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:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the search for diabetes genes, the combined approaches of positional cloning with random markers and subsequent evaluation of candidate genes mapping to areas of interest will be increasingly used. For islet candidate genes of unknown function, expressed trinucleotide (triplet) repeats represent a unique subset. It is unlikely that abnormal expansion of expressed islet triplet repeats would be a major cause of diabetes, yet the triplet repeats are frequently polymorphic and can thus be used to map the genes in the human genome. In this study, a human islet cDNA library was screened with (CGG)7 and (CAG)7, and 23 triplet repeats were isolated. Sequencing revealed four known and six novel islet genes containing 4-15 triplet repeats. The four known cDNAs included ferritin, the major iron-binding protein in cells; HSGSA2R, a full-length clone of the alpha-subunit of the G-regulatory protein; HUMSATB1A, a DNA-binding protein expressed predominantly in thymus; and HUMPPA-PRO, a ribosomal protein. The triplet repeats in ferritin and HUMPPAPRO were found to be monomorphic. Characterization of the six unique novel expressed islet triplet cDNAs revealed that they were 0.6-1.5 kb in size, contained 4-15 triplet repeats, and were expressed in islets and all other tissues examined. Four of the novel clones, CGG-isl 10, CGG-isl 11, CAG-isl 6, and CAG-isl 7, were mapped to human chromosomes 19, 16, 12, and 3, respectively, via somatic cell hybrids. One islet cDNA, CAG-isl 7, contained a repeat that was highly polymorphic, with 14 alleles (4-18 triplets) in African-Americans (heterozygosity = 0.86) and 6 alleles (heterozygosity = 0.77) in whites. Northern analysis indicated that the mRNA was abundant in pancreatic islets. A putative full-length clone contained an open reading frame encoding 213 amino acids with a variable number of alanines (4-18) within the COOH-terminal. The gene was uniquely mapped with odds > 1,000:1 on chromosome 3p in Centre d'Etude du Polymorphisme Humain pedigrees. There were no differences in CAG-isl 7 allele frequencies between African-American patients with NIDDM (n = 108) and control subjects (n = 116), nor was expansion above 18 repeats noted. Linkage analysis in 14 nonglucokinase maturity-onset diabetes of the young pedigrees showed a cumulative logarithm of odds score of -33.19 at theta = 0.00. Abnormal expansion was not observed in 20 IDDM patients with one NIDDM parent. While these data suggest no major role for CAG-isl 7 in diabetes, at least four of the six novel islet triplet genes are coexpressed in pancreatic islets and neural tissue, and these genes can now be considered as candidates for diabetes and/or neuropsychiatric diseases.
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PMID:Identification of trinucleotide repeat-containing genes in human pancreatic islets. 854 59

Amyloid deposits are found in pancreatic islets of 90% of type 2 (non-insulin-dependent) diabetic subjects at postmortem. Islet amyloid is formed from islet amyloid polypeptide (IAPP). IAPP is a 37 amino acid peptide which is a normal constituent of beta cells and is co-secreted with insulin in animals and in man. The causative factors for fibrillogenesis of IAPP are unclear, but could be related to the sequence of IAPP and abnormal production of the peptide. The lack of islet amyloid in rodent models of diabetes is due to proline substitutions in the amyloidogenic region of IAPP. Amyloid fibrils are deposited between beta cells and islet capillaries: fibrils in invaginations of the plasma membrane may interfere with membrane signalling and insulin release. Amyloid fibrils are formed within 2 days in culture in islets isolated from transgenic mice expressing the gene for human IAPP, but not in vivo. Overexpression and decreased clearance of human IAPP from islet spaces may be important factors. Progressive deposition of IAPP fibrils combined with the associated reduction in the insulin-secreting beta cells is likely to contribute to deterioration of islet function in the course of type 2 diabetes.
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PMID:Islet amyloid in type 2 (non-insulin-dependent) diabetes. 864 52

Insulin lispro, a recombinant insulin analogue, is identical to human insulin except for the transposition of proline and lysine at positions 28 and 29 in the C-terminus of the B chain. The resultant reduced capacity for self-association in solution translates into more rapid absorption of insulin lispro than human regular insulin from subcutaneous sites. Maximum insulin concentrations are higher and are reached earlier with insulin lispro than with human regular insulin, and insulin concentrations return to baseline values more quickly with insulin lispro; consequently, insulin lispro has a more rapid onset and a shorter duration of glucose-lowering activity. These pharmacological properties provided the rationale for comparative clinical trials of subcutaneous insulin lispro (administered within 15 minutes before meals, preferably immediately before meals) and subcutaneous human regular insulin (administered 20 to 45 minutes before meals) in patients with type 1 diabetes (insulin-dependent diabetes mellitus) or type 2 diabetes (non-insulin-dependent diabetes mellitus) requiring premeal insulin therapy plus basal insulin therapy. Available clinical trials are well designed and results suggest that 1- and 2-hour postprandial blood glucose levels with insulin lispro are similar to or lower than those with human regular insulin; 1- and 2-hourpostprandial glucose excursions are similar to or less pronounced than those with human regular insulin. Glycated haemoglobin A values were generally similar with both agents. Continuous subcutaneous insulin infusion was associated with greater improvements in postprandial blood glucose levels and glycated haemoglobin A1 values with insulin lispro than with human regular insulin. Confirmatory data are required. The incidence of hypoglycaemia with insulin lispro was similar to or lower than that with human regular insulin. In particular insulin lispro appears to be associated with a lower incidence of night-time and severe hypoglycaemic episodes. Evidence also suggests that patients perceive their quality of life to be improved with insulin lispro compared with human regular insulin, and that satisfaction with treatment is greater with the insulin analogue. Thus, in patients with type 1 or 2 diabetes requiring premeal insulin therapy, insulin lispro appears to provide greater postprandial glycaemic control than human regular insulin without increasing the risk of hypoglycaemia. Furthermore, the reduced injection-meal interval with this agent offers greater convenience for the patient than regular human insulin. If longer term clinical experience supports these promising results it is likely that insulin lispro will offer important advantages over human regular insulin.
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PMID:Insulin lispro: a review of its pharmacological properties and therapeutic use in the management of diabetes mellitus. 933 63

Glucokinase plays an important role in regulating insulin secretion in response to changes in blood glucose levels. As a result, one form of maturity onset diabetes of the young (MODY) results from haploinsufficiency of glucokinase. In both liver and pancreatic islet, glucokinase is allosterically regulated by an inhibitory protein (glucokinase regulatory protein, GCKR). GCKR has therefore become an important gene for functional analysis in type 2 diabetes. To allow genetic assessment of any such role, we have determined the structure of the human GCKR gene. Characterization of P1 and YAC clones containing GCKR shows it to consist of 19 exons spanning 27 kb. RT-PCR, RACE, and RNase protection experiments defined a transcriptional start site for GCKR 66 bp upstream of the initiation codon, but provided no evidence for islet cell specific alternative splicing in the rat. By SSCP screening, a common polymorphic sequence variant has been defined within exon 15 of human GCKR, at nt 1400 of the cDNA. This alters amino acid residue 446 from proline, conserved in rat and Xenopus, to leucine.
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PMID:Organization of the human glucokinase regulator gene GCKR. 957 Sep 59

Vegetative incompatibility in fungi results from the control of heterokaryon formation by the genes present at het loci. Coexpression of antagonistic het genes in the same hyphae leads to a lethal process. In Podospora anserina, self-incompatible strains containing nonallelic incompatible genes in the same nucleus are inviable as the result of a growth arrest and a lytic process. Mutations in suppressor genes (mod genes) can restore the viability. These mod mutations also interfere with developmental processes, which suggests common steps between the incompatibility reaction and cellular differentiation. The mod-A locus, responsible for growth arrest in the self-incompatible strains, is also involved in the control of the development of female organs. The mod-A gene was isolated. An open reading frame 687 amino acids long was identified. The MOD-A-encoded polypeptide is rich in proline residues, which are clustered in a domain containing a motif that displays similarity to SH3-binding motifs, which are known to be involved in protein-protein interactions. Construction of a strain deleted for mod-A confirmed that the product of this gene involved in differentiation is a key regulator of growth arrest associated with vegetative incompatibility.
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PMID:The mod-A suppressor of nonallelic heterokaryon incompatibility in Podospora anserina encodes a proline-rich polypeptide involved in female organ formation. 961 Dec 2

Insulin lispro is an analog of human insulin created when the amino acids at positions 28 and 29 of the B-chain of insulin are reversed. The natural sequence in human insulin at these positions is proline at B28 and lysine at B29. At physiologic concentrations, insulin lispro exists in solution as a monomer. As such, it's rate of absorption from subcutaneous sites of injection is greater that of regular insulin. The pharmacokinetic and pharmacodynamic profiles of insulin lispro indicate that it is more rapid-acting, and therefore a more physiological mealtime insulin than regular insulin. In addition, it shows a shorter duration of activity, approximately up to 5 hours. Insulin lispro given 0 to 15 minutes before the meal translate into better glycemic control and less hypoglycemia risk in clinical studies either in type 1 or type 2 diabetes when compare with regular human insulin given 30-45 minutes before meals.
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PMID:[Spanish experience with insulin lispro]. 971 Sep 93

Peroxisome proliferator activated receptor-gamma (PPARgamma) is a nuclear receptor that regulates adipocyte differentiation and possibly lipid metabolism and insulin sensitivity. Therefore, PPARgamma is a promising candidate gene for several disorders including diabetes, obesity, and dyslipoproteinemia. Screening for mutations in the entire coding region of the PPARgamma gene yielded a missense C --> G mutation at codon 12, resulting in the substitution of proline with alanine (Pro12Ala). The objective of our study was to examine the relationship between this genetic variant and diabetes and associated diseases in a large group of patients with type 1 (n = 522) and type 2 (n = 503) diabetes. Allelic frequencies of the PPARgamma2 12Ala allele were similar between patients with either type of diabetes and comparable to that in healthy controls (n = 310). There was also no significant relationship between dyslipoproteinemia or obesity and the PPARgamma2 Pro12Ala genotype. Thus, our data, in this large and ethnically homogenous group of patients, do not support the hypothesis that this genetic variant is strongly associated with diabetes, obesity, or dyslipidemia in patients with type 1 or type 2 diabetes mellitus. This genetic marker is therefore unlikely to serve as a clinically useful predictor of these disorders in Caucasian patients with diabetes mellitus.
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PMID:Pro12Ala missense mutation of the peroxisome proliferator activated receptor gamma and diabetes mellitus. 991 59

Mutations in the gene encoding hepatic nuclear factor-1alpha (HNF-1alpha) have been found in patients with maturity-onset diabetes of the young. We identified a new variant in the HNF-1alpha gene, namely G319S, in Ontario Oji-Cree with type 2 diabetes. G319S is within the proline II-rich domain of the trans-activation site of HNF-1alpha and alters a glycine residue that is conserved throughout evolution. S319 was absent from 990 alleles taken from subjects representing six other ethnic groups, suggesting that it is private for Oji-Cree. We found that 1) the S319 allele was significantly more prevalent in diabetic than nondiabetic Oji-Cree (0.209 vs. 0.087; P = 0.000001); 2) S319/S319 homozygotes and S319/G319 heterozygotes, respectively, had odds ratios for type 2 diabetes of 4.00 (95% confidence interval, 2.65-6.03) and 1.97 (95% confidence interval, 1.44-2.70) compared with G319/G319 homozygotes; 3) there was a significant difference in the mean age of onset of type 2 diabetes, with G319/G319, S319/G319, and S319/S319 subjects affected in the fifth, fourth, and third decades of life, respectively. In subjects with type 2 diabetes, we also found significantly lower body mass index and significantly higher post-challenge plasma glucose in S319/S319 and S319/G319 compared with G319/G319 subjects. Finally, among nondiabetic subjects, S319/G319 heterozygotes had significantly lower plasma insulin than G319/G319 homozygotes. The presence of the private HNF-1alpha G319S variant in a large number of Oji-Cree with type 2 diabetes and its strong association with type 2 diabetes susceptibility are unique among human populations. Also, G319S is associated with a distinct form of type 2 diabetes, characterized by onset at an earlier age, lower body mass, and a higher postchallenge plasma glucose.
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PMID:The hepatic nuclear factor-1alpha G319S variant is associated with early-onset type 2 diabetes in Canadian Oji-Cree. 1008 98

Type 2 diabetes mellitus is a common disabling disease with onset in middle-aged individuals, caused by an imbalance between insulin production and action. Genetic studies point to major genetic components, but, with the exception of maturity-onset diabetes of the young (MODY), specific diabetes susceptibility genes remain to be identified. Recent studies showed that a dominant negative mutation in the insulin promoter factor-1 (IPF-1), a pancreatic beta-cell specific transcription factor, causes pancreatic agenesis and MODY. Thus, we investigated 192 French, non-MODY type 2 diabetic families for mutations in IPF-1. We identified 3 novel IPF-1 mutations, including 2 substitutions (Q59L and D76N) and an in-frame proline insertion (InsCCG243). Functional transactivation assays of these IPF-1 mutant isoforms in a beta-pancreatic tumor cell line transfected with a transcriptional reporter and IPF-1 expression plasmids demonstrate a significant inhibition of basal insulin promoter activity (stronger with the InsCCG243 mutant). We find that the InsCCG243 mutation is linked, in 2 families, to an autosomal dominant-like late-onset form of type 2 diabetes, in which insulin secretion becomes progressively impaired. The lower penetrance D76N and Q59L mutations were more prevalent and were associated with a relative risk of 12.6 for diabetes and with decreased glucose-stimulated insulin-secretion in nondiabetic subjects. We propose that IPF-1 mutations can cause MODY or apparently monogenic late-onset diabetes and that they represent a significant risk factor for type 2 diabetes in humans.
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PMID:Defective mutations in the insulin promoter factor-1 (IPF-1) gene in late-onset type 2 diabetes mellitus. 1054 31

Genetic association studies are viewed as problematic and plagued by irreproducibility. Many associations have been reported for type 2 diabetes, but none have been confirmed in multiple samples and with comprehensive controls. We evaluated 16 published genetic associations to type 2 diabetes and related sub-phenotypes using a family-based design to control for population stratification, and replication samples to increase power. We were able to confirm only one association, that of the common Pro12Ala polymorphism in peroxisome proliferator-activated receptor-gamma(PPARgamma) with type 2 diabetes. By analysing over 3,000 individuals, we found a modest (1.25-fold) but significant (P=0.002) increase in diabetes risk associated with the more common proline allele (85% frequency). Moreover, our results resolve a controversy about common variation in PPARgamma. An initial study found a threefold effect, but four of five subsequent publications failed to confirm the association. All six studies are consistent with the odds ratio we describe. The data implicate inherited variation in PPARgamma in the pathogenesis of type 2 diabetes. Because the risk allele occurs at such high frequency, its modest effect translates into a large population attributable risk-influencing as much as 25% of type 2 diabetes in the general population.
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PMID:The common PPARgamma Pro12Ala polymorphism is associated with decreased risk of type 2 diabetes. 1097 53


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