UMLS:C0028754 - FACTA Search

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

The ratio of plasma concentrations of tryptophan to the sum of neutral amino acids (valine, isoleucine, leucine, phenylalanine and tyrosine) was found to be significantly lower in formula-fed infants as compared to breast-fed infants and to newborns at birth. This tryptophan to neutral amino acids ratio in the blood is thought to control the synthesis of serotonin in the brain. Serotonin deficiency in the developing brain based on a decreased plasma tryptophan to neutral amino acids ratio may contribute to developmental obesity and/or permanent changes of mental capacity and social adaptability as observed in human subjects who had been formula-fed as compared to those who had been breast-fed in neonatal life.
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PMID:Changes of the plasma tryptophan to neutral amino acids ratio in formula-fed infants: possible effects on brain development. 668 52

Insulin has major effects on both glucose and branched chain amino acid metabolism. To determine whether the insulin resistance of obesity equally affects both glucose and branched chain amino acid metabolism, we measured the ability of obese and normal subjects to dispose of intravenous bolus dose of glucose (25 g) or L-valine (4 g). Basal plasma glucose levels were the same in the 18 normal and 17 obese (163 plus or minus 8% of ideal body weight) subjects, but basal plasma insulin levels were higher in the obese group (15 plus or minus 2 vs 6 plus or minus 1 microU/ml; p less than 0.001). The obese group had a slower glucose disappearance rate after glucose challenge (0.84 plus or minus 0.06 vs. 1.11 plus or minus 0.07 hr(-1); p less than 0.01) despite having a greater serum insulin response to the glucose load (26 plus or minus 4 vs 11 plus or minus 1 insulin area units; p less than 0.01), confirming insulin resistance. In contrast, disposal of a valine load was the same in normal and obese subjects, as assessed by initial and second phase exponential disappearance rates, metabolic clearance rates of valine, and volumes of distribution. In normal men, disposal rates of glucose and valine after simultaneous administration of both substances were slower than corresponding disposal rates determined when each substance was given alone. We conclude that obese subjects with impaired glucose disposal have normal valine disposal, suggesting that the insulin resistance of obesity can be selective in its effect on different metabolic systems. Glucose and valine also appear to mutually antagonize each other's disposal.
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PMID:Normal valine disposal in obese subjects with impaired glucose disposal: evidence for selective insulin resistance. 701 73

A review of some investigations about amino acid absorption before and after intestinal bypass operations for obesity is presented. One common complication following the operation is hepatic damage. Several studies report a relationship between protein malnutrition and liver dysfunction. Hence, determination of amino acid (and peptide) absorption is of particular importance in order to improve our understanding of this complication. A constant finding in several investigations is the postoperative reduction in plasma concentrations and absorption of branched chain amino acids (leucine, isoleucine and valine). However, the absorption of dipeptides containing the branched chain amino acids does not seem to be affected to the same extent. The changes in the uptake of the branched chain amino acids before and after intestinal bypass operation are correlated with the plasma levels of two proteins with a known sensitivity to protein depletion (thyroxine-binding pre-albumin and retinol-binding protein). Plasma concentrations of some amino acids increases following the operation but there is no evidence so far that this could cause any damage to the liver. The significance of the impaired uptake of the branched chain amino acids is discussed.
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PMID:Amino acid absorption after intestinal bypass procedures. 703 Sep 93

Young female obese (ob/ob) and lean mice were allowed to self-select from two diets varying in protein and carbohydrate, protein and fat or carbohydrate and fat for 36 days. Obese and lean mice offered a choice between two diets varying in protein and carbohydrate consumed 35 and 30%, respectively, of energy from protein. When two diets varying in protein and fat were fed, both obese and lean mice initially self-selected a higher percentage of energy from protein than when diets varying in protein and carbohydrate were fed. This pattern was rapidly reversed in lean mice and more gradually reversed in obese mice. By the end of this feeding trial, obese and lean mice were self-selecting 26 and 16%, respectively, of energy from protein. When two diets varying in carbohydrate and fat were fed, young obese mice self-selected only 44 +/- 6% of energy from the high fat diet whereas lean mice self-selected 65 +/- 4% of energy from the high fat diet. The ratio of plasma tryptophan to large neutral amino acids (valine, leucine, isoleucine, phenylalanine and tyrosine) showed a strong inverse relationship to protein intake. In summary, replacement of dietary carbohydrate with fat lowered the percentage of energy self-selected as protein. Obese mice, however, continued to consume more energy and more protein than lean mice.
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PMID:Effect of dietary fat on protein intake regulation in young obese and lean mice. 721 39

Obesity-associated hyperaminoacidemia is traditionally interpreted as a consequence of insulin resistance. We performed two different experiments to investigate the effects of both obesity-associated insulin resistance and the insulin resistance of non-insulin-dependent diabetes mellitus (NIDDM) on amino acid metabolism. In the first experiment, we measured postabsorptive amino acid concentrations and their decline in response to an oral carbohydrate load in 19 obese nondiabetic women and 19 normal-weight nondiabetic controls. Obese subjects were more resistant to insulin with respect to its effects on glucose metabolism than normal-weight controls, as calculated by the method described by Matthews. However, postabsorptive plasma concentrations of the so-called large neutral amino acids (LNAA), namely phenylalanine, tyrosine, valine, leucine, and isoleucine, and their decrease in response to carbohydrate consumption were similar in both groups. In the second experiment, we compared the decrease of plasma concentrations of LNAA during a euglycemic, hyperinsulinemic clamp in obese subjects with and without NIDDM. Peripheral glucose uptake (PGU) was more impaired in NIDDM subjects compared with obese controls. Furthermore, hepatic glucose production (HGP) was less attenuated by insulin infusion in NIDDM than in control subjects. Postabsorptive plasma LNAA concentrations were not different in the two groups. Values obtained in either group were not different from the postabsorptive concentrations in the normal-weight control subjects of experiment 1. All amino acid levels decreased substantially in response to insulin infusion. The magnitude of the decrease was not significantly different in the two groups, except for a slightly greater decrease of the plasma isoleucine concentration in obese control subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin-induced decline of plasma amino acid concentrations in obese subjects with and without non-insulin-dependent diabetes. 817 54

In the present study mRNA from the subcutaneous adipose tissue of 68 obese (defined as a body mass index > or = 27.3 for men and > or = 27.8 for women) and 38 lean subjects was screened for mutations in the ob gene coding region. No mutations in the coding region of the human ob gene were detected using Conformation Sensitive Gel Electrophoresis in 105 subjects. A first base substitution (G to A) was detected in one individual, which changed a valine to a methionine at position 94. The mRNA of all subjects contained the codon for glutamine-49, ruling out the possibility of a splice defect occurring during the removal of intron 2. These observations suggest that defects in the ob gene sequence itself are not the primary cause of obesity in humans.
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PMID:Mutation screening and identification of a sequence variation in the human ob gene coding region. 860 34

Disruption of the melanocortin-4 (MC-4) receptor gene in mice results in maturity-onset obesity, hyperinsulinaemia and hyperglycaemia. These phenotypes are characteristic of human obesity that frequently accompanies non-insulin-dependent diabetes. It is therefore possible that human MC-4 receptor gene mutations contribute to human obesity. To test this possibility, we examined by DNA sequencing the entire coding region of the human MC-4 receptor gene in 40 morbidly obese (BMI > 35 kg/m2) white British males and examined the 5'- and 3'-flanking regions in 20 out of these obese subjects. We also sequenced all these regions in 10 lean (BMI < 18 kg/m2) white British males for a reference. We identified a single nucleotide substitution that replaces valine with isoleucine at codon 103, in two obese subjects in the heterozygous state. No other nucleotide alterations were found. The prevalence of this missense variant was studied in 322 white British males (190 with BMI > 28 kg/m2 and 132 with BMI < 22 kg/m2) selected from a population-based epidemiological survey. In these subjects, no homozygotes for the isoleucine allele were found. The frequency of heterozygotes was similar (4.2 vs 4.5%) in the two groups and there was no significant difference in BMI, total skinfold thickness, plasma insulin and glucose levels between heterozygotes and codon-103 valine homozygotes in either group. These results suggest that coding sequence mutations in the MC-4 receptor gene are unlikely to be a major cause of human obesity, at least in white British males.
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PMID:Molecular screening of the human melanocortin-4 receptor gene: identification of a missense variant showing no association with obesity, plasma glucose, or insulin. 926 95

Recently, a gene encoding a novel human uncoupling protein, designated UCP2, was discovered. The murine UCP2 was mapped to a region on mouse chromosome 7 which in several models has been shown to be linked to obesity and hyperinsulinaemia. Single strand conformation polymorphism (SSCP) analysis and direct sequencing of the coding region of the UCP2 gene in 35 obese Caucasian NIDDM patients of Danish ancestry revealed one nucleotide substitution, replacing an alanine with a valine at codon 55. The amino acid polymorphism was present in 24 of the 35 (69%) examined subjects. The allelic frequency of the A/V55 variant was 48.3% (95% CI: 42.5-54.1%) among 144 subjects with juvenile onset obesity, 45.6% (40.5-50.7%) among 182 subjects randomly selected at the draft board examination, and 45.5% (37.1-53.9%) among lean control subjects selected from the same study cohort. Within these cohorts there were no differences in BMI values at different ages among wild-type carriers and A/V55 carriers. In a population-based sample of 369 young healthy Caucasians the variant showed no association with alterations in BMI, waist-to-hip ratio, fat mass or weight gain during childhood or adolescence. The A/V55 polymorphism was not related to alterations in fasting values of serum insulin and C-peptide or to an impaired insulin sensitivity index. We conclude that genetic variability in the human UCP2 gene is not a common factor contributing to NIDDM in obese Danish Caucasian subjects and the common A/V55 amino acid polymorphism of the gene is not implicated in the pathogenesis of juvenile or maturity onset obesity or insulin resistance in Caucasians.
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PMID:Mutational analysis of the coding region of the uncoupling protein 2 gene in obese NIDDM patients: impact of a common amino acid polymorphism on juvenile and maturity onset forms of obesity and insulin resistance. 934 6

Uncoupling proteins (UCPs) are mitochondrial membrane transporters which are involved in dissipating the proton electrochemical gradient thereby releasing stored energy as heat. This implies a major role of UCPs in energy metabolism and thermogenesis which when deregulated are key risk factors for the development of obesity and other eating disorders. From the three different human UCPs identified so far by gene cloning both UCP2 and UCP3 were mapped in close proximity (75-150 kb) to regions of human chromosome 11 (11q13) that have been linked to obesity and hyperinsulinaemia. At the amino acid level hUCP2 has about 55% identity to hUCP1 while hUCP3 is 71% identical to hUCP2. In this study we have deduced the genomic structure of the human UCP2 gene by PCR and direct sequence analysis. The hUCP2 gene spans over 8.7 kb distributed on 8 exons. The localization of the exon/intron boundaries within the coding region matches precisely that of the hUCP1 gene and is almost conserved in the recently discovered hUCP3 gene as well. The high degree of homology at the nucleotide level and the conservation of the exon /intron boundaries among the three UCP genes suggests that they may have evolved from a common ancestor or are the result from gene duplication events. Mutational analysis of the hUCP2 gene in a cohort of 172 children (aged 7 - 13) of Caucasian origin revealed a polymorphism in exon 4 (C to T transition at position 164 of the cDNA resulting in the substitution of an alanine by a valine at codon 55) and an insertion polymorphism in exon 8. The insertion polymorphism consists of a 45 bp repeat located 150 bp downstream of the stop codon in the 3'-UTR. The allele frequencies were 0.63 and 0.37 for the alanine and valine encoded alleles, respectively, and 0.71 versus 0.29 for the insertion polymorphism. The allele frequencies of both polymorphisms were not significantly elevated in a subgroup of 25 children characterized by low Resting Metabolic Rates (RMR). So far a direct correlation of the observed genotype with (RMR) and Body Mass Index (BMI) was not evident. Expression studies of the wild type and mutant forms of UCP2 should clarify the functional consequences these polymorphisms may have on energy metabolism and body weight regulation.
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PMID:Structural organization and mutational analysis of the human uncoupling protein-2 (hUCP2) gene. 1002 54

Uncoupling proteins (UCPs) are mitochondrial membrane transporters which are involved in dissipating the proton electrochemical gradient thereby releasing stored energy as heat. This implies a major role of UCPs in energy metabolism and thermogenesis which when deregulated are key risk factors for the development of obesity and other eating disorders. Recent studies have shown that the sympathetic nervous system, via norepinephrine (beta-adrenoceptors) and cAMP, as well as thyroid hormones and PPAR gamma ligands seem to be major regulators of UCP expression. From the three different UCPs identified so far by gene cloning UCP1 is expressed exclusively in brown adipocytes while UCP2 is widely expressed. The third analogue, UCP3, is expressed predominantly in human skeletal muscle and was found to exist in a long and a short form. At the amino acid level UCP2 has about 59% homology to UCP1 while UCP3 is 73% identical to UCP2. Both UCP2 and UCP3 were mapped in close proximity (75-150 kb) to regions of human chromosome 11 (11q13) that have been linked to obesity and hyper-insulinaemia. Furthermore, there is strong evidence that UCP2, by virtue of its ubiquitous expression, may be important for determining basal metabolic rate. Based on the published full-length cDNA sequence we have deduced the genomic structure of the human UCP2 (hUCP2) gene by PCR and direct sequence analysis. The hUCP2 gene spans over 8.4 kb distributed on 8 exons. The localization of the exon/intron boundaries within the coding region matches precisely the one found in the human UCP1 gene and is almost conserved in the recently discovered UCP3 gene as well. However, the size of each of the introns in the hUCP2 gene differs from its UCP1 and UCP3 counterparts. It varies from 81 bp (intron 5) to about 3 kb (intron 2). The high degree of homology at the nucleotide level and the conservation of the exon/intron boundaries among the three UCP genes suggests that they may have evolved from a common ancestor or are the result from gene duplication events. Mutational analysis of the hUCP2 gene in a cohort of 25 children of caucasian origin (aged 7-13) characterized by low BMR values revealed a point mutation in exon 4 (C to T transition at position 164 of the corresponding cDNA resulting in the substitution of an alanine residue by a valine at codon 55) and an insertion polymorphism in exon 8. The insertion polymorphism consists of a 45 bp repeat located 150 bp downstream of the stop codon in the 3'-UTR. The allele frequencies were 0.61 and 0.39 for the alanine and valine encoded alleles, respectively, and 0.71 versus 0.29 for the insertion polymorphism. Expression studies of the wildtype and mutant forms of UCP2 should clarify the functional consequences these mutations may have on energy metabolism and body weight regulation. In addition, mapping of the promoter region and the identification of putative promoter regulatory sequences should give insight into the transcriptional regulation of UCP2 expression--in particular by anyone of the above mentioned factors--in vitro and in vivo.
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PMID:Genomic organization and mutational analysis of the human UCP2 gene, a prime candidate gene for human obesity. 1007 61

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