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)

Mouse coat colour genes have long been studied as a paradigm for genetic interactions in development. A number of these genes have been cloned and most correspond to human genetic disease loci. The proteins encoded by these genes include transcription factors, receptor tyrosine kinases and growth factors, G-protein coupled receptors and their ligands, membrane proteins, structural proteins and enzymes. Many of the mutations have pleiotropic effects, indicating that these proteins play a wider role in developmental or cellular processes. In this review I tabulate the available data on all pigmentation genes cloned from mouse or human, and I focus on three particular systems. One family of genes, including LYST and HPS/ep, shows the relationship between melanosomes and lysosomes. The G-protein coupled receptor, endothelin receptor-B, and its ligand, endothelin-3, are required for the development of both melanocytes and enteric neurons. The melanocortin-1 receptor is expressed only on melanocytes, but mutations that cause overexpression of agouti protein, an antagonist of the receptor, result in obesity, and highlight a role of melanocortins in weight homoeostasis.
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PMID:Homologous pigmentation mutations in human, mouse and other model organisms. 930 Jun 52

The pancreatic polypeptide (PP-fold) family of peptides consists of the endocrine peptides, pancreatic polypeptide (PP) and peptide YY (PYY), and the neuroneally derived peptide, neuropeptide Y (NPY). All three peptides are found in the circulation, with PP found primarily in the pancreas and PYY found principally in the gut. NPY is released into the circulation from neuroneal stores in response to stress. These peptides have broad peripheral actions on a number of organs. Not surprisingly, PYY and PP are believed to play an important role in the function of the gastrointestinal tract while NPY is a potent vasconstrictor and may have effects on the gut through the enteric nervous system. In the brain, NPY has been implicated in anxiety and depression, feeding and obesity, memory retention, neuroneal excitability, endocrine function, and metabolism. Recent advances in the molecular biology of the receptors for these peptides have resulted in the identification of at least six receptor subtypes with varying peptide pharmacology. Compared to other G-protein coupled receptor families, the PP-fold peptide receptors exhibit a relatively low level of sequence identity. Further advances in the development of selective agonists and antagonists for individual receptor subtypes will be needed to understand further their role in physiological function.
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PMID:Multiple receptors for the pancreatic polypeptide (PP-fold) family: physiological implications. 957 48

Clinical receptology encompasses broad areas, including receptor or postreceptor defects due to mutations of receptor or other genes, abnormalities due to receptor antibodies and secondary changes of receptors under various pathological conditions. Recent progress in molecular biology has succeeded in cloning genes of receptors, G-proteins and other cellular proteins that are involved in the signal transduction and clarified their germ-line and somatic mutations. It is of importance that mutations of receptors and G-proteins do not necessarily cause loss of function but sometimes cause gain of function of receptors or G-proteins, thus leading to hyperfunction. Molecular basis that causes either loss or gain of function has been studied but is not completely understood. Some examples of gain of function mutatious of G-protein coupled receptors, tyrosin kinase-type receptors and G alpha protein are shown. Another important aspect in receptor research is that mutation of a single receptor gene sometimes result in different phenotypes and even different modes of inheritance. For example, mutations of rhodopsin (a G-protein coupled receptor) gene cause retinitis pigmentosa of autosomal dominant type and autosomal recessive type and also cause congenital stationary night blindness. Exact mechanisms responsible for such differences are not completely understood. There are polymorphisms in some genes that may be involved in some diseases. An example is a polymorphism in beta 3-adrenergic receptor that is claimed but not clearly demonstrated to be a cause of obesity or type II diabetes. Such polymorphism is possibly a gene in polygenic diseases. Receptology is important for elucidating pathogenesis of complex diseases.
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PMID:[Recent progress in clinical aspects of receptor research]. 970 34

To identify new drug targets for the treatment of obesity, we employed a degenerate reverse transcriptasepolymerase chain reaction technique to isolate novel members of the G-protein coupled receptor superfamily from mouse hypothalamus. One of our clones was found to encode a protein with 90% amino acid identity to human GPR10, which was previously identified as the receptor for prolactin-releasing peptide (PrRP) and has been implicated in lactation, the regulation of food intake and other physiological functions. To investigate the role of GPR10 in food intake and body weight homeostasis, we generated mice carrying a targeted deletion of the GPR10 gene. First, using these knockout animals, we confirmed that GPR10 is the principle receptor for PrRP in the mouse hypothalamus because deletion of GPR10 completely abolished PrRP binding to isolated hypothalamic cell membranes. Second, we investigated the effect of normal and high-fat diets on energy intake, body weight, and glucose homeostasis in wild-type and GPR10 knockout mice. After fasting and refeeding, food intake in knockout animals was unchanged relative to control littermates. However, beginning at 16 wk of age on a normal diet, knockout mice became hyperphagic, obese, and showed significant increases in body fat and the levels of leptin and insulin, as well as decreased glucose tolerance. This metabolic profile was similar to the effect of a high-fat diet on wild-type animals. Our findings provide direct evidence that GPR10 is the receptor for PrRP and that it is involved in the regulation of energy balance in mice. GPR10 knockout mice will also prove useful for investigating other proposed activities for PrRP.
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PMID:The prolactin-releasing peptide receptor (GPR10) regulates body weight homeostasis in mice. 1474 14

One subset of the G-protein coupled receptor (GPCR) superfamily is that which is activated by a peptide carrying an obligatory positively charged residue (GPCR-PA(+)). This subclass is exemplified by receptors for melanocortins, GnRH, galanin, MCH, orexin, and some chemokine receptors variously involved in eating disorders, reproductive disorders, pain, narcolepsy, obesity, and inflammation. Using the methods described in this study, a region of chemical property space enriched in GPCR ligands was identified. This information was used to design and synthesize a "test" library of 2025 single, pure compounds to sample portions of this property space associated with GPCR-PA(+) ligands. The library was evaluated by high-throughput screening against three different receptors, rMCH, hMC4, and hGnRH, and found to be highly enriched in active ligands (4.5-61-fold) compared to a control set of 2024 randomly selected compounds. In addition, the analysis suggested that about 7000 compounds will be necessary to complete the sampling of this GPCR-PA(+) ligand-rich region and to better define its borders.
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PMID:A screening library for peptide activated G-protein coupled receptors. 1. The test set. 1561 35

Neuropeptide Y (NPY) is a 36 amino acid amidated peptide with high sequence homology to the endocrine peptides, peptide YY (PYY) and pancreatic polypeptide (PP). They appear to interact with a family of receptors that possess high affinity for one or more of these peptides. Five members of the receptor family have been cloned, with several additional members postulated through pharmacological evidence. All are members of the seven transmembrane domain-G-protein coupled receptor family. The Y1 receptor is the best characterised, with several nonpeptide antagonists available. This receptor appears to mediate a constriction of the peripheral vasculature and the 'anxiolytic' effects of centrally administered NPY. Less is known about the other receptors in the family. The Y2 receptor is believed to be presynaptic and mediates a reduction in neurotransmitter release. The Y4 receptor appears to be the receptor for pancreatic polypeptide, with high amounts of mRNA for this receptor found in the periphery, but lower levels in the brain. The Y5 receptor is expressed in the hypothalamus and has been postulated to be the receptor which mediates the increased food consumption seen following centrally administered NPY. Finally, the Y6 receptor has been cloned in the mouse and other species, but does not appear to encode a functional gene product in humans. Several types of nonpeptide Y1 and a series of Y5 antagonists have been described in the patent literature, though these compounds have limitations that will confine their use to preclinical studies. Nevertheless, considerable progress has been made in understanding the role of NPY and its receptors in experimental obesity. The next step will be the discovery of potent and selective nonpeptide antagonists, to add further credence to the therapeutic potential.
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PMID:Neuropeptide Y receptor antagonists in obesity. 1598 83

Melanin-concentrating hormone (MCH), an orexigenic neuropeptide in mammals, activates a G-protein coupled receptor, MCHR1. It is expected that antagonists of MCHR1 function will prove therapeutically useful as anti-obesity agents. Intracellular signaling by MCHR1 has been investigated primarily using non-neural cell lines expressing the recombinant receptor, in which MCHR1 has been shown to couple to G alpha(i/o) and G alpha(q) G-proteins. While these cell lines have been widely utilized to discover and optimize small molecule antagonists, it is unknown whether the intracellular signaling pathways in these cells accurately reflect those in neurons. Thus, we sought to develop a neurally derived cell line endogenously expressing MCHR1. IMR32, a human neuroblastoma cell line, has been shown to express MCHR1 mRNA; however, we were unable to detect either MCH-binding or MCH-stimulated Ca++-mobilization in these cells. Following transfection of IMR32 cells with a plasmid encoding human G alpha(16) G-protein, we isolated a cell line, I3.4.2, which responded to MCH in Ca++-mobilization assays. We found that the expression level of MCHR1 mRNA in I3.4.2 cells was 2000-fold higher than in the parent cell line. Using [125I]MCH saturation-binding to I3.4.2 cell membranes, we estimated the Bmax as 0.72 pmol/mg protein and the Kd as 0.35 nM. We report that Ca++-mobilization in I3.4.2 cells was insensitive to pertussis toxin (Ptx) treatment, indicating that signaling was via G alpha(q) G-proteins. Furthermore, negative results in cAMP accumulation assays confirmed the lack of signaling via the G alpha(i/o) G-proteins. Our results suggest that the I3.4.2 cell line may be useful for characterization of MCHR1 activity in a neural-derived cell line.
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PMID:Characterization of a neuronal cell line expressing native human melanin-concentrating hormone receptor 1 (MCHR1). 1652 57

The Melanocortin-4 Receptor is a G-protein coupled receptor that has been physiologically linked to participate in the regulation of energy homeostasis. The Melanocortin-4 Receptor is stimulated by endogenous melanocortin agonists derived from the pro-opiomelanocortin gene transcript and antagonized by the endogenous antagonist agouti-related protein. Central administration of melanocortin agonists has been demonstrated to decrease food intake and conversely, treatment with antagonists resulted in increased food intake. Deletion of the Melanocortin-4 Receptor gene from the mouse genome results in an obese and hyperphagic phenotype. Polymorphisms of the human Melanocortin-4-Receptor have been found in severely obese individuals, suggesting that Melanocortin-4 Receptor malfunction might be involved in human obesity and obesity-associated diabetes. Herein, we have performed experiments to understand the molecular mechanisms associated with the L250Q human Melanocortin-4-Receptor polymorphism discovered in an extremely obese woman. This L250Q human Melanocortin-4-Receptor has been pharmacologically characterized to result in a constitutively active receptor. The fact that a constitutively active human Melanocortin-4-Receptor mutation was found in an obese person is a physiologic contradiction, as chronic activation of the human Melanocortin-4-Receptor and subsequently high cyclic adenosine monophosphate levels should theoretically result in a normal or lean phenotype. In this study, we demonstrated that agouti-related protein acts as an inverse agonist at this constitutively active receptor, and we propose a mechanism by which agouti-related protein might contribute to the obese phenotype in the L250Q patient. In addition, using receptor mutagenesis, pharmacology, and computer modeling approaches, we investigated the molecular mechanism by which modification of the L250 residue results in constitutive activation of the human Melanocortin-4-Receptor.
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PMID:Molecular mechanism of the constitutive activation of the L250Q human melanocortin-4 receptor polymorphism. 1661 Dec 15

The melanocortin-4 receptor (MC4R) is a G-protein coupled receptor (GPCR) that is expressed in the central nervous system and has a role in regulating energy homeostasis and obesity. Up to a remarkable 6% of morbidly obese adults and children studied possess single nucleotide polymorphisms (SNPs) of the MC4R. Upon stimulation by agonist, the MC4R signals through the intracellular adenylate cyclase signal transduction pathway. Posttranslational modification of the pro-opiomelanocortin (POMC) gene transcript results in the generation of several endogenous melanocortin receptor agonists including alpha-, beta-, gamma-melanocyte stimulating hormones (MSH) and adrenocorticotropin (ACTH) ligands. The endogenous MC4R antagonist, agouti-related protein (AGRP), is expressed in the brain and is only one of two naturally occurring antagonists of GPCRs identified to date. Herein, we have generated 40 hMC4 polymorphic receptors and evaluated their cell surface expression by flow cytometry as well as pharmacologically characterized their functionality using the endogenous agonists alpha-MSH, beta-MSH, gamma2-MSH, ACTH(1-24), the antagonist hAGRP(87-132), and the synthetic agonists NDP-MSH and MTII. This is the first study in which polymorphic hMC4Rs have been pharmacologically characterized simultaneously with multiple endogenous ligands. Interestingly, at the N97D, L106P, and C271Y hMC4Rs beta-MSH was more potent than the other endogenous agonists alpha-MSH, gamma2-MSH, ACTH(1-24). The S58C and R165Q/W hMC4Rs possessed significantly reduced endogenous agonist potency (15- to 90-fold), but the synthetic ligands NDP-MSH and MTII possessed only 2-9-fold reduced potency as compared to the wild-type receptor, suggesting their potential as therapeutic ligands to treat individuals with these polymorphisms.
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PMID:Pharmacological characterization of 40 human melanocortin-4 receptor polymorphisms with the endogenous proopiomelanocortin-derived agonists and the agouti-related protein (AGRP) antagonist. 1675 16

The melanocortin (MC) system confines unique G-protein coupled receptor pathways, which include the MC(1-5) receptors and their endogenous agonists and antagonists, the MCs and the agouti and agouti-related proteins. The MC4 receptor is an important target for development of drugs for treatment of obesity and cachexia. While natural MC peptides are selective for the MC1 receptor, some cyclic pentapeptides, such as the HS-129 peptide, show high selectivity for the MC4 receptor. Here we gained insight into the mechanisms for its recognition by MC receptors. To this end we correlated the interaction data of four HS peptide analogues with four wild-type and 14 multiple chimeric MC receptors to the binary and physicochemical descriptions of the studied entities by use of partial least squares regression, which resulted in highly valid proteochemometric models. Analysis of the models revealed that the recognition sites of the HS peptides are different from the earlier proteochemometrically mapped linear MSH peptides' recognitions sites, although they overlap partially. The analysis also revealed important amino acids that explain the selectivity of the HS-129 peptide for the MC4 receptor.
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PMID:Proteochemometric analysis of small cyclic peptides' interaction with wild-type and chimeric melanocortin receptors. 1755 35

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