were decreased compared to controls. The protective antigens HLA DR2, DR5 and DR7 seemed not to be distributed randomly: their putative protective effect was not observed in the case of combination with DR1 or a B18, DR3 haplotype. DR2 was never found homozygous or combined with DR5. These results suggest that susceptibility to IDDM is generated by both cis and trans interactions between genes or gene products of the HLA region.
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PMID:Study of cis and trans interactions between extended HLA-haplotypes in insulin-dependent diabetes. 340 91

By typing a large quantity of family-based material for HLA-B, HLA-DR, C4, C2 and factor B, we were able to derive four-gene complement haplotypes (C4A, C4B, C2, BF) and six-gene MHC haplotypes (HLA-B, complement, HLA-DR). Fourteen six-gene MHC haplotypes showed linkage disequilibrium but exact frequencies could not be determined because it was not always possible to assign null C4 alleles in families where null genes were not clearly seen to segregate. Comparison of unrelated type I diabetes, Graves' disease and Hashimoto's thyroiditis patients with healthy unrelated controls revealed the following MHC allele associations: C4B*3, HLA-DR3 and HLA-DR4 with type I diabetes; BF*F1 and HLA-DR3 with Graves' disease; HLA-DR4 with Hashimoto's thyroiditis. By typing families of type I diabetes and Graves' disease patients we were able to derive two high-risk DR3+ MHC haplotypes for both type I diabetes and Graves' disease. These are HLA-B8 C4A*Q0 C4B*1 BF*S HLA-DR3 and HLA-B18 C4A*3 C4B*Q0 BF*F1 HLA-DR3, and these haplotypes account for most of the associations between these diseases and HLA-DR3. The MHC haplotype HLA-B15 C4A*3 C4B*3 BF*S HLA-DR4 also carries high risk for type I diabetes in this group of patients. Our data suggest that other DR4+ haplotypes, probably containing C4A*3 C4B*1, carry increased risk for type I diabetes whereas haplotypes containing DR4 and C4 C4A*3 C4B*Q0 do not. Our phenotype data suggest that DR4 in Hashimoto's thyroiditis is frequently associated with HLA-B44, C4A*3, C4B*1 and BF*S.
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PMID:Class III alleles and high-risk MHC haplotypes in type I diabetes mellitus, Graves' disease and Hashimoto's thyroiditis. 346 Dec 34

Eight families (121 individuals) with two or more members affected with systemic lupus erythematosus (SLE) were analyzed for histocompatibility antigens (HLA-A, B, C, DR, MT, and MB) and complement antigens (C4A, C4B, and BF). These data were correlated with serological markers (antinuclear antibodies, single- and double-stranded anti-DNA, anti-SM, anti-nRNP, anti-Ro [SS-A], anti-La [SS-B], and biological false-positive tests for syphilis and clinical features. Fifteen members had SLE, and 19 had other immune diseases (subacute cutaneous lupus erythematosus, discoid lupus erythematosus, hypothyroidism, insulin-dependent diabetes mellitus, primary Sjogren's syndrome, immune thrombocytopenic purpura, rheumatoid arthritis, and multiple sclerosis). Twenty-three healthy relatives (seroreactors) had significant titers of circulating antibodies, as did 2 of 17 spouses. There was an increased frequency of null C4 alleles in those individuals with SLE (60%) and healthy relatives (50%) as compared with spouses (24%). Multivariate analysis showed a significant association between SLE and female sex (P =.006), whereas there was no significant association revealed between female sex and other immune diseases. Patients with SLE also had a higher frequency of either C4A or C4B null alleles (P = .01) than those with immune diseases. The C4A homozygous null phenotype was more common in SLE patients than in seroreactors (P = .02). There was a higher frequency of HLA-DR2 and DR3 in individuals with SLE than in those with immune disease (P = .08), seroreactors (P = .02) and normal relatives (P = .002). One totally C4-deficient patient with SLE was identified. These families demonstrate an important association between SLE and the C4 null allele and the HLA-DR2 and DR3. These risk factors, however, cannot account for the development of disease in all individuals.
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PMID:Null alleles of the fourth component of complement and HLA haplotypes in familial systemic lupus erythematosus. 387 10


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