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)

Insulin sensitivity of insulin dependent tissues (muscle, adipose tissue, liver) is subject to a variety of influences. Any change in insulin sensitivity is compensated in healthy subjects by a dynamic change in insulin secretion, which will decrease following a rise in insulin sensitivity and increase if insulin sensitivity is impaired (i.e. during insulin resistance induced by obesity, pregnancy, oral contraceptives, dehydration, saturated fatty acids, fever, drugs, etc.). In contrast to secondary insulin resistance idiopathic insulin resistance in type 2 diabetic individuals is associated with impaired insulin secretion, which thus is unable to overcome impaired insulin sensitivity. Idiopathic insulin resistance in type 2 diabetes is additionally characterized by reduced glucose storage, the basis of which may reside in an insulin receptor defect, in the presence of insulin receptor antibodies, in a postreceptor defect or in the synthesis of abnormal insulin molecules.
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PMID:[Insulin resistance]. 129 Mar 22

The application of molecular scanning techniques to the detection of potentially pathogenic mutations in candidate genes in patients with non-insulin-dependent diabetes has revealed a number of molecular variants of uncertain pathophysiologic significance. The determination of the significance of such variants requires large-scale population studies of the prevalence of the mutant in affected and control groups. Herein, we describe two adaptations of the technique of single nucleotide primer extension (SNuPE) which allow the simultaneous examination of large numbers of alleles at multiple loci. The usefulness of these adaptations is illustrated by their application to the simultaneous detection of three point mutations, two in the tyrosine kinase domain of the insulin receptor and one in the insulin-responsive glucose transporter (GLUT4) in a highly insulin-resistant NIDDM population. By pooling genomic or amplified DNA and performing the SNuPE reactions with three primers of different length we could readily examine 300 alleles on a single 20 lane gel. Using pooled SNuPE, we also examined a large British Caucasian control population for the prevalence of GLUT4 Ile383, a variant which has previously been reported only in NIDDM. GLUT4 Ile383 was detected in 2/42 of the highly insulin-resistant NIDDM subjects and 4/240 middle-aged blood donors. Family studies and examination of the expressed mutant transporter will be necessary to establish whether this mutation is of functional significance. Pooled and multiplex SNuPE are powerful techniques with wide applicability to population genetic studies of specific mutations.
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PMID:Rapid and simultaneous detection of multiple mutations by pooled and multiplex single nucleotide primer extension: application to the study of insulin-responsive glucose transporter and insulin receptor mutations in non-insulin-dependent diabetes. 130 12

Insulin resistance contributes to the pathogenesis of NIDDM. We have investigated the molecular mechanisms of insulin resistance in patients with genetic syndromes caused by mutations in the insulin-receptor gene. In general, patients with two mutant alleles of the insulin-receptor gene are more severely insulin-resistant than are patients who are heterozygous for a single mutant allele. These mutations can be put into five classes, depending upon the mechanisms by which they impair receptor function. Some mutations lead to a decrease in the number of insulin receptors on the cell surface. For example, some mutations decrease the level of insulin receptor mRNA or impair receptor biosynthesis by introducing a premature chain termination codon (class 1). Class 2 mutations impair the transport of receptors through the endoplasmic reticulum and Golgi apparatus to the plasma membrane. Mutations that accelerate the rate of receptor degradation (class 5) also decrease the number of receptors on the cell surface. Other mutations cause insulin resistance by impairing receptor function--either by decreasing the affinity to bind insulin (class 3) or by impairing receptor tyrosine kinase activity (class 4). The prevalence of mutations in the insulin receptor gene is not known. However, theoretical calculations suggest that approximately 0.1-1% of the general population are heterozygous for a mutation in the insulin-receptor gene; the prevalence is likely to be higher among people with NIDDM. Accordingly, it is likely that mutations in the insulin-receptor gene may be a contributory cause of insulin resistance in a subpopulation with NIDDM.
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PMID:Lilly Lecture: molecular mechanisms of insulin resistance. Lessons from patients with mutations in the insulin-receptor gene. 132 27

Obesity is a multifactorial disease with a marked genetic component. The situation is further complicated by the heterogeneity of obesity demonstrated by the topographical distribution of body fat, e.g. upper body (central) and lower body (gluteal) obesity. Furthermore, the distribution of fat shows a stronger heritable tendency compared with total body fat. Central obesity is characterized by hyperinsulinaemia and insulin resistance, a feature in common with non-insulin dependent diabetes mellitus, hypertension and atherosclerosis. In order to study the molecular genetics of central obesity we have examined 56 severely obese (mean body mass index 40), unrelated British Caucasoid young non-diabetic women for associations of restriction fragment length polymorphism of candidate genes with anthropometric measurements and indices of insulin secretion and resistance. The candidate genes examined were insulin receptor, insulin sensitive glucose transporter and insulin. An association of the class 3 allele of the hypervariable region in the 5' flanking region of the insulin gene was found with upper segment obesity (P = 0.005). Furthermore, the class 3 allele was also associated with fasting hyperinsulinaemia (P = 0.01), stimulated insulin secretion (P = 0.01) and insulin resistance as calculated from the homeostatic model of assessment (HOMA; P = 0.008). No such associations were found with the other candidate genes studied. This data suggests that polymorphisms in the 5' flanking region of the insulin gene may affect expression of the gene and thereby modulate insulin production in severely obese female subjects.
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PMID:Central obesity and hyperinsulinaemia in women are associated with polymorphism in the 5' flanking region of the human insulin gene. 135 60

Non-insulin-dependent diabetes mellitus (NIDDM) is an important health problem in the black population of southern Africa. Whether the primary cause of NIDDM is insulin secretory dysfunction or peripheral insulin resistance is unknown. In westernised populations it is believed that insulin resistance and hyperinsulinaemia occur in the early stages of disease, followed later by progressive impairment of insulin secretion. However, we suggest that in the southern African black population a decrease in the mass of functioning beta cells is an important event, making these people vulnerable to the deleterious effects of insulin resistance induced by obesity and other factors. These abnormalities are, in turn, associated with insulin receptor down-regulation. An accelerated decline in beta-cell function then follows in susceptible individuals, ultimately producing striking insulinopenia. Insulinopenic NIDDM in black southern Africans may partly explain why this population has a comparatively low incidence of macrovascular complications and also predicts a short-lived therapeutic response to oral sulphonylureas in most patients.
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PMID:Pathogenesis of non-insulin-dependent diabetes mellitus in the black population of southern Africa. 135 91

Weight reduction in non-insulin dependent diabetes mellitus (NIDDM) patients improves metabolic control, reduces cardiovascular risk factors, has blood pressure lowering effects and improves the well-being of the patient. This paper describes the role of very low calorie diets (VLCD), exercise, beta-adrenergic drugs and serotoninergic agents in the treatment of overweight in NIDDM. VLCD reduce body weight and improve glucose metabolism. Physical exercise programmes in addition to dietary restriction substantially contribute to weight loss and metabolic control in NIDDM. New specific beta-adrenergic agents, exhibiting virtually no beta 1 or beta 2 activity, increase energy expenditure and weight loss probably by enhancement of the basal metabolic rate. The target tissue in humans of this beta-adrenergic effect is as yet unknown. These drugs seem to enhance weight loss when used in combination with (very) low calorie diets compared to dietary restriction alone. Serotoninergic drugs reduce body weight by decreasing appetite, in particular for carbohydrates. Furthermore these drugs seem to improve insulin receptor sensitivity.
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PMID:Very low calorie diets and recently developed anti-obesity drugs for treating overweight in non-insulin dependent diabetics. 136 97

Diabetes may be associated with many genetic disorders. The scientific importance of these often rare disorders resides in the insight they may provide into the possible mechanisms of common diabetes. The type of diabetes varies in these syndromes. Non-insulin-dependent diabetes (NIDDM), clinically similar to common NIDDM, may be found in some syndromes (e.g. Werner's syndrome). In others there may be considerable insulin resistance, such as that present in ataxia telangiectasia. Extreme insulin resistance due to abnormal insulin receptor function is found in the Mendenhall syndrome. The mechanism of diabetes is more obscure in acute intermittent porphyria (AIP), although haem deficiency affecting the cytochrome chain raises interesting possibilities. In glycogen storage disease type I, the diabetes is associated with insulinopenia, following an earlier period in the disease when hypoglycaemia is the rule. IDDM, clinically similar to the common form, is present in the autoimmune polyglandular syndromes. Although a change in the lean:fat ratio is common in many neuromuscular disorders, mechanisms other than insulin resistance would seem to operate. The increased incidence of diabetes in heterozygotes for some of these genetic disorders raises the possibility that many common diabetics are, in fact, heterozygotes for some other disorder. The increased frequency of diabetes in Klinefelter's syndrome, Turner's syndrome and possibly Down's syndrome leads to the hypothesis that non-disjunction may, in some way be associated with the predisposition to diabetes. In several syndromes there is an increased incidence of diabetes in otherwise unaffected relatives of individuals with these syndromes. It is impossible to assess what proportion of common NIDDM or IDDM is made up of heterozygotes for these genetic syndromes.
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PMID:Diabetes secondary to genetic disorders. 144 74

Peripheral insulin resistance is suggested to play an important role in the pathogenesis of type II diabetes mellitus. In this study we investigated insulin receptor binding, D-glucose transport under equilibrium conditions for insulin and the activation kinetics of insulin stimulated D-glucose transport in isolated human adipocytes from type II diabetics and healthy controls. While the insulin receptor binding affinity was not significantly different between both groups, basal and insulin stimulated glucose transport rates were reduced in adipocytes from type II diabetics compared to normal controls. The activation of D-glucose transport was significantly delayed in the diabetics, the time to achieve maximal transport rates was 7.7 +/- 1.1 vs. 4.2 +/- 1.4 min, respectively (p < 0.05). Thus a reduced velocity of glucose transport activation by insulin appears to be a further factor contributing to peripheral insulin resistance in type II diabetics.
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PMID:Delayed activation of D-glucose transport in type II diabetes mellitus. 149 Jun 87

The syndromes of insulin resistance are a group of clinically diverse disorders, and our understanding of their molecular pathogenesis has advanced in parallel with our understanding of the structure of the insulin receptor and the mechanism of insulin action. The most straightforward progress has related to defining the role of both anti-receptor antibodies and mutations in the insulin receptor gene in causing these disorders. Despite this progress, the cause of severe target cell resistance in patients without defects in the receptor locus remains unknown, and we are limited in our ability to relate specific molecular defects in insulin signalling to in vivo phenotypes, such as those relating to growth and development and function of adipose tissue and muscle. Answers to these questions may ultimately be explained by the existence of multiple species of insulin receptors expressed in different tissues, brought about by alternative splicing and receptor hybrids, and by divergent pathways of insulin signalling with different consequences for specific tissues. The possibility that the insulin receptor and GLUT4 may be candidate genes for inherited insulin resistance in NIDDM has been addressed with the aid of genetic screening techniques such as SSCP. Currently, the loci have not been implicated in studies in most patients. Transgenic methodologies will be powerful tools for pursuit of unanswered questions in the field of insulin resistance in coming years.
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PMID:Lilly Lecture: syndromes of insulin resistance. From patient to gene and back again. 149 71

Polymorphisms occur on the average of one out of every 500 base pairs of DNA, and these polymorphisms provide useful markers for genetic analysis. Hundreds of RFLP markers have been mapped at regular intervals throughout the human genome. Diabetes genes have not been mapped with these markers, however, only one MODY family has been partially evaluated. This type of analysis is further complicated if NIDDM is multigenic and/or polygenic. RFLPs have been used to evaluate specific candidate loci for NIDDM, e.g. the insulin, insulin receptor and glucose transporter genes. For these analyses, population and family studies (limited in number) have suggested that none of these loci are major contributors to the genetic susceptibility to NIDDM. In no case, however, could a contribution of 10% or less of these loci be confidently excluded, because of variable penetrance, different degrees of linkage disequilibrium between RFLPs and putative mutations, the frequencies of the RFLPs in non-diabetic populations, and inadequate sample size. The conclusions are clear: either (1) the correct candidate gene(s) has not been found, or (2) sample sizes need to be increased by at least an order of magnitude, or (3) newer methods of analysis must be adopted (e.g. use of extended haplotypes and associations with subphenotypes, or screening with allele specific oligonucleotide probes, denaturing gradient gel electrophoresis or direct genomic sequencing of polymerase chain reaction amplified DNA).
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PMID:Use of DNA polymorphisms for genetic analysis of non-insulin dependent diabetes mellitus. 167 85


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