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

Ghrelin, the endogenous ligand for the GH secretagogue-receptor (GHS-R), in addition to its GH-releasing action, has orexigenic and adipogenic properties. These characteristics make ghrelin a potential hormone involved in the pathogenesis of obesity. Ghrelin levels are decreased in obese humans and it is unknown whether this decrease is responsible for the blunted GH secretion reported in visceral obesity. Since only few data are available on the potential feedback regulation by GH on systemic ghrelin concentrations, it remains to be established whether the correction of circulating GH concentrations in obese individuals affects ghrelin concentrations. To answer this question, we measured plasma ghrelin levels after a week of administration of low doses of recombinant human GH (rhGH) in a randomized, double-blind, placebo (PL)-controlled trial. This study was originally designed to evaluate the effects of GH replacement on lipid kinetics in visceral obese men. Six adult men with abdominal/visceral obesity (age 42+/-3 yr, body weight 107 +/- 10 kg, BMI 33 +/- 1 kg/m2, waist circumference 111 +/- 3 cm, mean +/- SE) were evaluated in the basal state (BS) and after one week of treatment with subcutaneous bedtime injections of either PL, 2.5 (GH2.5) or 3.3 (GH3.3) pg/kg/die of rhGH. In comparison to BS either PL, GH2.5 or GH3.3 did not significantly modify circulating ghrelin concentrations (p = 0.77). In contrast, a significant increase of serum GH (p = 0.0028), IGF-I (p = 0.0033) and whole body rate of lipolysis (p = 0.038, GH2.5; p = 0.009, GH3.3) occurred, in comparison to BS or PL, after GH2.5 and GH3.3, without differences between the two treatments. These data demonstrate that in abdominal/visceral obese men a short-term treatment with very low doses of rhGH replacement, sufficient to augment the rate of lipolysis, do not modify circulating ghrelin levels.
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PMID:Circulating ghrelin levels of visceral obese men are not modified by a short-term treatment with very low doses of GH replacement. 1280 75

Recent biological advances make it possible to discover new peptides associated with obesity. Leptin, neuropeptide Y, corticotrophin-releasing factor (CRF), alpha-melanocyte stimulating hormone (alpha-MSH), and cocaine- and amphetamine-regulated transcript (CART) peptides are known to participate in appetite and feeding behavior. Various lines of evidence suggest that these peptides participate not only in feeding behavior but also in cardiovascular and sympathetic regulations. Both leptin and ghrelin are secreted from the peripheral tissue; then they reach the brain to modulate sympathetic activity. These two peptides seem to play important roles to transmit peripheral metabolic information to the brain, and to convert it to cardiovascular and sympathetic information. Leptin activates neurons containing alpha-melanocyte stimulating hormone and cocaine- and amphetamine-regulated transcript peptides, resulting in increases in sympathetic activity and blood pressure. Cardiovascular action of alpha-melanocyte stimulating hormone is mediated through melanocortin-4 receptor, and agouti-related protein (AGRP) plays a role as an endogenous melanocortin-4 receptor antagonist. In contrast, ghrelin and neuropeptide Y in the brain suppress sympathetic activity and decrease blood pressure. Depressor and sympathoinhibitory effects of central neuropeptide Y are inhibited by leptin. Furthermore, central ghrelin modulates baroreflex control of renal sympathetic nerve activity and heart rate. Thus, leptin and the related peptides, which participate in appetite and feeding behavior, seem to function together to regulate cardiovascular system and sympathetic nerve activity, and may play a key role in the association between obesity and hypertension.
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PMID:Neural regulation of blood pressure by leptin and the related peptides. 1283 94

The aim of achieving a normal or ideal body weight in the treatment of obesity is an obsolete goal. It stems from the time that obesity was not yet seen as a chronic incurable disease. A more realistic treatment goal is to reduce the body weight by 10-15% over a prolonged period of time. This moderate weight loss will result in a decreased risk for and incidence of obesity-associated diseases. Weight reduction and maintenance is countered by a decrease in resting-energy expenditure and in thermogenesis by food intake, a decreased energy expenditure through physical exercise, a reduced fat oxidation, a relative leptin deficiency and an excess of the gastrointestinal hormone ghrelin. Just as with hypertension and diabetes, the only option is life-long management with the normalisation of abnormal values within a given range.
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PMID:[Nutrition and health--ideal body weight for the obese unrealistic; health benefit by moderate sustained weight loss]. 1284 36

Neurons of the arcuate nucleus of the hypothalamus (ARH) appear to be sites of convergence of central and peripheral signals of energy stores, and profoundly modulate the activity of the melanocortin circuits, providing a strong rationale for pursuing these circuits as therapeutic targets for disorders of energy homeostasis. Recently, tremendous advances have been made in identifying genes and pathways important to regulating energy homeostasis, particularly the hormone leptin and its receptor. This hormone/receptor pair is expressed at high levels in the so-called satiety centers in the hypothalamus, and at lower levels elsewhere in the body. Recent studies in our lab and those of our collaborators have shown that leptin modulates different populations of hypothalamic cells in different ways, rapidly activating POMC neurons and inhibiting NPY/AgRP neurons. In this report, we outline an integrated model of leptin's action in the arcuate nucleus of the hypothalamus, derived from our electrophysiological studies of brain slice preparations taken from transgenic mice that have been bred to express a variety of fluorescent proteins in specific cell types. We also discuss the recently withdrawn obesity drug fenfluramine, which appears to act on POMC neurons via the serotonin 2C receptor. Nutrient-sensing serotonin neurons may project from the raphe nuclei in the brainstem to the hypothalamus; within the arcuate nucleus, serotonin signals are integrated with others such as leptin, ghrelin, and peptide YY(3-36) from the gut, to produce a coordinated response to nutrient state. Finally, we review the current inquiries into the ability of the hormone ghrelin to stimulate appetite by its action of NPY neurons and inhibition of POMC neurons.
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PMID:Electrophysiological actions of peripheral hormones on melanocortin neurons. 1285 14

Rats selectively bred to develop diet-induced obesity (DIO) spontaneously gain more body weight between 5 and 7 wk of age than do those bred to be diet resistant (DR). Here, chow-fed DIO rats ate 9% more and gained 19% more body weight from 5 to 6 wk of age than did DR rats but had comparable leptin and insulin levels. However, 6-wk-old DIO rats had 29% lower plasma ghrelin levels at dark onset but equivalent levels 6 h later compared with DR rats. When subsequently fed a high-energy (HE; 31% fat) diet for 10 days, DIO rats ate 70% more, gained more body and adipose depot weight, had higher leptin and insulin levels, and had 22% lower feed efficiency than DR rats fed HE diet. In DIO rats on HE diet, leptin levels increased significantly at 3 days followed by increased insulin levels at 7 days. These altered DIO leptin and ghrelin responses were associated with 10% lower leptin receptor mRNA expression in the arcuate (ARC), dorsomedial (DMN), and ventromedial hypothalamic nuclei and 13 and 15% lower ghrelin receptor (GHS-R) mRNA expression in the ARC and DMN than in the DR rats. These data suggest that increased ghrelin signaling is not a proximate cause of DIO, whereas reduced leptin sensitivity might play a causal role.
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PMID:Abnormalities of leptin and ghrelin regulation in obesity-prone juvenile rats. 1286 57

Four years ago Kojima and coworkers discovered ghrelin. Within this short lifespan ghrelin has become one of the "hottest topics" in metabolic research, and today more than 300 papers have emerged (PubMed search). The huge interest in ghrelin is partly due to its involvement in appetite regulation. Over-nutrition, obesity and type 2 diabetes are major burdens of health services in all Western countries, and the discovery of ghrelin opens for the development of antagonists that may make it possible to control appetite and food intake. At the other end of the nutritional scale, ghrelin agonists may be used in cachexia in e.g. anorexia nervosa and cancer. Thus, the potential clinical value of ghrelin research appears to be enormous. At the time of writing several in-house as well as commercial ghrelin assays have been developed. However, we still need to come to a consensus on measurement of circulating ghrelin levels. Up till now, blood ghrelin has been estimated by use of serum as well as various types of plasma, with or without extraction prior to assay. This may affect both results and conclusions. In the present paper we shall review the current literature on ghrelin, with special focus on measurements in human blood specimens.
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PMID:Assessment of ghrelin. 1287 66

Ghrelin is a GH-releasing peptide that also has an important role as an orexigenic hormone-stimulating food intake. By measuring inositol phosphate turnover or by using a reporter assay for transcriptional activity controlled by cAMP-responsive elements, the ghrelin receptor showed strong, ligand-independent signaling in transfected COS-7 or human embryonic kidney 293 cells. Ghrelin and a number of the known nonpeptide GH secretagogues acted as agonists stimulating inositol phosphate turnover further. In contrast, the low potency ghrelin antagonist, [D-Arg1,D-Phe5,D-Trp7,9,Leu11]-substance P was surprisingly found to be a high potency (EC50 = 5.2 nm) full inverse agonist as it decreased the constitutive signaling of the ghrelin receptor down to that observed in untransfected cells. The homologous motilin receptor functioned as a negative control as it did not display any sign of constitutive activity; however, upon agonist stimulation the motilin receptor signaled as strongly as the unstimulated ghrelin receptor. It is concluded that the ghrelin receptor is highly constitutively active and that this activity could be of physiological importance in its role as a regulator of both GH secretion and appetite control. It is suggested that inverse agonists for the ghrelin receptor could be particularly interesting for the treatment of obesity.
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PMID:High constitutive signaling of the ghrelin receptor--identification of a potent inverse agonist. 1290 57

Prader-Willi syndrome (PWS) is characterized by severe obesity, hyperphagia, hypogonadism, and GH deficiency. Unlike individuals with common obesity, who have low fasting-plasma ghrelin concentrations, those with PWS have high fasting-ghrelin concentrations that might contribute to their hyperphagia. Treatment with octreotide, a somatostatin agonist, decreases ghrelin concentrations in healthy and acromegalic adults and induces weight loss in children with hypothalamic obesity. This pilot study was performed to determine whether octreotide administration (5 microg/kg.d) for 5-7 d lowers ghrelin concentrations and affects body composition, resting energy expenditure, and GH markers in children with PWS. Octreotide treatment decreased mean fasting plasma ghrelin concentration by 67% (P < 0.05). Meal-related ghrelin suppression (-35%; P < 0.001) was still present after intervention but was blunted (-11%; P = 0.19). Body weight, body composition, leptin, insulin, resting energy expenditure, and GH parameters did not change. However, one subject's parent noted fewer tantrums over denial of food during octreotide intervention. In conclusion, short-term octreotide treatment markedly decreased fasting ghrelin concentrations in children with PWS but did not fully ablate the normal meal-related suppression of ghrelin. Further investigation is warranted to determine whether long-term octreotide treatment causes sustained ghrelin suppression, changes eating behavior, and induces weight loss in this population.
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PMID:Circulating ghrelin levels are suppressed by meals and octreotide therapy in children with Prader-Willi syndrome. 1291 38

Over the past decade, there has been a tremendous increase in the understanding of the molecular and neural mechanisms that control food intake and body weight. Yet eating disorders and cachexia are still common, and obesity cases are rising at alarming rates. Thus, despite recent progress, an increased understanding of the molecular and neural substrates that control body weight homeostasis is a major public health goal. In this review, we discuss the mechanisms by which metabolic signals interact with key behavioral, neuroendocrine, and autonomic regulatory regions of the central nervous system. Additionally, we offer a model in which hormones such as leptin and ghrelin interact with similar central nervous system circuits and engage them in such a way as to maintain an appropriate and tight regulation of body weight and food intake. Our model predicts that overstimulation or understimulation of these central pathways can result in obesity, anorexia, or cachexia.
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PMID:Minireview: From anorexia to obesity--the yin and yang of body weight control. 1293 44

Rapid progress in human genome decoding has accelerated search for the role of gene polymorphisms in the pathogenesis of complex multifactorial diseases. This review summarizes the results of recent studies on the associations of common gene variants with multifactorial chronic conditions strongly affected by nutritional factors. Three main individual sections discuss genes related to energy homeostasis regulation and obesity, cardiovascular disease (CVD), and cancer. It is evident that several major chronic diseases are closely related (often through obesity) to deregulation of energy homeostasis. Multiple polymorphic genes encoding central and peripheral determinants of energy intake and expenditure have been revealed over the past decade. Food intake control may be affected by polymorphisms in the genes encoding taste receptors and a number of peripheral signaling peptides such as insulin, leptin, ghrelin, cholecystokinin, and corresponding receptors. Polymorphic central regulators of energy intake include hypothalamic neuropeptide Y, agouti-related protein, melanocortin pathway factors, CART (cocaine- and amphetamine-regulated transcript), some other neuropeptides, and receptors for these molecules. Potentially important polymorphisms in the genes encoding energy expenditure modulators (alpha- and beta- adrenoceptors, uncoupling proteins, and regulators of adipocyte growth and differentiation) are also discussed. CVD-related gene polymorphisms comprising those involved in the pathogenesis of atherosclerosis, blood pressure regulation, hemostasis control, and homocysteine metabolism are considered in a separate section with emphasis on multiple polymorphisms affecting lipid transport and metabolism and their interactions with diet. Cancer-associated polymorphisms are discussed for groups of genes encoding enzymes of xenobiotic metabolism, DNA repair enzymes, factors involved in the cell cycle control, hormonal regulation-associated proteins, enzymes related to DNA methylation through folate metabolism, and angiogenesis-related factors. There is an apparent progress in the field with hundreds of new gene polymorphisms discovered and characterized, however firm evidence consistently linking them with pathogenesis of complex chronic diseases is still limited. Ways of improving the efficiency of candidate gene approach-based studies are discussed in a short separate section. Successful unraveling of interaction between dietary factors, polymorphisms, and pathogenesis of several multifactorial diseases is exemplified by studies of folate metabolism in relation to CVD and cancer. It appears that several new directions emerge as targets of research on the role of genetic variation in relation to diet and complex chronic diseases. Regulation of energy homeostasis is a fundamental problem insufficiently investigated in this context so far. Impacts of genetic variation on systems controlling angiogenesis, inflammatory reactions, and cell growth and differentiation (comprising regulation of the cell cycle, DNA repair, and DNA methylation) are also largely unknown and need thorough analysis. These goals can be achieved by complex simultaneous analysis of multiple polymorphic genes controlling carefully defined and selected elements of relevant metabolic and regulatory pathways in meticulously designed large-scale studies.
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PMID:Common gene polymorphisms and nutrition: emerging links with pathogenesis of multifactorial chronic diseases (review). 1294 74


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