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)

To evaluate the relationship between the development of obesity and the hypersecretion of amylin by the pancreas, we examined the effects of 16.7 mmol/L glucose and 10 mmol/L arginine on the secretion of amylin and insulin by isolated perfused pancreata from genetically obese (fa/fa) and lean (Fa/?) Zucker rats at 9, 18, and 54 weeks of age. Concentrations of amylin and insulin in the effluent were measured by radioimmunoassay (RIA). Pancreata of obese rats secreted greater amounts of amylin in response to 16.7 mmol/L glucose and 10 mmol/L arginine than did those of lean rats at all ages. The hypersecretion of amylin by obese rats was particularly marked at 18 weeks of age, when they showed the most rapid increase in body fat mass. This hypersecretion became obscure at 54 weeks of age, when obese rats showed the maximum body weight. The pattern of amylin release resembled that of insulin in all groups. However, the relative amount of amylin to insulin secreted following stimulation with 16.7 mmol/L glucose and 10 mmol/L arginine in obese rats exceeded that in lean rats at all ages. Differences in the secreted amylin to insulin molar ratios between obese and lean rats were significant when pancreata were stimulated with glucose at 18 weeks (obese, 1.23% +/- 0.05%; lean, 0.99% +/- 0.04%; P < .01), glucose at 54 weeks (P < .01), and arginine at 54 weeks (P < .05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hypersecretion of amylin from the perfused pancreas of genetically obese (fa/fa) rats and its alteration with aging. 849 23

It is known that spontaneous and stimulated GH secretion is reduced in obesity. On the other hand, it has been recently reported that, in obese subjects, plasma GH levels did not change during a hyperglycemic clamp. To further study the sensitivity of somatotrope cells to inhibitory influences in obesity, we studied the effect of somatostatin, pirenzepine, or glucose on the GH response to GHRH or arginine in 32 obese patients and 30 controls. Basal GH levels were lower in obese than in normal subjects (1.0 +/- 0.6 vs. 4.8 +/- 0.7 micrograms/L, P < 0.05), while insulin-like growth factor-I levels were similar in both groups (137.3 +/- 13.2 vs. 138.8 +/- 12.2 micrograms/L). In obese as well as in control subjects pirenzepine abolished the GH response to either GHRH (AUC0-120: 43.7 +/- 9.6 vs. 258.3 +/- 59.9 micrograms/L/h, P < 0.04 and 113.0 +/- 75.0 vs. 870.5 +/- 255 micrograms/L.h, P < 0.01, respectively) or arginine (6.5 +/- 2.5 vs. 118.7 +/- 55.9 micrograms/L.h, P < 0.05 and 47.7 +/- 7.3 vs. 334.0 +/- 157.5 micrograms/L.h, P < 0.01, respectively). Differently from pirenzepine, glucose blunted the GH response to either GHRH or arginine in control subjects (260.8 +/- 38.3 vs. 479.5 +/- 83.9 micrograms/L.h, P < 0.03 and 294.8 +/- 46.3 vs. 625.1 +/- 139.1 micrograms/L.h, P < 0.05, respectively), but failed to modify it in obese patients (193.7 +/- 39.4 vs. 172.4 +/- 33.6 micrograms/L.h and 121.1 +/- 43.4 vs. 155.1 +/- 39.7 micrograms/L.h, respectively). On the other hand, somatostatin deeply blunted the GHRH-induced GH release in obese patients (58.5 +/- 25.4 vs. 548.7 +/- 196.6 micrograms/L.h, P < 0.05) as well as in controls (181.4 +/- 44.4 vs. 759.7 +/- 46.6 micrograms/L.h, P < 0.04). In conclusion, our results show that, in obesity, the stimulated GH release is refractory to the inhibitory effect of glucose but not of pirenzepine, in spite of their likely common mechanism of action, i.e. increase of hypothalamic somatostatin release. Exogenous somatostatin is able to abolish GH secretion both in normal and obese subjects. These data suggest the existence of a peculiar inhability of hyperglycemia to trigger somatostatinergic release in obesity.
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PMID:In obesity the somatotrope response to either growth hormone-releasing hormone or arginine is inhibited by somatostatin or pirenzepine but not by glucose. 853 Jun 34

To evaluate the sequential changes in secretion of insulin and glucagon by the pancreas of Zucker fa/fa rats, we examined the secretion of these peptides by the perfused pancreas of the rats and by that of their lean littermates aged 9, 18, and 54 wks. Obese rats weighted significantly more than lean rats at all ages and had increased plasma insulin except for those at 54 wks of age. Isolated pancreas of obese rats at 9 wks showed greater insulin secretion response to glucose and arginine than that of lean rats at the same age. Insulin secretion response to arginine from pancreas of obese rats at 18 wks was also greater than that from pancreas of lean rats at 18 wks. Increased glucose concentration in the perfusion medium caused less suppression in obese rats than in lean rats. 10 mM arginine stimulation resulted in a higher secretion response in lean rats than in obese rats at 18 and 54 wks. Impairment of glucagon secretion was observed even at 54 wks of age, when the obese rats no longer had significantly increased plasma insulin. This suggested that abnormal glucagon secretion was due not only to hyperinsulinemia, but also to a possible defect in the secretory mechanism.
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PMID:Secretion of insulin and glucagon by the perfused pancreas of genetically obese (fa/fa) Zucker rats and its alteration with aging. 855 65

Increased free fatty acid (FFA) levels of obese patients are likely involved in the pathogenesis of the growth hormone (GH) hyposecretion of obesity. To clarify their role, we studied the influence of inhibition of plasma FFA levels, induced by 500 mg oral acipimox (ACX), an antilipolytic drug, on the GH response to GH-releasing hormone (GHRH) alone or combined with arginine ([ARG] study A) in six normal women ([NS] aged 24 to 37 years; body mass index, 22.4 +/- 0.9 kg/m2) and six obese women ([OB] aged 21 to 40 years; body mass index 39.5 +/- 3.2 kg/m2). In a group of seven OB patients (aged 18 to 58 years; body mass index, 35.8 +/- 1.3 kg/m2), the effect of ACX on either GHRH- or GHRH+ARG-stimulated GH increase was also studied after a 4-day treatment with the same drug at 250 mg three times daily (study B). OB patients had baseline FFA levels higher than NS (0.77 +/- 0.06 v 0.44 +/- 0.09 mmol/L, P<.05). In study A, ACX reduced FFA levels to the same nadir in both groups (0.11 +/- 0.02 and 0.12 +/- 0.03 mmol/L, NS and OB subjects, respectively). In NS, ACX failed to significantly potentiate the GH response to either GHRH (1,371.9 +/- 425.2 v 1,001.8 +/- 229.0 micrograms/L x min) or GHRH+ARG (3558.4 +/- 1,513.7 v 3,045.9 +/- 441.8 micrograms/L x min), while in OB patients it increased the GH response to GHRH (797.6 +/- 277.3 v 353.8 +/- 136.7 micrograms/L x min, P<.01) and did not modify the response to ARG+GHRH (1,010.5 +/- 253.1 v 821.1 +/- 222.0 micrograms/L x min). In study B, ACX reduced FFA levels in OB patients (nadir, 0.09 +/- 0.04 mmol/L). This treatment strikingly increased the GH response to GHRH (1,734.0 +/- 725.4 v 271.5 +/- 112.8 micrograms/L x min, P<.01) and significantly potentiated that to ARG+GHRH (2,371.9 +/- 571.3 v 1,020.0 +/- 343.2 micrograms/L x min, P<.05). In conclusion, our present findings indicate that an acute reduction of plasma FFA levels in OB patients restores their somatotrope responsiveness, whereas it does not affect GH secretion in lean subjects. After prolonged treatment, ACX further improves GHRH-stimulated GH secretion in OB patients, suggesting that elevated FFA levels play a leading role in the GH hyposecretory state of obesity.
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PMID:Effects of acipimox, an antilipolytic drug, on the growth hormone (GH) response to GH-releasing hormone alone or combined with arginine in obesity. 860 41

Insulin sensitivity and islet function were examined in 22 obese women: 11 with normal glucose tolerance (mean +/- SD body mass index [BMI], 32.2 +/- 2.8 kg/m2) and 11 with impaired glucose tolerance (BMI, 30.1 +/- 2.2 kg/m2). Thirteen non-obese women with normal glucose tolerance (BMI, 20.9 +/- 1.3 kg/m2) served as controls. All women were 58 to 59 years of age. Insulin sensitivity was measured with the euglycemic, hyperinsulinemic clamp. Insulin secretion was studied after intravenous arginine (5 g) at fasting, and at blood glucose levels of 14 and greater than 25 mmol/L. Insulin sensitivity was higher in non-obese (99.8 +/- 11.5 nmol/kg/min/pmol insulin/L) than in obese subject (P < or = .002), but did not differ between obese subjects with normal versus impaired glucose tolerance (47.2 +/- 8.8 v 45.5 +/- 5.2 nmol/kg/min/pmol insulin/L, difference not significant [NS]). Obese subjects with normal glucose tolerance had a higher insulin response to both glucose (P < or = .004) and arginine (P < or = .02) than nonobese women, and higher glucose potentiation of insulin secretion, slopeAIR (P = .05). Compared with obese subjects with normal glucose tolerance, the obese subjects with impaired glucose tolerance had a lower insulin response to glucose (P = .03) and to arginine at blood glucose levels of 14 mmol/L (P = .03), as well as a lower slopeAIR levels ( P = .03). Fasting glucagon was higher in obese subjects with normal glucose tolerance than in non-obese subjects with normal glucose tolerance (P = .006). In obese subjects with impaired glucose tolerance, the glucose inhibition of glucagon secretion, slope AGR, was lower than in obese subjects with normal glucose tolerance (P = .04). Thus, obese subjects with impaired glucose tolerance have altered glucose modulation of islet function, mainly manifested as reduced slope AIR and slope AGR, yet insulin sensitivity is not different than in equally obese subjects with normal glucose tolerance. We therefore conclude that islet dysfunction, and not a further reduction of insulin sensitivity, determines the development of impaired glucose tolerance in obesity.
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PMID:Islet dysfunction in obese women with impaired glucose tolerance. 860 39

The beta 3-adrenergic receptor is the predominant subtype of beta-adrenergic receptor expressed in adipose tissue. Recently, a naturally occurring mutation in the human beta 3-receptor gene has been described which results in substitution of the tryptophan residue at position 64 in the first intracellular loop with an arginine residue. The polymorphism, which is prevalent in the human population, has been associated with increases in some parameters of obesity and Type II diabetes. In order to characterize the pharmacological effects of this amino acid substitution, the W64R mutation was made in the human beta 3 receptor gene and the resulting mutant receptor expressed in CHO cells. Activation by various agonists showed no significant differences (t-test, P > 0.05) between the wild type and mutant receptors. These studies show that, when expressed in a heterologous system, the W64R mutant receptor is pharmacologically and functionally indistinguishable from the wild type beta 3-adrenergic receptor.
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PMID:Pharmacological characterization of a recently described human beta 3-adrenergic receptor mutant. 864 Dec 19

Recently, a missense mutation replacing tryptophan with arginine at codon 64 of the beta 3-adrenergic receptor gene was shown to be associated with insulin resistance in nondiabetic subjects and to an earlier onset of NIDDM in Pima Indians. We studied whether the codon 64 amino acid polymorphism of the beta 3-adrenergic receptor gene in a cohort of young healthy Danes was associated with high birth weight, accelerated weight gain during childhood and adolescence, present obesity, or impaired insulin sensitivity. The protocol included 380 unrelated white subjects in whom insulin sensitivity and secretion were measured during a combined intravenous glucose and tolbutamide tolerance test. A number of biochemical and anthropometric characteristics were determined for each subject. The subjects were genotyped for the codon 64 polymorphism by applying polymerase chain reaction restriction fragment-length polymorphism screening with the use of endonuclease BstN1. The allelic frequency of the mutated allele was 7% (95% CI: 5-10%), and it was similar in obese and nonobese subjects. The beta 3-adrenergic receptor gene variant was not related to birth weight or weight gain during childhood or adolescence. In its heterozygous form, the gene variant was not associated with an altered insulin sensitivity index (SI) or other features of the insulin resistance syndrome (BMI, blood pressure, fasting serum lipid levels, or fasting serum fibrinolytic variables). Three homozygous carriers of the polymorphism were identified, and each had a significantly higher BMI (27.4 +/- 1.3 vs. 23.5 +/- 3.7 kg/m2 [mean +/- SD]; P = 0.032), lower SI [4.9 +/- 2.9 vs. 15.4 +/- 9.0 10(-5) x (min x pmol/l)-1; P = 0.013], and higher fasting serum C-peptide (730 +/- 155 vs. 471 +/- 158 pmol/l; P = 0.016) than the wild-type carriers. The homozygous carriers also had significantly higher levels of fasting serum triglyceride (P = 0.042) and serum LDL cholesterol (P = 0.013). When adjustments were made for age, sex, BMI, and VO2max in a multiple regression analysis, a significantly negative association was found between homozygosity for the codon 64 variant and the SI (P = 0.009). We conclude that in young healthy Danes, the homozygous form but not the heterozygous form of the codon 64 amino acid polymorphism of the beta 3-adrenergic receptor may be associated with obesity and, independent of BMI, with a low SI. Since only three homozygous carriers were identified among 380 subjects, the results must be interpreted with caution, and studies of larger population samples are needed.
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PMID:Insulin sensitivity and body weight changes in young white carriers of the codon 64 amino acid polymorphism of the beta 3-adrenergic receptor gene. 869 Jan 60

A 43-year-old female was admitted to our hospital for polydipsia and hyperglycemia. She had total blindness and globes were not recognized by inspection, indicating clinical anophthalmia. Physical examination revealed short stature, obesity, prematurely gray hair, shortness of fingers and toes, syndactyly, and multiple dental caries. Laboratory examination showed hyperglycemia, increased glycosilated hemoglobin (HbA1c) and insulin resistance on euglycemic glucose clamp. Blunted growth hormone (GH) secretion was shown in response to insulin-induced hypoglycemia, arginine infusion, and GH-releasing hormone (GHRH) loading test, and in 24 h spontaneous GH profile. Magnetic resonance imaging (MRI) and computed tomography (CT) showed dysostosis of orbit, defect of optic nerve, enlarged suprasellar cistern, and prolonged pituitary stalk. This may be the first report of a unique case with GH deficiency accompanied by clinical anophthalmia, hypoplastic orbits, digital dysplasia, short stature, obesity, and diabetes mellitus.
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PMID:Unique case of growth hormone (GH) deficiency accompanied by clinical anophthalmia, hypoplastic orbits, digital dysplasia, short stature, obesity, and diabetes mellitus. 872 46

Mice homozygous for the fat mutation exhibit marked hyperpro-insulinemia and develop late onset obesity. The fat mutation was recently mapped to the gene encoding carboxypeptidase E (CpE), a processing enzyme involved in trimming C-terminal paired basic residues from prohormone-derived peptides. The mutation resulted in a loss of CpE activity that correlated with aberrant proinsulin processing. Neurotensin (NT) and melanin-concentrating hormone (MCH) are two neuropeptides that, among other central effects, inhibit food intake. Here, using RIA techniques coupled to reverse phase HPLC, we analyzed the processing products derived from the NT and MCH precursors in the brain of +/fat and fat/fat mice. Compared to control hypothalamic and brain extracts, fat/fat extracts had markedly reduced levels (>80%) of NT and neuromedin N (NN), another active pro-NT-derived peptide. In contrast, they exhibited high concentrations of biologically inactive NT-KR and NN-KR (NT and NN with a C-terminal Lys-Arg extension), two peptides that were undetectable in control extracts. MCH, which is located at the C-terminus of its precursor, was present in 2- to 3-fold higher amounts in fat/fat than in +/fat hypothalamus. Neuropeptide-Glu-Ile, another pro-MCH-derived neuropeptide separated from MCH by an Arg-Arg sequence, was present in amounts similar to those of MCH in control extracts. In contrast, neuropeptide-Glu-Ile was more than 10 times less abundant than MCH in extracts from obese mice. Our data are consistent with a deficit in CpE activity affecting the maturation of both pro-NT and pro-MCH. This suggests that abnormal neuropeptide and hormone precursor processing is a general phenomenon in fat/fat mice and supports the idea that defects in the production of neuropeptide involved in the control of feeding might lead to the development of obesity in these animals.
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PMID:Impaired processing of brain proneurotensin and promelanin-concentrating hormone in obese fat/fat mice. 877 Sep 19

The hormone insulin remains the cornerstone of diabetic therapy since it is required for almost all cases of Type 1 and many cases of Type 2 diabetes. Since the discovery of insulin in 1921, much has been learned about its chemistry, structure and action as well as its production in the beta cell. Insulin is formed through a series of precursors, beginning with preproinsulin, the protein encoded in the insulin gene. These precursors direct the prohormone into the secretory pathway and ultimately into the secretory granules where it is converted into insulin and C-peptide. These products are stored and secreted together in a highly regulated manner in response to glucose and other stimuli. This review focuses on the recently discovered prohormone convertases, PC2 and PC3 (PC1), the enzymes responsible for the endoproteolytic processing of proinsulin to insulin and C-peptide in the beta cell as well as for the selective processing of proglucagon to glucagon in the alpha cell or GLP1 in intestinal L-cells. PC2 and PC3 are calcium-dependent serine proteases related to the bacterial enzyme subtilisin. They cleave selectively at Lys-Arg or Arg-Arg sites in precursors, generating products with C-terminal basic residues that are then removed by carboxypeptidase E, an exopeptidase. All 3 enzymes are expressed mainly in secretory granules of neuroendocrine cells throughout the body and in the brain. Inherited defects affecting the prohormone-processing enzymes have recently been found in association with unusual syndromes of obesity and other metabolic disorders.
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PMID:The role of prohormone convertases in insulin biosynthesis: evidence for inherited defects in their action in man and experimental animals. 879 89

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