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:C0020505 (hyperphagia)
6,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The obese gene product, leptin, regulates adiposity. Mice homozygous for a nonfunctional obese gene become massively obese and develop diabetes mellitus due to overeating and increased metabolic efficiency. The cDNA sequence of obese was recently reported (Zhang, Y., Proenca, R., Maffei, M., Barone, M., Leopold, L., and Friedman, J. L. (1994) Nature 372, 425-432; Correction: (1995 Nature 374, 479). We have determined the genomic organization of the 5' end of the mouse obese gene. The coding sequence is in exons 2 and 3. A single TATA-containing promoter was found upstream of exon 1. A minority (probably approximately 5%) of the obese mRNA contained an extra, untranslated exon between exons 1 and 2. Transcription of the obese gene was detected only in adipose cells. A 762-base pair obese gene promoter driving a luciferase gene yielded abundant activity in transiently transfected rat adipose cells in primary culture. The obese promoter was inactive in erythroid K562 cells. Deletion of bases from -762 downstream to -161 did not affect promoter activity in transfected adipose cells. The -161 minimal promoter contained consensus Sp1 and CCAAT/enhancer-binding protein (C/EBP) motifs. Cotransfection with C/EBP alpha (a transcription factor important in adipose cell differentiation) caused 23-fold activation. These data suggest that the obese promoter is a natural target of C/EBP alpha.
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PMID:The mouse obese gene. Genomic organization, promoter activity, and activation by CCAAT/enhancer-binding protein alpha. 749 16

Obese (ob) is a recently identified gene involved in the regulation of energy balance in the mouse. We report here that AD-5075, a potent thiazolidinedione which lowered plasma glucose and triglyceride in Zucker diabetic fatty (ZDF) rats and db/db mice, decreased the expression of the ob gene in these animal models of obesity and non-insulin-dependent diabetes mellitus. The level of adipose ob mRNA in ZDF rats was 3-fold greater than that detected in the Zucker lean littermates. Chronic treatment with AD-5075 elicited a 67 and 70% reduction of ob mRNA in ZDF and control lean rats, respectively. Furthermore, the amount of adipose ob mRNA in db/db mice was 7 times higher than that detected in lean littermates. Treatment of db/db mice with AD-5075 resulted in a 78% reduction of the level of ob mRNA with parallel changes in circulating level of the ob gene product, leptin. The reduction of the ob mRNA in the Zucker lean rats was accompanied by significantly greater food intake and weight gain. However, in ZDF rats and db/db mice, there was profound increase in body weight without hyperphagia. The results demonstrate that the expression of the ob gene is up-regulated in these two rodent models of diabetes compared to their lean counterparts and that such overexpression is attenuated by treatment with an agent that improves insulin sensitivity and glucose homeostasis in vivo.
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PMID:Down-regulation of the expression of the obese gene by an antidiabetic thiazolidinedione in Zucker diabetic fatty rats and db/db mice. 862 15

The rat fatty (fa) mutation produces profound obesity of early onset caused by hyperphagia, defective nonshivering thermogenesis, and preferential deposition of energy into adipose tissue. Genetic mapping studies indicate that fa and diabetes (db) are homologous loci in the rat and mouse genomes, respectively. It has been shown that db alleles carry mutations in the Lepr (leptin receptor) gene. This paper describes a point mutation in the fatty allele of Lepr. A nucleotide substitution at position 880 (A-->C) causes an amino acid substitution at position 269 (Gln-->Pro). The mutation generates a novel Msp I site that cosegregates with fa in 1,028 meioses examined in obese F2 progeny from two crosses (Bnx13M and WKYx13M) and is still segregating in three rat colonies. PCR-based mutagenesis was used to introduce the fa mutation into the mouse Lepr cDNA. Transient transfection studies indicate that the mutant Lepr cDNA has greatly reduced binding of leptin (Lep) at the cell surface. These data are strong evidence that the single nucleotide substitution in the fa allele of Lepr (Leprfa) is responsible for the obese phenotype.
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PMID:Phenotype of fatty due to Gln269Pro mutation in the leptin receptor (Lepr). 869 Jan 63

Neuropeptide Y (NPY) neurones in the arcuate nucleus of the rodent hypothalamus may play a key role in responding to reductions in body energy stores with appropriate changes in energy homeostasis, namely an increase in food-seeking behaviour and hyperphagia, together with a reduction in heat production by brown adipose tissue. These adaptive responses are mimicked by the injection of NPY into the main sites of projection of the NPY neurones, and animals that are threatened by energy deficits (e.g. through starvation or insulin-deficient diabetes) show increased activity of these neurones. Genetically obese rodents also show hyperactivity of the NPY neurones, which is inappropriate to their energy needs and may contribute to their hyperphagia, reduced energy expenditure and excessive weight gain. The NPY neurones may be inhibited by insulin and leptin, which may both serve as signals of peripheral fat mass. Ultimately, characterization of the specific "feeding' receptors which mediate NPY's central effects on energy homeostasis may provide opportunities for designing drugs to manipulate and appetite and energy balance in man, notably obesity and the cachexia commonly associated with malignancy and chronic infection.
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PMID:Neuropeptide Y, the hypothalamus and the regulation of energy homeostasis. 887 Nov 82

The high prevalence of obesity and its well documented association with the cardiovascular risk factors diabetes mellitus, dyslipidemia and hypertension represents a major problem for the general health status of industrialized societies. Although numerous studies have shown that genetic factors have a major influence on the regulation of energy homeostasis and the susceptibility to obesity, the genes and predisposing mutations involved are insufficiently understood. Among several known rodent models of obesity due to single gene mutations, mice homozygous for the obese (ob) gene exhibit massive early-onset obesity, hyperphagia, non-insulin-dependent diabetes mellitus, defective thermoregulation and infertility. Recently the ob gene was identified by positional cloning and shown to be mutated in ob/ob mice. Leptin, the product of the ob gene, is a 167-amino acid secreted protein that is synthesized exclusively in adipose tissue. With the exception of ob/ob mice, circulating plasma leptin is elevated in obesity. Administration of recombinant leptin to ob/ob mice reduces fat mass, food intake, hyperglycemia and hyperinsulinemia. The various effects of the hormone are mediated by leptin receptors expressed at high levels in the hypothalamus, but also in several other non-neuronal tissues. A mutation in the leptin receptor gene is responsible for the obese phenotype of db/db mice. Plasma leptin in humans is positively correlated with body fat mass, suggesting that leptin resistance rather than leptin deficiency is a common feature of human obesity. This review briefly summarizes the current status of the rapidly growing evidence that leptin plays an important role in the regulation of body weight and fat deposition.
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PMID:Regulation of energy balance by leptin. 888 45

Over the years, the work of research laboratories in Baton Rouge (USA), Seattle (USA) and Geneva (Switzerland) have reached analogous conclusions regarding the main etiology of obesity as studied in animals: it largely lies within the brain, notably within the hypothalamus. The hypothalamus is indeed known to modulate food intake and energy partitioning, while the periphery has also been proposed to feed-back on the central nervous system (CNS) to provide information on the state of body energy stores, the two together constituting a loop system connecting the brain to the periphery (1,2,3). This etiologic viewpoint of a pivotal role of the hypothalamus in obesity syndromes has been strengthened by the discovery of one hypothalamic neuropeptide and one peripheral (adipose tissue) hormone, respectively neuropeptide Y (4), and quite particularly, leptin (5). As neuropeptide Y produces hyperphagia (6, 7) and as leptin produces hypophagia in normal animals (8,9,10), the loop system just mentioned was thought to comprise functional relationships, at least between these two factors. Other evidence also suggested that such a loop system was altered in obese animals.
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PMID:The loop system between neuropeptide Y and leptin in normal and obese rodents. 901 34

Genetically obese (ob/ob) mice display a number of metabolic alterations, including decreased thermogenesis, hyperphagia, hyperglycemia and increased body fat. A single intracerebroventricular (i.c.v.) injection of these mice with leptin (0.01 to 1 microg) lowered food intake and body weight within 24 h. In addition, i.c.v. administration of leptin increased 22 h energy expenditure while reducing the respiratory quotient (RQ) in a dose-dependent manner. The leptin-induced decrease in RQ suggests a reduction in the fraction of total energy derived from carbohydrate oxidation and a corresponding increase in energy derived from fat oxidation. Our data suggest that leptin controls energy homeostasis through activation of receptor(s) in the central nervous system (CNS) that regulate both food intake and energy metabolism.
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PMID:Intracerebroventricular injection of leptin increases thermogenesis and mobilizes fat metabolism in ob/ob mice. 901 37

Serum leptin concentrations and the levels of ob mRNA in adipocytes in obese humans are elevated. Hyperphagia and obesity are characteristics of hypercortisolism. We have therefore asked whether or not leptin levels were elevated in very obese children, and whether or not dexamethasone would increase leptin levels in obese children. A single dose dexamethasone suppression test was performed in ten obese children (5 girls, 5 boys; age 6 to 16 yrs, mean 12 +/- 1, median 12 yrs) to rule out hypercortisolism. Body mass index (BMI) in the ten children was calculated to be 27-45 kg/m2. Venous blood was sampled before dexamethasone was given in the evening and at 9.00 a.m. the following morning. Endogenous cortisol production was suppressed in all patients. Leptin levels, as measured by a newly developed specific radioimmunoassay, were 31.6 +/- 12.9 microg/l, range 19.2-59.9 microg/l before dexamethasone and 39.9 +/- 16.5 microg/l, range 26.3-80.3 microg/l after dexamethasone in the obese children (ANOVA, p = 0.01). Simple regression analysis revealed that serum levels correlated significantly with body mass index (r = 0.82, p < 0.001). Non-obese children (BMI < 27 kg/m2) had leptin levels between 0.1 and 33.3 microg/l, median 2.2 microg/l (N = 713). Girls (5.5 +/- 4.6 microg/l) (N = 401) had significantly higher leptin levels than boys (1.7 +/- 2.1 microg/l (N = 312) (p < 0.0001). We conclude that 1) high serum leptin concentrations are present in obese children. 2) A single dose of dexamethasone significantly increases the high leptin serum levels in these children. We hypothesize that glucocorticosteroids up-regulate leptin levels in the human.
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PMID:High leptin concentrations in serum of very obese children are further stimulated by dexamethasone. 901 47

Leptin acts on the brain to inhibit feeding, increase thermogenesis, and decrease body weight. Neuropeptide Y (NPY)-ergic neurons of the hypothalamic arcuate nucleus (ARC) that project to the paraventricular nuclei (PVN) and dorsomedial nuclei (DMH) are postulated to control energy balance by stimulating feeding and inhibiting thermogenesis, especially under conditions of energy deficit. We investigated whether leptin's short-term effects on energy balance are mediated by inhibition of the NPY neurons. Recombinant murine leptin (11 microg) injected into the lateral ventricle of fasted adult Wistar rats inhibited food intake by 20-25% between 2 and 6 h after administration, compared with saline-treated controls (P < 0.05). Uncoupling protein mRNA levels in brown adipose tissue (BAT) rose by 70% (P < 0.01). Leptin treatment significantly reduced NPY concentrations by 20-50% (P < 0.05) in the ARC, PVN, and DMH and significantly decreased hypothalamic NPY mRNA levels (0.61 +/- 0.02 vs. 0.78 +/- 0.03 arbitrary units; P < 0.01). A second study examined changes in leptin during 5 days' intracerebroventricular NPY administration (10 microg/day), which induced sustained hyperphagia and excessive weight gain. In NPY-treated rats, leptin mRNA levels in epididymal fat were comparable to those in saline-treated controls (0.94 +/- 0.17 vs. 1.0 +/- 0.28 arbitrary units; P > 0.1), but plasma leptin levels were significantly higher (4.88 +/- 0.66 vs. 2.85 +/- 0.20 ng/ml; P < 0.01). Leptin therefore acts centrally to decrease NPY synthesis and NPY levels in the ARC-PVN projection; reduced NPY release in the PVN may mediate leptin's hypophagic and thermogenic actions. Conversely, NPY-induced obesity results in raised circulating leptin concentrations. Leptin and the NPY-ergic ARC-PVN neurons may interact in a homeostatic loop to regulate body fat mass and energy balance.
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PMID:Interactions between leptin and hypothalamic neuropeptide Y neurons in the control of food intake and energy homeostasis in the rat. 903 86

Receptor subunits for the neurocytokine ciliary neurotrophic factor (CNTF) share sequence similarity with the receptor for leptin, an adipocyte-derived cytokine involved in body weight homeostasis. We report here that CNTF and leptin activate a similar pattern of STAT factors in neuronal cells, and that mRNAs for CNTF receptor subunits, similarly to the mRNA of leptin receptor, are localized in mouse hypothalamic nuclei involved in the regulation of energy balance. Systemic administration of CNTF or leptin led to rapid induction of the tis-11 primary response gene in the arcuate nucleus, suggesting that both cytokines can signal to hypothalamic satiety centers. Consistent with this idea, CNTF treatment of ob/ob mice, which lack functional leptin, was found to reduce the adiposity, hyperphagia, and hyperinsulinemia associated with leptin deficiency. Unlike leptin, CNTF also reduced obesity-related phenotypes in db/db mice, which lack functional leptin receptor, and in mice with diet-induced obesity, which are partially resistant to the actions of leptin. The identification of a cytokine-mediated anti-obesity mechanism that acts independently of the leptin system may help to develop strategies for the treatment of obesity associated with leptin resistance.
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PMID:Ciliary neurotrophic factor corrects obesity and diabetes associated with leptin deficiency and resistance. 917 39


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