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)

Type 1 (insulin-dependent) diabetes mellitus, like some other autoimmune diseases, is linked to certain alleles coded by genes in the HLA-D region. Sequence analysis of DQ beta chains indicates that aspartic acid at codon 57 confers resistance to the development of Type 1 diabetes. However, a full explanation for the HLA-association of Type 1 diabetes, particularly the increased susceptibility of DR3/4 heterozygotes is still awaited. The localisation of tumour necrosis factor genes on the short arm of chromosome 6 between HLA-B and the complement genes (Class III) prompted us to investigate a possible polymorphism of TNF-alpha at the genomic level in relation to Type 1 diabetes susceptibility. A dialleleic TNF-alpha restriction fragment length polymorphism was found with Ncol and its segregation with HLA-haplotypes analysed in diabetic families. We describe here a strong linkage of TNF-alpha alleles with certain DR haplotypes. For example, the common extended haplotype HLA A1-B8-DR3 was almost exclusively associated with the 5.5 kb TNF-alpha allele whereas Bw62-DR4 with the 10.5 kb allele. Thus both alleles segregate to diabetic patients. DR matched haplotypes of affected family members differed significantly from those of the non-affected at the TNF alpha locus. All affected sibling pairs in 11 multiplex affected families were identical for TNF-alpha alleles, even if they were only haploidentical for HLA-B-DR haplotypes. In addition, heterozygosity for the TNF-alpha alleles was significantly more frequent in the patients. This tight linkage of TNF-alpha alleles with some extended haplotypes could help to explain the HLA-association of Type 1 diabetes as well as some other autoimmune diseases.
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PMID:TNF-alpha gene polymorphisms in type 1 (insulin-dependent) diabetes mellitus. 257 98

In Caucasoids HLA-DQB1 genes encoding amino acids other than aspartic acid at position 57 of the DQ beta chain (non-Asp-57) are associated with susceptibility to develop insulin-dependent diabetes mellitus (IDDM), while resistance is associated with aspartic acid at this residue (Asp-57). Following amplification of genomic DNA by the polymerase chain reaction, the DQB1 alleles of 87 random Norwegian IDDM patients and 187 healthy controls were investigated with 11 different sequence-specific oligonucleotide probes. Of these patients 82% carried DQB1 alleles encoding non-Asp-57 at both of their DQ beta chains, compared to 27% of the controls (relative risk = 12.2, p less than 0.0001). Sixteen percent of the patients (versus 51% of the controls) were heterozygous Asp-57/non-Asp-57. Two percent of the patients (22% of the controls) were apparently Asp-57 homozygous. The results demonstrate that non-Asp-57 DQ beta chains are associated with susceptibility to develop IDDM but also indicate that the protection associated with DQ beta Asp-57 may not be as dominant as reported by others.
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PMID:The amino acid at position 57 of the HLA-DQ beta chain and susceptibility to develop insulin-dependent diabetes mellitus. 260 46

A patient with type II diabetes associated with hyperproinsulinemia has been shown to have a point mutation in one insulin gene allele, resulting in replacement of histidine with aspartic acid at position 10 of the B-chain. To investigate the basis of the proinsulin processing defect, we introduced an identical mutation in the rat insulin II gene and expressed both the normal and the mutant genes in the AtT-20 pituitary corticotroph cell line. Cells expressing the mutant gene showed increased secretion of proinsulin relative to insulin and rapid release of newly synthesized proinsulin. Moreover, the mutant cell lines did not store the prohormone nor did they release it upon stimulation with secretagogues. These data indicate that a significant fraction of the mutant prohormone is released via the constitutive secretory pathway rather than the regulated pathway, thereby bypassing granule-related processing and regulated release.
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PMID:Partial diversion of a mutant proinsulin (B10 aspartic acid) from the regulated to the constitutive secretory pathway in transfected AtT-20 cells. 265 40

The present knowledge of the HLA system and its biological function is summarized as a basis for the subsequent discussion of the associations between this system and insulin-dependent diabetes (IDDM) and some mechanisms that may explain them. Although the serologically detectable DR determinants are still the most handy markers, there is now increasing evidence from studies of restriction enzyme fragment length polymorphism (RFLP) in IDDM that DQ determinants may play a primary role in causing susceptibility and/or resistance to this disease. Thus, it is now evident that about 90% of DR4-positive diabetics carry the DQw8 determinant present in only about 65% of DR4-positive controls. Most recently, it has been claimed that an aspartic acid in position 57 of the DQB1 (DQ-beta-1) chain confers resistance to IDDM. Although this may be true, it does not explain the disproportionate decrease of DR2 or the particularly high risk of DR3/4 heterozygotes, which is still good evidence that several HLA genes are involved. Because Class II antigens show the strongest associations, the most plausible hypothesis about the mechanism(s) involves specific presentation of as yet unknown antigenic peptides to T-helper lymphocytes, which may induced the formation of both anti-islet cell antibodies and T-cytotoxic lymphocytes capable of destroying beta cells. However, T-suppressor lymphocytes also may be involved. If this hypothesis is correct, the most urgent task is to define the antigenic peptides in question, whether they are environmental (e.g., viral) or autologous.
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PMID:HLA and insulin-dependent diabetes: an overview. 265 26

The HLA-DQ beta-chain gene shows a close association with susceptibility or resistance to autoimmune insulin-dependent diabetes mellitus (IDDM) and it has been suggested that the amino acid in position 57 may be of pathogenetic importance. To study the expression of the IDDM associated HLA-DQ beta-chain alleles, we immunized rabbits with 12 to 13 amino acid long peptides representing HLA-DQw7 and -DQw8 allelic sequences, differing only by one amino acid in position 57 being aspartic acid (Asp) and alanine (Ala), respectively. Immunoblot analysis of lymphoblastoid cells showed that several antisera recognized a 29-kDa protein, equivalent to the expected molecular size of the HLA-DQ beta-chain to yield two antisera specific for HLA-DQw7 (pos. 57Asp) and three antisera for HLA-DQw8 (pos. 57Ala) positive cells. Analysis of HLA-DR 3/4 positive IDDM patients (n = 24) and controls (n = 19) showed that all (100%) patients were positive for pos. 57Ala antiserum compared to 13 of 19 (68%) of the controls. The remaining six controls reacted with the pos. 57Asp antisera, whereas none of the patients did. We have therefore successfully been able to generate site-specific antibodies that distinguish single amino acid substitutions in predetermined positions of allelic HLA-DQ beta-chain gene products. Such sera should become useful to detect and investigate HLA associated susceptibility to autoimmune diseases in man.
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PMID:Site-specific antibodies distinguish single amino acid substitutions in position 57 in HLA-DQ beta-chain alleles associated with insulin-dependent diabetes. 273 2

One hundred seventy-two members from 27 randomly selected multiple case Caucasian families of patients with insulin-dependent diabetes mellitus (IDDM) were studied at the DNA level to ascertain the reliability of codon 57 of the HLA-DQ beta-chain gene as a disease protection/susceptibility marker. The analysis was carried out by polymerase chain reaction amplification of DNA encoding the first domain of the DQ beta chain and by dot blot analysis of the amplified material with allele-specific oligonucleotide probes. One hundred twenty-three randomly selected healthy Caucasian donors were also tested. The results demonstrated that haplotypes carrying an aspartic acid in position 57 (Asp-57) of their DQ beta chain were significantly increased in frequency among nondiabetic haplotypes (23/38), while non-Asp-57 haplotypes were significantly increased in frequency among diabetic haplotypes (65/69). Ninety-six percent of the diabetic probands in our study were homozygous non-Asp/non-Asp as compared to 19.5% of healthy unrelated controls. This conferred a relative risk of 107 (chi 2 = 54.97; P = 0.00003) for non-Asp-57 homozygous individuals. Even though the inheritance and genetic features of IDDM are complex and are not necessarily fully explained by DQ beta chain polymorphism, this approach is much more sensitive than HLA serolog in assessing risk for IDDM.
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PMID:Aspartic acid at position 57 of the HLA-DQ beta chain protects against type I diabetes: a family study. 318 14

Gruppuso et al. [Gruppuso, P.A., Gordon, P., Kahn, C. R., Cornblath, M., Zeller, W. P. & Schwartz, R. (1984) N. Engl. J. Med. 311, 629-634] have recently described a family in which hyperproinsulinemia is inherited in an autosomal dominant pattern, suggesting a structural abnormality in the proinsulin molecule as the basis for this disorder. However, unlike two previous kindreds with a similar syndrome, the serum proinsulin-like material in this family did not appear to be an intermediate conversion product but instead behaved like normal human proinsulin by several criteria. To further characterize this disorder we isolated and sequenced the insulin gene of the propositus. Leukocyte DNA was cloned into lambda-WES and recombinants containing the two insulin alleles, lambda MD41 and lambda MD51, were isolated by plaque hybridization. DNA sequencing of lambda MD51 showed that it contained the normal coding sequence for human preproinsulin. Sequence analysis of lambda MD41, however, revealed a single nucleotide substitution in the codon for residue 10 of proinsulin (CAC----GAC) that predicts the exchange of aspartic acid for histidine in the insulin B chain region. This mutation was also found in an insulin allele cloned from a second affected family member (propositus's father). These results, along with the linkage analysis of Elbein et al. [Elbein, S.C., Gruppuso, P., Schwartz, R., Skolnick, M. & Permutt, M.A. (1985) Diabetes 34, 821-824], strongly implicate this mutation as the cause of the hyperproinsulinemia in this family. Inhibition of the conversion of proinsulin to insulin may be related to altered folding and/or self-association properties of the [Asp10]proinsulin.
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PMID:A mutation in the B chain coding region is associated with impaired proinsulin conversion in a family with hyperproinsulinemia. 347 Jul 84

An alpha-amylase inhibitor isolated from Streptomyces tendae, strain 4158 was re-purified by chromatography on CM- and DEAE-cellulose column. Two inhibitors could be characterized: alpha-amylase inhibitor Hoe-467 A (with aspartic acid as N-terminal residue), and alpha-amylase inhibitor Hoe-467 S (with serine as N-terminal residue). The primary structure was determined by automatic Edman-degradation procedures of the aziranized inhibitor and tryptic peptides, derived from digestions of the performic oxidized, aziranized and maleylated inhibitor, respectively. The alpha-amylase inhibitor Hoe-467 A consists of 74 residues and has a calculated molecular weight of 7958. It is composed of all common amino acids except methionine and phenylalanine. Digestion with pepsin was carried out to determine the disulfide bonds. Two fractions could be isolated, containing one cystine each giving information about the positions of the disulfide bridges. The possible clinical application of the inactivator (diabetes mellitus) is pointed out.
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PMID:[The sequence of the alpha-amylase inhibitor Hoe-467 A (alpha-amylase inactivator Hoe-467 A) from Streptomyces tendae 4158]. 616 65

Insulin adsorption isotherms on various materials have been measured to begin to clarify the role of material surface energy in insulin aggregation. Using 125I-insulin and direct gamma-counting of the exposed material, more insulin (per unit area) was adsorbed to hydrophobic materials (Teflon, Silastic) than to the hydrophilic ones (polyacrylamide, glass) from insulin solutions ranging from 0.1 to 100 U/ml. For example, after 30 min at room temperature, Teflon disks adsorbed 4.0 X 10(4) microU/cm2 and glass beads adsorbed 3.0 X 10(3) microU/cm2 from a phosphate-buffered, 100-U/ml solution (pH 7.4). The Teflon value exceeded, by a factor of six, an estimated plateau surface concentration based on the molecule area (750 A2), suggesting the occurrence of multilayer adsorption. Changing the buffer to acetate and lowering the pH to 3.5 resulted in an increased surface concentration, while the addition of glutamic or aspartic acid at pH 3.5 reduced the surface concentration to be comparable with that observed on glass and less than that observed on Teflon from phosphate buffer. Increasing the temperature to 37 degrees C resulted in a small decrease in adsorption, consistent with the exothermic adsorption of other proteins on similar materials. However, the significance of the adsorbed molecules in nucleating aggregate formation relative to other contributing factors remains to be assessed.
Diabetes 1984 Jul
PMID:Adsorption isotherms of insulin onto various materials. 637 22

Phase three of the Quebec Cooperative Study of Friedreich's Ataxia was devoted to an understanding of the physiopathology of individual symptoms on the basis of previously discovered biochemical leads. The present paper attempts to pull these results together by presenting, as a hypothesis, a unifying scheme of possible interactions and relationships. The central core of this hypothesis is the demonstration in Friedreich's ataxia of a state of mitochondrial energy deprivation. This is indirectly responsible for such associated and important symptoms as muscle weakness, dying-back neuropathy, scoliosis and hypertrophic cardiomyopathy. Secondarily, and possibly as an independent but linked-event, the entry of glucose into cells and pyruvate oxidation, are slowed down, favoring the development of diabetes. As a consequence, tissue concentrations of glutamic acid and aspartic acid are decreased, particularly in more vulnerable areas such as the cerebellum, brain stem and dorsal root ganglia. This tissue deficiency in putative excitatory neurotransmitters is directly responsible for the symptom of ataxia. This conclusion is reinforced by the correction of the ataxia in experimental animals, by the intraventricular injection of the same amino acids, and not by the injection of other stimulants of motricity. The observed mitochondrial energy deprivation could be the metabolic consequence of major changes in the linoleic acid (18.2) composition of inner mitochondrial membrane phospholipids, such as cardiolipin. Such decreases in membrane 18:2 could be the result of interference with the normal incorporation of this fatty acid to lipoproteins and/or cell membranes. It is at this level that the search for the specific enzyme defect in Friedreich's ataxia is continuing.
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PMID:Friedreich's ataxia 1980. An overview of the physiopathology. 678 90


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