UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
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Ectopic ACTH syndrome is a clinicopathologic condition produced by certain tumors which release hormone that is indistinguishable from ACTH. It orginates the chemical and clinical anomalies characteristic of Cushing's syndrome by its action on the adrenal glands. The tumors may be present in any organ, though they are most frequently found in the lungs, thymus, pancreas or gastrointestinal tract. They may be benign or malignant, though usually the latter. Secretion of the hormone is completely autnomous; it is release in a way similar to that of the hypophysis. Not infrequently other hormones besides ACTH are also produced, such as MSH, serotonin, and CRF. Ectopic ACTH is of higher molecular weight than hypophyseal ACTH, which suggest it may be comprised of the latter bounded covalently to a peptide. The clinical course is rapid, so that not all of the symptoms of Cushing's syndrome develop. Moon face, osteoporosis, and obesity are typically lacking; melanodermia and hypokalemic alkalosis ofter appear. Laboratory data include an increase in ACTH and cholesterol concentrations, disappearance of the nictameral rhythm, and an increase in urinary excretion of 17-hydroxycorticoids and 17-ketosteroids. Stimulation and supression tests are abnormal. The prognosis is poor and the only possible treatment is a complete surgical removal of the tumor. Irradiation or chemotherapy could be applied as well as the correction of the adrenal hyperfunction by the administration of drugs or by total bilateral adrenalectomy.
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PMID:[Ectopic ACTH syndrome (author's transl)]. 22 77

Obesity occurs in both clinical and animal forms in a variety of specific models which allow study of its underlining endocrine and mechanistic features. Among the neuroendocrine varieties of obesity, polycystic ovaries are probably the most common. The importance of the gonadal feedback system for regulation of food intake and obesity is indicated by the effects of castration in experimental animals which is a widely used mechanism for producing experimental obesity. Cushing syndrome and hypothalamic obesity are rare clinical syndromes. The current evidence suggests that there are two types of hypothalamic obesity from a mechanistic point of view--one associated with hyperphagia as a necessary and sufficient cause and a disturbance of the autonomic nervous system without hyperphagia as a second mechanism. Although genetic factors underlie most types of human obesity, there are several dymorphic forms of obesity including the Prader-Willy syndrome, Cohen's syndrome, Carpenter's syndrome, Ahlstrom's syndrome and the Bardet-Biedel syndrome. The Prader-Willi syndrome is characterized by obesity hypotonia hypogonadism and mental retardation. In animals, a dominant form of inheritance of obesity is seen in the yellow mouse. Current evidence suggests that this syndrome can be explained by reduced acetylation of MSH in the pituitary and/or hypothalamus. Several recessively inherited forms of obesity exist including the obese mouse, the diabetes mouse, fatty rat, the fat mouse, tubby mouse and the corpulent rat. In addition, there are a number of polygenic types of experimental obesity. The final mechanistic classification of obesity are those due to dietary manipulation. For both human beings and animals, a highly fat diet appears to be particularly problematic for the development of obesity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic, hypothalamic and endocrine features of clinical and experimental obesity. 148 Jul 57

Thermogenesis (adaptive increases in heat production) can develop in response to low environmental temperature, alterations in the amount or composition of the diet, and pathogenic stimuli, such as infection, injury, and inflammation. Thermogenic responses to each of these stimuli appear to be mediated by activation of the sympathetic nervous system and, at least in experimental animals, by heat production in brown fat. Thermogenesis is under the direct control by the central nervous system (CNS), particularly by specific regions of the hypothalamus. Serotonergic pathways have been directly implicated in the central control of most forms of thermogenesis, and indirect evidence suggests involvement of adrenergic and cholinergic mechanisms. Numerous peptides have been shown to induce increases on metabolic rate when injected into the brains of experimental animals; of these, corticotrophin-releasing factor (CRF) has been the most extensively studied. CRF appears to mediate thermogenic responses to serotonergic agonists, injury, and cytokines, and may be involved in impaired thermogenic responses in certain genetically obese rodents. Cytokines, particularly interleukin-1 (IL-1) and IL-6, act as endogenous pyrogens in the brain and stimulate thermogenesis via synthesis of prostaglandins and CRF. Peptides such as lipocortin-1, arginine vasopressin, and alpha MSH potently inhibit central effects of cytokines. Pharmacological modification of thermogenesis may be clinically beneficial in treating conditions such as obesity, cachexia, and fever.
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PMID:CNS regulation of thermogenesis. 812 29

Mutations reducing the functional activity of leptin, the leptin receptor, alpha-melanocyte stimulating hormones (alpha-MSH) and the melanocortin-4 receptor (Mc4r) all lead to obesity in mammals. Moreover, mutant mice that ectopically express either agouti (Ay/a mice) or agouti-related protein (Agrp), antagonists of melanocortin signalling, become obese. These data suggest that alpha-MSH signalling transduced by Mc4r tonically inhibits feeding; however, it is not known to what extent this pathway mediates leptin signalling. We show here that Mc4r-deficient (Mc4r-/-) mice do not respond to the anorectic actions of MTII, an MSH-like agonist, suggesting that alpha-MSH inhibits feeding primarily by activating Mc4r. Obese Mc4r-/-mice do not respond significantly to the inhibitory effects of leptin on feeding, whereas non-obese Mc4r-/- mice do. These data demonstrate that melanocortin signalling transduced by Mc4r is not an exclusive target of leptin action and that factors resulting from obesity contribute to leptin resistance. Leptin resistance of obese Mc4r-/- mice does not prevent their response to the anorectic actions of ciliary neurotrophic factor (CNTF), corticotropin releasing factor (CRF), or urocortin; or the orexigenic actions of neuropeptide Y (NPY) or peptide YY (PYY), indicating that these neuromodulators act independently or downstream of Mc4r signalling.
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PMID:Response of melanocortin-4 receptor-deficient mice to anorectic and orexigenic peptides. 991 4

The peptide products of the pro-opiomelanocortin (POMC) gene have established roles in the control of physiological processes as diverse as adrenal steroidogenesis, skin pigmentation, analgesia and inflammation. In the last 5 years, evidence accumulated from murine and human genetic models of disrupted melanocortin signalling has firmly established a central role for a population of hypothalamic neurons expressing POMC in the control of appetite and body weight. Of the five known melanocortin receptors, the MC4R has been most closely linked to body weight regulation. While a-MSH is active at this receptor and suppresses appetite after central injection, important roles for other POMC-derived products have not been excluded. The development of pharmacological agonists acting on, or mimicking, the hypothalamic melanocortinergic pathway may provide exciting opportunities for the therapy of human obesity.
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PMID:The role of melanocortin signalling in the control of body weight: evidence from human and murine genetic models. 1062 76

The melanocortin (MC)4 receptor is important for food intake and weight homeostasis as it mediates the orexigenic and anorexigenic effects of the MCs. OLETF (Otsuka-Long-Evans-Tokushima-Fatty) rats are a selective inbred strain of polygenic variant rats which overeat and develop obesity with elevated leptin levels. We investigated by autoradiography if the expression of MC receptors were altered in ovariectomized estradiol-replaced female OLETF rats compared to their controls (Long-Evans-Tokushima-Otsuka (LETO) rats). We found that OLETF rats show a reduction in total [125I]NDP-MSH MC receptor binding in the ventromedial hypothalamic nucleus, perhaps reflecting an increased release of MC peptides in this region. The levels of MC receptors in the arcuate nucleus and the paraventricular hypothalamic nucleus were not changed. Interestingly, the OLETF rats also showed reduced MC-receptor binding in areas such as the nucleus accumbens shell, and the ventral tegmental area, both of which are believed to be involved in reward systems. Similarities in the changes of MC receptor expression in obese animals and in animals treated with opiates may suggest a neurobiological link between food intake mediated through the MC receptors and reward.
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PMID:Downregulation of melanocortin receptors in brain areas involved in food intake and reward mechanisms in obese (OLETF) rats. 1066 10

Effects of obesity on gene expression for opioid peptides and neuropeptide-Y (NPY) in the arcuate nucleus (ARC), and on opioid peptides and alpha-melanocyte stimulating hormone (alpha-MSH) in the paraventricular nucleus (PVN) were examined in obese Zucker rats (18 weeks old). Obese Zucker rats are insulin-resistant, diabetic and hyperleptinemic as indicated by high serum glucose, insulin and leptin levels. ARC proOpiomelanocortin (POMC) mRNA levels were significantly lower in the obese relative to lean Zucker rats and ARC proNeuropeptide Y (proNPY) mRNA levels were higher (P<0.05). There were no differences in proDynorphin and proEnkephalin mRNA levels in the ARC (0.05). Obese Zucker rats had lower alpha-MSH and dynorphin A(1-17) peptide levels in the paraventricular nucleus (PVN) (P<0.05), but did not have lower PVN beta-endorphin peptide levels (0.05). The decrease in POMC in the ARC and decrease in alpha-MSH in the PVN seen in the obese Zucker rat in the present study suggest that reduced activity of the melanocortin system in the ARC to PVN pathway may contribute to the related hyperphagia. Reduced activity of the melanocortin system in the ARC to PVN pathway may be due to a disturbance of leptin signaling coupling to POMC.
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PMID:ARC POMC mRNA and PVN alpha-MSH are lower in obese relative to lean zucker rats. 1079 63

Proopiomelanocortin (POMC) is a precursor to various, bioactive peptides including ACTH, beta LPH, alpha MSH, and beta endorphin (beta END). Processing of POMC at dibasic residues is tissue-specific and is performed by either PC1 alone (resulting in ACTH and beta LPH, anterior pituitary corticotrophes) or by a combination of PC1 and PC2 (yielding alpha MSH and beta END, pituitary neurointermediate lobe and hypothalamus). The PC2-specific binding protein 7B2 is intimately involved in the zymogen activation of proPC2 into PC2. Structure-function studies of these enzymes demonstrated the presence of N- and C-terminal domains, as well as specific amino acids within the catalytic segment that influence the degree of activity of each enzyme and the interaction of PC2 with 7B2. The tissue distribution, plasticity of expression, and the multiple precursors that are differentially cleaved by PC1 and/or PC2, predict a wide array of combinatorial activities of these convertases within the endocrine and neuroendocrine system. The phenotypic consequences of the absence of genetic expression of either PC1 or PC2 are now explored using knockout mice and in human patients suffering from obesity and diabetes.
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PMID:The subtilisin/kexin family of precursor convertases. Emphasis on PC1, PC2/7B2, POMC and the novel enzyme SKI-1. 1081 41

The melanocortin (ACTH/MSH) peptides exert a number of central effects. In the eighties, we described for the first time a role for melanocortins in the central control of appetite. We showed that the injection of ACTH-(1-24) into a brain lateral ventricle reduced food intake up to 76.6% in starved rats. Injections into the ventromedial hypothalamus during the nocturnal feeding phase also markedly inhibited food intake. These effects were also confirmed in mice and rabbits. Targeted disruption of the MC4 receptor resulting in obesity in mice explained the role of this receptor in mediating effects of melanocortins on food intake. Administration of MC4 receptor agonists leads to acute reduction in food intake and body weight, while the reverse effects are observed after administration of selective MC4 receptor antagonists, confirming the role of the melanocortins in mediating a tonic inhibition on feeding behavior. Moreover, immobilization stress-induced anorexia may be partially reversed by single and repeated intracerebroventricular administration of selective MC4 receptor antagonists. It is thus evident that MC4 receptor blockage can reduce stress-induced anorexia and that repeated injections of selective MC4 receptor antagonists have a sustained effect on food intake without any sign of tachyphylaxis. However, we have also shown that the behavioral effects of CRF (anorexia and grooming) are not influenced by MC4 receptor blockage. These effects of CRF are thus not due to an indirect mechanism caused by an increased release of melanocortins acting on the central MC receptors.
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PMID:Melanocortins and feeding behavior. 1084 May 89

The cloning of five rodent obesity genes has constituted a major advance in our understanding of body weight homeostasis. Breakthroughs in human molecular genetics have identified mutations disrupting either rodent homologue/analogue genes or genes involved in the same pathways in obese patients. Three rare cases of human morbid obesity of early onset associated with hypogodatropic hypogodanism are due to mutations in the leptin and the leptin receptor genes. These studies have confirmed that leptin plays not only a crucial role in the control of body weight in the human but also in several endocrine functions. Other Human obesity syndromes are linked to mutations in the genes encoding brain-expressed targets of leptin, particularly some key components of the melanocortin system. Patients compound heterozygous for mutations in the POMC gene display severe obesity of early onset, congenital adrenal insufficiency and red hair. Another genetic cause of obesity is due to mutation in the Proconvertase gene (PC1), the enzyme required for the cleavage of POMC into ACTH and alpha MSH, and also of Proinsulin to insulin. The subject compound heterozygous for the PC1 mutation displays besides obesity, a partial ACTH deficiency, elevated POMC and late post absorptive hypoglycemia due to the accumulation of high pro-insulinemia. Contrasting largely with these rare syndromic forms of obesity, several mutations located in the melanocortin 4 receptor gene have been showed to cause an early onset dominant form of obesity with no other associated abnormalities indifferent populations. These mutations in MC4-R could represent a "frequent" cause of common monogenic forms of obesity in human. More generally, these researches into human obesity have opened new exciting understandings in some of the pathways regulating body fat mass.
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PMID:[Monogenic forms of obesity: from mice to human]. 1114 35

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