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)

Leptin, a product of the ob gene, is a 16 kDa protein which is produced by adipocytes. In humans, obesity is a common finding in women with polycystic ovary syndrome (PCOS). The role, however, of leptin in PCOS is not clear. Some studies have reported increased levels of leptin in PCOS, while others report that they are normal. Also, insulin resistance is a common finding in PCOS. The aim of this study was to investigate further the role of insulin in leptin secretion in patients with PCOS by treating them for 10 days with diazoxide, an insulin-reducing compound. Eight women with PCOS, mean age 22.1 +/- 2.7 years, with mean body mass index (BMI) 28.4 +/- 5.7kg/m2, were studied. An oral glucose tolerance test (OGTT) was performed in all women and blood samples were taken before and at 30, 60, 90, 120 and 150 min after the administration of glucose. Glucose, insulin, leptin, free testosterone, delta4 androstenedione, sex hormone binding globulin (SHBG), LH, FSH, IGF-I and insulin-like growth factor-binding protein-3 (IGFBP-3) were measured in the sera taken before the administration of glucose, while glucose and insulin levels were measured in all samples which were collected after the administration of glucose. Diazoxide 300 mg daily was given to all women starting after the end of the OGTT for 10 days. A second OGTT was performed the day after the discontinuation of the diazoxide treatment. The same hormonal and biochemical parameters were also measured in all patients during the second OGTT. After the administration of diazoxide a reduction in sum insulin (262 +/- 147 vs 679 +/- 341 microU/ml. P<().01), leptin (18.5 +/- 10.6 vs 24.2 +/- 10.2 ng/ml, P<0.01), free testosterone (3.0 +/- 1.9 vs 5.1 +/- 1.9 pg/ml, P<0.01), delta4 androstenedione (3.8 +/- 1.9 vs 5.7 +/- 2.0 ng/ml, P<0.01) and IGF-I (219.5 +/- 69.2 vs 314.5 +/- 82.3 ng/ml, P<0.01) levels was observed. Serum SHBG (38.8 +/- 16.8 vs 27.8 +/- 12.1 nmol/l, P<0.01) and sum glucose levels (994.1 +/- 252.7 vs 711.1 +/- 166.1 mg/dl, P<0.05) were increased while IGFBP-3 (3.96 +/- 2.49 vs 3.75 +/- 2.24mg/l), FSH (6.2 +/- 1.8 vs 6.0 +/- 2.5 mU/l) and LH (18.9 +/- 6.7 vs 21.4 +/- 6.7 mU/l) concentrations did not change significantly. A significant positive correlation was found between serum leptin and BMI values before and after administration of diazoxide as well as between leptin, insulin and IGFBP-3 values. Also, sum insulin values correlated significantly with BMI. However, when multiple regression analysis was used this correlation was eliminated except that between leptin and BMI. This was most probably due to the small number of cases. The mechanism of the reduction of leptin levels is unclear. However, it is suggested that the concomitant decrease of insulin levels may play a role.
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PMID:Leptin levels in women with polycystic ovary syndrome before and after treatment with diazoxide. 972 74

Fatty acid transport protein (FATP) was identified by expression cloning strategies (Schaffer, J. E., and Lodish, H. F. (1994) Cell 79, 427-436) and shown by transfection analysis to catalyze the transfer of long-chain fatty acids across the plasma membrane of cells. It is expressed highly in tissues exhibiting rapid fatty acid metabolism such as skeletal muscle, heart, and adipose. FATP mRNA levels are down-regulated by insulin in cultured 3T3-L1 adipocytes and up-regulated by nutrient depletion in murine adipose tissue (Man, M. Z., Hui, T. Y., Schaffer, J. E., Lodish, H. F., and Bernlohr, D. A. (1996) Mol. Endocrinol. 10, 1021-1028). To determine the molecular mechanism of insulin regulation of FATP transcription, we have isolated the murine FATP gene and its 5'-flanking sequences. The FATP gene spans approximately 16 kilobases and contains 13 exons, of which exon 2 is alternatively spliced. S1 nuclease and RNase protection assays revealed the presence of multiple transcription start sites; the DNA sequence upstream of the predominant transcription start sites lacks a typical TATA box. By transient transfection assays in 3T3-L1 adipocytes, the inhibitory action of insulin on FATP transcription was localized to a cis-acting element with the sequence 5'-TGTTTTC-3' from -1347 to -1353. This sequence is very similar to the insulin response sequence found in the regulatory region of other genes negatively regulated by insulin such as those encoding phosphoenolpyruvate carboxykinase, tyrosine aminotransferase, and insulin-like growth factor-binding protein 1. Fluorescence in situ hybridization analysis revealed that the murine FATP gene is localized to chromosome 8, band 8B3.3. Interestingly, this region of chromosome 8 contains a cluster of three other genes important for fatty acid homeostasis, lipoprotein lipase, the mitochondrial uncoupling protein 1 (UCP1) and sterol regulatory element-binding protein 1. These results characterize the murine FATP gene and its insulin responsiveness as well as present a framework for future studies of its role in lipid metabolism, obesity, and type II diabetes mellitus.
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PMID:Characterization of the murine fatty acid transport protein gene and its insulin response sequence. 976 71

The purpose of this study was to investigate 24-h estradiol and leptin levels in obese and nonobese children to further understand the roles of estradiol and leptin in obesity and puberty. We measured serum estradiol, leptin, insulin, glucose, and GH levels every hour for 24 h in 18 obese (12 females and 6 males) and 30 nonobese (11 females and 19 males) prepubertal and early pubertal (stages 1-2) children. Bone age and dual energy x-ray absortiometry (DEXA) were obtained upon completion of the 24-h study. Obese children were significantly younger than nonobese children, with no difference in pubertal stage, height, or bone age between the 2 groups. Obese children had greater bone age to chronological age ratios than nonobese children, indicating a more advanced rate of bone maturation. Mean 24-h estradiol levels correlated significantly with chronological age and bone age as well as with insulin-like growth factor I, insulin-like growth factor-binding protein-3, dehydroepiandrosterone sulfate, mean 24-h GH, and lean body mass. Mean 24-h estradiol levels did not differ between obese and nonobese children [1.65+/-1.47 us. 2.75+/-3.30 pmol/L (0.45+/-0.40 vs. 0.75+/-0.90 pg/mL), respectively]. Similar mean 24-h estradiol levels in obese and nonobese children are consistent with the increased bone maturation of the obese children. Estradiol did not correlate significantly with DEXA fat mass, body mass index, or arm fat measures of adiposity. Obese children had higher 24-h mean leptin concentrations than nonobese children (28.6+/-17.4 vs. 6.8+/-7.1 ng/mL; P < 0.001). Leptin concentrations positively correlated with DEXA fat mass, body mass index, and arm fat measurement of adiposity. Girls had higher 24-h mean leptin levels than boys when controlling for adiposity. Estradiol and leptin concentrations fluctuated over a 24-h period in both groups, with all children having higher leptin concentrations at night and higher estradiol concentrations in the morning. This diurnal rhythm was of a similar pattern, but at higher levels for leptin and lower levels for estradiol in the obese children compared to nonobese children. There was no significant correlation between estradiol and leptin levels. Bone mineral density, as measured by DEXA, did not differ between obese and nonobese children. Similar bone mineral density values in obese and nonobese children are consistent with the increased bone maturation of the obese children. Bone mineral density was not correlated with estradiol or leptin level in these children. In conclusion, obese children had similar estradiol levels and equivalent bone ages at a younger chronological age than nonobese children. Leptin was higher in these obese children, but did not correlate with estradiol level or bone age. These findings suggest that the role of leptin in both obesity and pubertal development is not directly correlated with the estradiol level.
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PMID:Effect of obesity on estradiol level, and its relationship to leptin, bone maturation, and bone mineral density in children. 976 48

There are many hormonal changes that occur with ageing in humans, of which the most dramatic and intriguing change occurs for the adrenal androgenic steroid dehydroepiandosterone (DHEA). There are tantalizing epidemiological data demonstrating a significant association between the changes in circulating DHEA level and changes in the incidence of malignancy, atherosclerosis, Alzheimer's disease and other age-related changes. The pharmacological effects in animals such as rodents and rabbits have demonstrated many beneficial effects, for example increased immune function, the prevention of atherosclerosis, cancer, diabetes and obesity, and the improvement of memory. Clinical studies carried out in small groups of subjects have clearly demonstrated that the administration of DHEA to the elderly increases many hormone levels, including that of insulin-like growth factor-1, (free and total) testosterone, dihydrotestosterone, oestrone and oestradiol. It remains to be clearly defined whether these changes are clinically beneficial, and there is only insufficient information on the side-effects on long-term use. Results from short-term intervention studies in small groups of subjects have not demonstrated any convincing beneficial effects so far. A judgement on whether DHEA replacement has a place in preventing age-related disabilities could be determined only on the basis of results from studies of long-term DHEA replacement in elderly people.
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PMID:Is there a case for DHEA replacement? 1033 70

Growth hormone (GH) can induce an accelerated lipolysis. Impaired secretion of GH in obesity results in the consequent loss of the lipolytic effect of GH. Dietary restriction as a basic treatment for obesity is complicated by poor compliance, protein catabolism, and slow rates or weight loss. GH has an anabolic effect by increasing insulin-like growth factor (IGF)-I. We investigated the effects of GH treatment and dietary restriction on lipolytic and anabolic actions, as well as the consequent changes in insulin and GH secretion in obesity. 24 obese subjects (22 women and 2 men; 22-46 years old) were fed a diet of 25 kcal/kg ideal body weight (IBW) with 1.2 g protein/kg IBW daily and were treated with recombinant human GH (n = 12, 0.18 U/kg IBW/week) or placebo (n = 12, vehicle injection) in a 12-week randomized, double-blind and placebo-controlled trial. GH treatment caused a 1.6-fold increase in the fraction of body weight lost as fat and a greater loss of visceral fat area than placebo treatment (35.3 vs. 28.5%, p < 0.05). In the placebo group, there was a loss in lean body mass (-2.62 +/- 1.51 kg) and a negative nitrogen balance (-4.52 +/- 3.51 g/day). By contrast, the GH group increased in lean body mass (1.13 +/- 1.04 kg) and had a positive nitrogen balance (1.81 +/- 2.06 g/day). GH injections caused a 1.6-fold increase in IGF-I, despite caloric restriction. GH response to L-dopa stimulation was blunted in all subjects and it was increased after treatment in both groups. GH treatment did not induce a further increase in insulin levels during an oral glucose tolerance test (OGTT) but significantly decreased free fatty acid (FFA) levels during OGTT. The decrease in FFA area under the curve during OGTT was positively correlated with visceral fat loss. This study demonstrates that in obese subjects given a hypocaloric diet, GH accelerates body fat loss, exerts anabolic effects and improves GH secretion. These findings suggest a possible therapeutic role of low-dose GH with caloric restriction for obesity.
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PMID:Low-dose growth hormone treatment with diet restriction accelerates body fat loss, exerts anabolic effect and improves growth hormone secretory dysfunction in obese adults. 1035 97

In simple obesity, spontaneous and stimulated growth hormone (GH) secretions are diminished. However, this diminished GH secretion does not result in decreased somatic growth in obese children. Although the increased insulin level, low insulin-like growth factor binding protein (IGFBP)-1 and the resulting increase of bioavailability of insulin-like growth factor I (IGF-I) have been suggested as being involved, the exact mechanism has not yet been established. We investigated serum IGF-I, free IGF-I, IGFBP-1, IGFBP-3 and insulin levels in 36 obese and 39 non-obese healthy children. Insulin and IGFBP-3 were significantly higher in the obese group than in the control group (p < 0.05, p = 0.001, respectively). IGF-I, free IGF-I, free IGF-I/IGF-I and IGFBP-1 levels in the obese children were not significantly different from those in the control group. A positive correlation was found between body mass index (BMI) and IGF-I in the obese children (r = 0.30, p = 0.05). IGFBP-3 levels correlated positively with IGF-I (r = 0.44, p < 0.005), and free IGF-I levels (r = 0.37, p = 0.05) in the obese children. A negative correlation was found between IGFBP-1 and insulin levels (r = -0.30, p = 0.05) in the obese children. We concluded that normal growth in obese children might be maintained through normal IGF-I and increased IGFBP-3 levels, which are stimulated by increased insulin levels or nutritional factors or by increased responsiveness to GH.
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PMID:Serum levels of insulin-like growth factor (IGF)-I, free IGF-I, IGF binding protein (IGFBP)-1, IGFBP-3 and insulin in obese children. 1039 59

Growth hormone (GH) deficiency in adults is characterized by central obesity, dyslipidemia, coagulopathy and glucose intolerance, all features of the "metabolic syndrome", explaining the increased cardiovascular morbidity and mortality associated with GH deficiency in adults. Employing the 2-step euglycemic-hyperinsulinemic clamp, we have demonstrated severe insulin resistance in GH-deficient adults, with a reduction in insulin-mediated glucose utilization of -50%. Basal glucose turnover and partitioning of whole body glucose utilization into glycolytic flux (GF) and glycogen synthesis/glucose storage (GS) pathways are normal, but insulin activation of these 2 pathways is reduced, predominantly in the GS pathway. Activation of muscle glycogen synthase by insulin is markedly decreased, as is glycogen content of muscle. Insulin-induced muscle hexokinase activity appears also to be attenuated in GH-deficient adults with raised intramuscular cellular glucose and normal-reduced concentrations of glucose-6-phosphate. Beta-cell function is not excessive in GH-deficient adults and is inappropriately low for the insulin resistance. Following treatment of GH-deficient adults with recombinant GH (rhGH), the insulin resistance is either unchanged or more pronounced by 3, 6 or 24 months of treatment, despite the significant reduction in general and central obesity. The GF and GS pathways and muscle glycogen synthase and hexokinase activities remain severely impaired. Abnormalities in free fatty acid (FFA) metabolism are present in rhGH-treated GH-deficient adults and correlate significantly with the degree of insulin resistance as do the concentrations of rhGH-induced insulin-like growth factor (IGF)-I, the post-basal insulinemia and the duration of the GHD, but is independent of obesity. In conclusion, long-term rhGH treatment in GH-deficient adults results in persistent insulin resistance and abnormalities in the GF and GS pathways due to reduced glycogen synthase and hexokinase activities, in the presence of an ongoing reduction of central obesity. We postulate that the insulin resistance is due to chronic rhGH-induced alterations in FFA metabolism, non-physiological levels of IGF-I and chronic basal hyperinsulinemia.
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PMID:Insulin sensitivity in growth hormone (GH)-deficient adults and effect of GH replacement therapy. 1044 67

Growth hormone (GH) secretion in the elderly is generally diminished although there are marked individual differences ranging from normal GH secretion and normal levels of insulin-like growth factor (IGF)-I through low GH and subnormal IGF-I. It is assumed that the reduced central cholinergic activity leading to unrestrained somatostatin release leads to impaired GH secretion. The somatopause, if it occurs at all, is, in contrast to the menopause, a subtly developing physiological event. The menopause often causes severe symptoms that justify hormone replacement therapy, but the somatopause is a physiological event at the end of the lifespan with no acute symptoms that can be attributed to GH deficiency with certainty. Whether the non-specific symptoms of old age, i.e. truncal obesity, muscle atrophy, decreasing energy, and mental disorders, can be--even partially--blamed on decreased GH secretion is unclear. Thus, GH therapy in elderly patients, in the absence of pituitary disease cannot be recommended. In addition, the following has to be considered: 1) GH has to be given by subcutaneous injection, which may be technically difficult in elderly patients. 2) It is difficult to find the right individual dosage of GH since elderly patients may show increased sensitivity to GH therapy (compared with children) or may be GH-resistant. 3) Manifestation of diabetes mellitus may be enhanced in elderly patients. 4) The elevation of IGF-I levels may enhance the progression of malignant disease; it has been shown that the concentration of IGF-I in the circulation correlates to the frequency of prostatic cancer. Furthermore, acromegalic patients have a higher frequency of colonic polyps and gastrointestinal malignancies. 5) Even if problems such as dosage, mode of application and the questions of safety are resolved, the present costs of GH therapy will not allow to advocate GH treatment of all elderly patients with low levels of IGF-I. However, since some patients seem to benefit from GH therapy in senescence, further studies are needed. There may be a subset of elderly patients in whom GH treatment is useful. However, unless these patients are included in a study protocol, GH treatment should not be given to elderly patients in the absence of pituitary disease.
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PMID:The somatopause is no indication for growth hormone therapy. 1044 83

A mutation in the tub gene leads to maturity-onset obesity, insulin resistance, and progressive retinal and cochlear degeneration in mice. tub is a member of a growing family of genes that encode proteins of unknown function that are remarkably conserved across species. The absence of obvious transmembrane domain(s) or signal sequence peptide motif(s) suggests that Tub is an intracellular protein. Additional sequence analysis revealed the presence of putative tyrosine phosphorylation motifs and Src homology 2 (SH2)-binding sites. Here we demonstrate that in CHO-IR cells, transfected Tub is phosphorylated on tyrosine in response to insulin and insulin-like growth factor-1 and that in PC12 cells, insulin but not EGF induced tyrosine phosphorylation of endogenous Tub. In vitro, Tub is phosphorylated by purified insulin receptor kinase as well as by Abl and JAK 2 but not by epidermal growth factor receptor and Src kinases. Furthermore, upon tyrosine phosphorylation, Tub associated selectively with the SH2 domains of Abl, Lck, and the C-terminal SH2 domain of phospholipase Cgamma and insulin enhanced the association of Tub with endogenous phospholipase Cgamma in CHO-IR cells. These data suggest that Tub may function as an adaptor protein linking the insulin receptor, and possibly other protein-tyrosine kinases, to SH2-containing proteins.
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PMID:Tyrosine phosphorylation of tub and its association with Src homology 2 domain-containing proteins implicate tub in intracellular signaling by insulin. 1045 76

Differentiation of precursor cells into mature fat cells is accompanied by enhanced expression of insulin-like growth factor (IGF)-I and is stimulated by multiple hormones including growth hormone, glucocorticoids, IGF-I and insulin. We used transgenic mice that overexpress insulin-like growth factor binding protein-1 to investigate the role of IGF-I in the accumulation of fat tissue. In response to a sucrose-enriched diet, transgenic mice gained significantly less body weight and the epididymal fat mass was significantly reduced compared with wild-type mice. The increase in adipocyte size was also significantly reduced in transgenic mice compared with wild-type mice. Fewer colonies were generated from adipose tissue from transgenic mice and the mitogenic response of these cells to IGF-I was significantly reduced compared with those from wild-type mice. Induction of glycerol-3-phosphate dehydrogenase, a measure of adipocyte differentiation, by IGF-I but not insulin, was reduced in preadipocytes from transgenic mice. These data indicate that IGF-I has a critical role in the proliferation of adipocyte precursors, the differentiation of preadipocytes and the development of obesity in response to calorie excess.
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PMID:Impaired adipogenesis in insulin-like growth factor binding protein-1 transgenic mice. 1046 38


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