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:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of okadaic acid, an inhibitor of protein phosphatases-1 and -2A, was studied on glucose transport and metabolism in soleus muscles isolated from lean and insulin-resistant obese mice. In muscles from lean mice, the uptake of 2-deoxyglucose, an index of glucose transport and phosphorylation, was increased by okadaic acid in a concentration-dependent manner. At 5 microM, okadaic acid was as efficient as a maximally effective insulin concentration. Glucose metabolism (glycolysis and glycogen synthesis) was also measured. Whereas glycolysis was stimulated by okadaic acid, glycogen synthesis was unchanged. When okadaic acid and insulin were added together in the incubation medium, the rates of glucose transport, glycolysis, and glycogen synthesis were similar to those obtained with insulin alone, whether maximal or submaximal insulin concentrations were used. Furthermore, okadaic acid did not activate the kinase activity of the insulin receptor studied in an acellular system or in intact muscles. These results indicate that a step in the insulin-induced stimulation of muscle glucose transport involves a serine/threonine phosphorylation event that is regulated by protein phosphatases-1 and/or -2A. In muscles of insulin-resistant obese mice, the absolute values of deoxyglucose uptake stimulated by okadaic acid were lower than in muscles from lean mice. However, the okadaic acid effect, expressed as a fold stimulation, was normal. These observations suggest that in the insulin-resistant state linked to obesity, the serine/threonine phosphorylation event is likely occurring normally, but a defect at the level of the glucose transporter itself would prevent a normal response to insulin or okadaic acid.
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PMID:Effects of okadaic acid, an inhibitor of protein phosphatases-1 and -2A, on glucose transport and metabolism in skeletal muscle. 184 12

Obesity is a major nutritional disorder that produces many abnormal metabolic responses. The effect of injury-induced stresses acting synergistically with the state of excessive body fat is not well known. Plasma levels of circulating free amino acids reflect the net status of protein breakdown and utilization. Hypoaminoacidemia is a common finding in severe injury and its significance in obese subjects was investigated. We measured in 10 obese (body mass index [BMI] greater than 30) and 10 non-obese (BMI less than 30) traumatized (Injury Severity Score [ISS] 17 to 50) patients, the plasma levels of free amino acids in the early "flow" phase of injury when subjects were receiving maintenance fluids without calories or nitrogen. Postabsorptive control samples were obtained from 10 obese and 10 non-obese volunteers. Obese controls showed an increase in valine, leucine, isoleucine, and glutamic acid levels, and a decrease in glycine, tryptophan, threonine, histidine, taurine, citrulline, and cystine levels compared with lean controls. Hypoaminoacidemia was equally seen in traumatized obese and non-obese patients, and it was mainly due to a 24% decrease in nonessential amino acids. Remarkably, essential amino acid levels were the same in all groups. Arginine and ornithine levels were significantly different in traumatized obese compared with non-obese patients. The hypoglycinemia seen in non-obese trauma patients was absent in obese patients. The changes in levels of sulphur-containing amino acids also suggest that monitoring of these levels should be included in the nutritional management of obese trauma patients.
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PMID:Altered plasma free amino acid levels in obese traumatized man. 201 Oct 79

A survey of fasting whole blood amino acids in 65 patients with various subtypes of retinitis pigmentosa performed. Eight X-linked recessive patients showed decreased taurine and aspartate. Nineteen autosomal recessive patients, and to lesser extent 10 autosomal dominant patients, showed reduced levels of whole blood threonine and histidine. Branched-chain amino acids and arginine were present in increased amounts in 2 patients with Laurence-Moon-Bardet-Biedl syndrome. These findings in LMBB patients are probably related in part to their obesity and emphasise that appropriate controls are required, and other factors (including age) known to affect amino acid levels must be accounted for. The biochemical implications of our findings are not yet apparent.
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PMID:Amino acids in retinitis pigmentosa. 729 29

Tumor necrosis factor-alpha (TNF) has been suggested to be the mediator of insulin resistance in infection, tumor cachexia, and obesity. We have previously shown that TNF diminishes insulin-induced tyrosine phosphorylation of insulin receptor substrate 1 (IRS-1). The current work examines potential mechanisms that mediate this event. TNF effect on IRS-1 in Fao hepatoma cells was not associated with a significant reduction in insulin receptor tyrosine kinase activity as measured in vitro but impaired the association of IRS-1 with phosphatidylinositol 3-kinase, localizing TNF impact to IRS-1. TNF did not increase protein-tyrosine phosphatase activity and protein-tyrosine phosphatase inhibition by vanadate did not change TNF effect on IRS-1 tyrosine phosphorylation, suggesting that protein-tyrosine phosphatases are not involved in this TNF effect. In contrast, TNF increased IRS-1 phosphorylation on serine residues, leading to a decrease in its electrophoretic mobility. TNF effect on IRS-1 tyrosine phosphorylation was not abolished by inhibiting protein kinase C using staurosporine, while inactivation of Ser/Thr phosphatases by calyculin A and okadaic acid mimicked it. Our data suggest that TNF induces serine phosphorylation of IRS-1 through inhibition of serine phosphatases or activation of serine kinases other than protein kinase C. This increased serine phosphorylation interferes with insulin-induced tyrosine phosphorylation of IRS-1 and impairs insulin action.
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PMID:Tumor necrosis factor alpha-induced phosphorylation of insulin receptor substrate-1 (IRS-1). Possible mechanism for suppression of insulin-stimulated tyrosine phosphorylation of IRS-1. 755 52

Studies involving genetically and nutritionally induced diabetes in animals indicate that early hyperinsulinaemia is the causative factor of tissue insulin resistance, leading to compensatory insulin oversecretion and pancreatic beta-cell dysfunction. The models for this syndrome, which occurs in association with obesity (thus termed "diabesity" here), concern either species with a sturdy pancreas, capable of long-lasting oversecretion, or those with labile beta cells which cannot sustain the initial oversecretion due to genomic modifiers enhancing gluco- or lipotoxicity. Examples of the latter are db/db mice mutants and desert gerbils susceptible to overnutrition, i.e. Psammomys obesus (sand rats). The latter also comprise spiny mice (Acomys cahirinus) which do not manifest resistance. They are low insulin secretors and accumulate insulin in beta cells which may disintegrate, producing insulin-deficiency. P. obesus is characterised by low insulin-receptor density. On a high energy diet, the capacity of insulin to activate receptor tyrosine kinase (TK) is reduced, concomitant with hyperinsulinaemia. With subsequent hyperglycaemia, a vicious circle of insulinaemia-glycaemia accentuates TK activation failure. This is attributable to multisite phosphorylation, including serine and threonine on the receptor b-subunit, which are inhibitory to TK activity. The compromised TK activation is reversible by diet restriction and normoinsulinaemia restoration. Similar receptor TK malfunction is seen in other animal species with diabesity. Hyperinsulinaemia has also been shown to cause a variety of detrimental effects in vitro and in vivo. The beta-cell response to long-lasting stimulation and the receptor malfunction in diabesity have implications for a similar etiology in human insulin-resistance syndrome and non-insulin-dependent diabetes mellitus, particularly in populations emerging into nutritional abundance. It is postulated that the "thrifty gene" is focused on receptor TK, whose reduced function is the primary phenotypic expression of protracted hyperinsulinaemia.
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PMID:Development and consequences of insulin resistance: lessons from animals with hyperinsulinaemia. 879 92

Isolated ventricular cardiomyocytes obtained from lean and genetically (fa/fa) obese Zucker rats were used to correlate alterations of insulin-induced glucose transport activation and GLUT-4 translocation to possible defects of the insulin signaling cascade. Maximal stimulation with insulin was found to produce an unaltered translocation of GLUT-4 to the plasma membrane (4.2- and 3.7-fold increase for lean and obese rats, respectively). However, a largely reduced sensitivity of 3-O-methylglucose transport could be detected in obese rats at physiological doses of insulin (completely unresponsive at 8 x 10(-11) M compared with 3-fold stimulation of glucose transport in lean controls). Tyrosine phosphorylation of the insulin receptor beta-subunit and the insulin receptor substrate 1 (IRS-1) was stimulated identically in cardiomyocytes from both lean and obese rats. Labeling of cells with [33P]orthophosphate revealed a marked increase in the serine and/or threonine phosphorylation of IRS-1 in the obese group (370% of lean controls), with a concomitant reduction in IRS-1 abundance (30-40%). The reduced sensitivity of glucose transport at 8 x 10(-11) M insulin was then found to correlate to a completely blunted response of IRS-1-associated phosphatidylinositol 3-kinase activity in cardiomyocytes from obese rats. Those data show that cardiac insulin resistance of obesity involves defective insulin signaling at low concentrations of the hormone, whereas GLUT-4 translocation is fully operative in the isolated cell. It is suggested that hyperphosphorylation of IRS-1 may significantly contribute to the pathogenesis of insulin resistance in the heart.
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PMID:Molecular analysis of insulin resistance in isolated ventricular cardiomyocytes of obese Zucker rats. 925 80

Fatty acid binding protein 2 gene (FABP2) has been proposed to be an important candidate gene for insulin resistance; therefore, it also could be a promising candidate gene for obesity. We screened the whole coding region of the FABP2 gene in 40 obese nondiabetic Finnish subjects. Furthermore, we investigated the effects of the codon 54 polymorphism of this gene (Ala-->Thr) on insulin levels and basal metabolic rate in 170 obese subjects. The frequencies of the variants found in exon 4 (GTA-->GTG) and 3'-noncoding region (GCGCA-->GCACA), as well as the allele frequencies for the variable lengths of the ATT repeat sequence in intron 2 did not differ between the obese subjects and nonobese controls. The frequency of threonine-encoding allele in codon 54 of the FABP2 gene did not differ between obese and control subjects (28 vs. 29%, respectively). In the obese group there were no differences in gender distribution, age, weight, body mass index, lean body mass, percentage of body fat, waist circumference, and waist-to-hip ratio among the individuals homozygous for Ala54, heterozygous for Thr54, and homozygous for Thr54-encoding alleles. Similarly, fasting serum insulin, glucose, lipids and lipoprotein concentrations, basal metabolic rate (adjusted for lean body mass and age), respiratory quotient, and rates of glucose and lipid oxidation did not differ among the groups. We conclude that obesity is not associated with specific variants in the FABP2 gene. Furthermore, the codon 54 Ala to Thr polymorphism of this gene does not influence insulin levels or basal metabolic rate in obese Finns.
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PMID:Variants in the human intestinal fatty acid binding protein 2 gene in obese subjects. 925 45

Uncoupling protein-1 (UCP-1) activity in brown adipose tissue increases thermogenesis, contributes to facultative energy expenditure in humans, and has been implicated in the pathogenesis of rodent obesity. To determine genetic factors controlling UCP-1 expression in humans, we measured intra- and extraperitoneal UCP-1 mRNA abundance levels by a competitive RT-PCR method and compared expression levels with common sequence variations in the beta3-adrenergic receptor gene and the distal UCP-1 gene promoter in obese human subjects. While median and average UCP-1 mRNA levels in both the intra- and extraperitoneal tissue were lower in subjects heterozygous for the Trp64Arg mutation in the beta3-adrenergic receptor gene, this difference was not statistically significant. However, a strong association of intraperitoneal UCP-1 mRNA abundance with the UCP-1 gene polymorphism at -3826 relative to the transcription start site was observed that explained 19.3% of the interindividual variability. The minor allele imparted a dose-dependent reduction on UCP gene expression. The importance of sequence variations at the UCP-1 gene locus as a common source of UCP-1 mRNA abundance variability was supported by allele-specific expression studies utilizing a newly identified polymorphism in exon 2 of the UCP-1 gene that predicts a substitution of alanine by threonine. In four subjects heterozygous for the -3826 polymorphism, the mRNA species transcribed from the wild-type allele accounted for 63+/-6% percent of total intraperitoneal mRNA abundance. In one subject homozygous for the minor promoter allele, wild-type mRNA was also more abundant than variant mRNA. Thus, the UCP-1 polymorphism at -3826 is probably only a marker for a frequent mutation causing reduced mRNA expression.
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PMID:Uncoupling protein-1 mRNA expression in obese human subjects: the role of sequence variations at the uncoupling protein-1 gene locus. 955 47

Uncoupling protein 2 (UCP2), a member of the family of mitochondrial carrier proteins, has been implicated in the control of whole-body energy balance. The coding region of the human UCP2 gene has now been shown to comprise six exons, and the sequences of the exon-intron boundaries were determined. With the use of this sequence information, 25 Japanese patients with obesity and noninsulin-dependent diabetes mellitus (NIDDM) and 25 subjects with simple obesity were screened for mutations in the entire coding region of UCP2 by PCR and single-strand conformation polymorphism analysis. Two nucleotide polymorphisms resulting in Ala55 --> Val and Ala232 --> Thr substitutions were detected. With the use of PCR and restriction fragment length polymorphism analysis, the allele frequencies for each of these polymorphisms were determined in 210 Japanese patients with NIDDM, 42 obese individuals, and 218 normal control subjects. The frequency of the Val55 allele did not differ significantly among the NIDDM group (46.0%), the obesity group (48.8%), and the normal control group (48.4%). The Thr232 allele was detected in only three subjects, who were heterozygotes and in the NIDDM group (allele frequency, 0.7%). However, expression in yeast of the human wild-type UCP2 protein and UCP2 containing Thr232 revealed no difference in functional activity. These results indicate that the Ala55 --> Val and Ala232 --> Thr variants of UCP2 do not play an important role in the pathogenesis of NIDDM or obesity in the Japanese population.
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PMID:Molecular screening of uncoupling protein 2 gene in patients with noninsulin-dependent diabetes mellitus or obesity. 970 50

The melanocortin-4 receptor gene (MC4-R) has been implicated in weight regulation. Recently, two independent groups reported frameshift mutations associated with a dominant form of obesity (1, 2). We screened the coding region of the MC4-R in 306 extremely obese children and adolescents (mean body mass index: BMI 34.4 +/- 6.6 kg/m2), 25 healthy underweight students (mean BMI 17.1 +/- 0.8 kg/m2), 52 normal weight individuals (mean BMI 22.0 +/- 1.0 kg/m2), 51 inpatients with anorexia nervosa (AN, DSM IV criteria, mean BMI 14.3 +/- 1.5 kg/m2) and 27 patients with bulimia nervosa (BN, DSM IV criteria, mean BMI 21.7 +/- 5.8 kg/m2) by single strand conformation polymorphism analysis (SSCP). Several mutations were identified, including the frameshift mutation described (1). The mutations were as follows: a) The deletion of 4 bp (delta of CTCT at codon 211) results in a frameshift, thus rendering a truncated protein. This mutation has been assumed to be associated with dominantly-inherited morbid obesity in humans (1). Both the index patient (BMI 42.06 kg/m2, height 171 cm, age 19.6 years) and her mother (BMI 37.55 kg/m2, height 164 cm, age 42.5 years) were heterozygous for the deletion. b) A nonsense mutation at position 35 of the MC4-R was detected in two obese probands (BMI 31.29 kg/m2 and BMI 45.91 kg/m2). This mutation leads to a truncated protein that encompasses the N-terminal extracellular domain. Both carriers additionally showed (c) a missense mutation (Asp-37-Val). In both of these cases Tyr-35-Stop and Asp-37-Val were maternally transmitted, thus these variations form a haplotype. d) e) A male obese proband harbored two missense mutations (Ser-30-Phe, Gly-252-Ser). f)-i) Four different missense mutations (Pro-78-Leu, Thr-112-Met, Arg-165-Trp, Ile-317-Thr) were detected in four different male probands, respectively. All of these mutations (a to i) were found solely in extremely obese individuals whose BMIs were all above the 99th percentile. j) A silent mutation (C-579-T, Val-193-Val) was detected in a male underweight individual. k) A previously described polymorphism (Val-103-Ile; 3) was detected with similar frequencies in all different study groups. 1) We identified a novel polymorphism (Ile-251-Leu) with similar allele frequencies in all groups under study. In conclusion, our data indicate that mutations in the MC4-R are not uncommon. Whereas our data support the evidence for dominantly inherited obesity as revealed by the three obese probands with haplo-insufficiency, the functional significance of the missense mutations remains to be determined.
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PMID:Several mutations in the melanocortin-4 receptor gene including a nonsense and a frameshift mutation associated with dominantly inherited obesity in humans. 1019


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