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)

Ectopic overexpression of agouti protein, an endogenous antagonist of melanocortin receptors' linked to the beta-actin promoter (BAPa) in mice, produces a phenotype of yellow coat color, Type II diabetes, obesity and increased somatic growth. Spontaneous overexpression of agouti increases stress-induced weight loss. In these experiments, other aspects of stress responsiveness were tested in 12-week-old male wild-type mice and BAPa mice. Two hours of restraint on three consecutive days produced greater increases in corticosterone and post-stress weight loss in BAPa than wild-type mice. In Experiment 2, anxiety-type behavior was measured immediately after 12 min of restraint. This mild stress did not produce many changes indicative of anxiety, but BAPa mice spent more time in the dark side of a light-dark box and less time in the open arms of an elevated plus maze than restrained wild-type mice. In a defensive withdrawal test, grooming was increased by restraint in all mice, but the duration of each event was substantially shorter in BAPa mice, possibly due to direct antagonism of the MC4-R by agouti protein. Thus, BAPa mice showed exaggerated endocrine and energetic responses to restraint stress with small differences in anxiety-type behavior compared with wild-type mice. These results are consistent with observations in other transgenic mice in which the melanocortin system is disrupted, but contrast with reports that acute blockade of central melanocortin receptors inhibits stress-induced hypophagia. Thus, the increased stress responsiveness in BAPa mice may be a developmental compensation for chronic inhibition of melanocortin receptors.
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PMID:Overexpression of agouti protein and stress responsiveness in mice. 1149 65

Proopiomelanocortin (POMC) is a precursor of ACTH, beta- and gamma-liportopins, alpha-, beta- and gamma-MSH, beta-endorphin. alpha-, beta- and gamma-MSH are synthesized by hypothalamus neurons, and leptin stimulates their synthesis. These hormones regulate food consumption and energy metabolism by via melanocortin receptors (MC3-R and MC4-R) in hypothalamus. Screening mutations in the coding region of human POMC has been carried out with PCR, SSCP and DNA sequencing and the association study of these mutations and human obesity has been performed. Group of patients with the exogenous obesity (BMI 37.8 +/- 6.8 kg/m2) consisted of 228 persons (173 women and 55 men). 145 blood donors (67 women and 78 men) without obesity (BMI J25 kg/m2, 23.1 +/- 2.2 kg/m2) and 170 women without apparent obesity at the beginning of the study were included in the control group. 8 polymorph sites: insertions; missense and silent mutations have been identified in the coding region of POMC. Among them 1) two heterozygous mutations: the insertion of 6 b.p. (GGGCCC) in codon 176 inducing the insertion of two amino acid residues (Arg-Ala) in POMC and nonsense mutation (G-7316-T) in codon 180 of gamma-LTH coding region of the same DNA chain were identified in 4 women (5.8%) out of 69 patients with morbid obesity (BMI 40-53 kg/m2). These mutations were not found in control (n = 315). 2) The new heterozygous mutation T-7130-C (Phe118Leu) in active site of alpha-MSH has been identified in POMC gene of a woman suffering with obesity since the early childhood. 3) Mutation A-7341-G (Glu188Gly) seemed to have a protective effect because it was revealed more frequently in control (3.9%) than in obese patients (0.66%). The results of genetic study of two pedigrees suggested the dominant influence of the first two mutations (1 and 2) on woman obesity.
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PMID:[Screening of mutations in genes of pro-opiomelanocortin in patients with constitutional exogenous obesity]. 1206 94

The prevalence of mutations within and in the flanking regions of the gene encoding the melanocortin 4 receptor was investigated in severely obese and normal-weight subjects from the Swedish Obese Subjects study, the Health, Risk Factors, Exercise Training, and Genetics (HERITAGE) Family study, and a Memphis cohort. A total of 433 white and 95 black subjects (94% females) were screened for mutations by direct sequencing. Three previously described missense variants and nine novel (three missense, six silent) variants were detected. None of them showed significant association with obesity or related phenotypes. In addition, two novel deletions were found in two heterozygous obese women: a -65_-64delTG mutation within the 5' noncoding region and a 171delC frameshift mutation predicted to result in a truncated nonfunctional receptor. No pathogenic mutations were found among obese blacks or nonobese controls. Furthermore, none of the null mutations found in other populations was present in this sample. In conclusion, our results do not support the prevailing notion that sequence variation in the melanocortin 4 receptor gene is a frequent cause of human obesity.
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PMID:Melanocortin 4 receptor sequence variations are seldom a cause of human obesity: the Swedish Obese Subjects, the HERITAGE Family Study, and a Memphis cohort. 1236 14

The melanocortin 4 receptor (MC4-R) plays a pivotal role in maintaining energy homeostasis in rodents and humans. For example, MC4-R deletion or mutation results in obesity, hyperphagia, and insulin resistance. Additionally, subsets of leptin-induced autonomic responses can be blocked by melanocortin receptor antagonism, suggesting that MC4-R-expressing neurons are downstream targets of leptin. However, the critical autonomic control sites expressing MC4-Rs are still unclear. In the present study, we systematically examined the distribution of MC4-R mRNA in the adult rat central nervous system, including the spinal cord, by using in situ hybridization histochemistry (ISHH) with a novel cRNA probe. Autonomic control sites expressing MC4-R mRNA in the hypothalamus included the anteroventral periventricular, ventromedial preoptic, median preoptic, paraventricular, dorsomedial, and arcuate nuclei. The subfornical organ, dorsal hypothalamic, perifornical, and posterior hypothalamic areas were also observed to express MC4-R mRNA. Within extrahypothalamic autonomic control sites, MC4-R-specific hybridization was evident in the infralimbic and insular cortices, bed nucleus of the stria terminalis, central nucleus of the amygdala, periaqueductal gray, lateral parabrachial nucleus, nucleus of the solitary tract, dorsal motor nucleus of the vagus (DMV), and intermediolateral nucleus of the spinal cord (IML). By using dual-label ISHH, we confirmed that the cells expressing MC4-R mRNA in the IML and DMV were autonomic preganglionic neurons as cells in both sites coexpressed choline acetyltransferase mRNA. The distribution of MC4-R mRNA is consistent with the proposed roles of central melanocortin systems in feeding and autonomic regulation.
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PMID:Expression of melanocortin 4 receptor mRNA in the central nervous system of the rat. 1254 7

The molecular basis of ligand recognition by the melanocortin 4 receptor (MC4R) has not been fully defined. In this study, we investigated the molecular determinants of MC4R ligand binding, employing a large array of ligands, using three approaches. First, molecular modeling of the receptor was used to identify Phe284, in transmembrane (TM) 7, as a potential site of ligand interaction. Mutation of Phe284 to alanine reduced binding affinity and potency of peptides containing L-Phe by up to 71-fold but did not appreciably affect binding of linear peptides containing D-Phe, consistent with a hydrophobic interaction between the Phe7 of alpha-melanocyte-stimulating hormone and Phe284. Second, we examined the effect of a naturally occurring mutation in TM3 (I137T) that is linked to obesity. This mutation decreased affinity and potency of cyclic, rigid peptides but not more flexible peptides, consistent with an indirect effect of the mutation on the tertiary structure of the receptor. Third, we examined the residues that support ligand selectivity for the MC4R over the MC3R. Mutation of Ile125 (TM3) of the MC4R to the equivalent residue of the MC3R (phenylalanine) selectively decreased affinity and potency of MC4R-selective ligands. This effect was mirrored by the reciprocal MC3R mutation F157I. The magnitude of this effect indicates that this locus is not of major importance. However, it is considered that an isoleucine/phenylalanine mutation may affect the orientation of Asp122, which has been identified as a major determinant of ligand binding affinity. Thus, this study provides further characterization of the MC4R binding pocket.
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PMID:Molecular determinants of melanocortin 4 receptor ligand binding and MC4/MC3 receptor selectivity. 1260 99

Melanocortin receptors (MC-R) activated by one of several peptides derived from the pro-opiomelanocortin (POMC) precursor have become leading contenders for a pivotal role in controlling food intake. Evidence has emerged over the last decade to implicate primarily the MC4-R and, to a lesser extent, MC3-R as the key sub-types involved and both are strategically located in those regions within the hypothalamus known to be associated with feeding. The receptors are within class A of the GPCR superfamily and the key electrostatic interaction with the positively charged peptide (Arg) has been mapped to one or more Asp or Glu residues located on helices II and III of the seven helical bundle characteristic of this class of receptor. Sites for secondary interactions from which sub-type selectivity may be derived have also been located in the extracellular and helical domains. Unique amongst GPCRs is the presence of endogenous antagonist peptides, Agouti and Agouti-related peptide (AGRP), which confer an extra level of control on the system. Recently, several reports of potent and selective non-peptide ligands have been published and these are seen as prototypic molecules from which drugs may emerge to treat obesity (agonists) and cachexia (antagonists). The role played by the melanocortin system is the subject of this review and advances in our understanding of the structure of the endogenous ligand(s), non-peptide, small molecule ligands and the receptors at which they interact will be discussed.
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PMID:The melanocortin system and its role in obesity and cachexia. 1267 37

Heterozygous coding mutations in the melanocortin 4 receptor (MC4R) are implicated in 1 to 6% of early onset or severe adult obesity cases. To better address the problem of the genotype:phenotype relationship within this specific form of obesity, we systematically studied the functional characteristics of 50 different obesity-associated MC4R mutations. Structure modeling of MC4R indicates that obesity-associated MC4R mutations are not localized in a single domain of the protein. We developed a flow cytometry-based assay to compare cell membrane expression of obesity-associated MC4R mutants. Using this assay, we demonstrate that over 54% of the obesity-associated MC4R mutations impair the membrane expression of MC4R. All other mutations impair the basal constitutive activity and/or the EC(50) for the physiological agonist alpha-MSH as measured in a cAMP- dependent luciferase assay. The extent of the alterations in receptor activity ranges from a total suppression of MC4R activation in response to alpha-MSH to a mild alteration of the basal constitutive activity of the receptor. Since most patients are heterozygous for MC4R mutations, these data indicate that a small decrease in overall MC4R activity can cause obesity, strongly supporting the hypothesis that the MC4R is a critical component of the adipostat in humans.
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PMID:Molecular genetics of human obesity-associated MC4R mutations. 1285 Dec 97

To date five melanocortin receptors (MC-R) have been cloned, identified and shown to have a wide distribution throughout the body and likely many diverse functions. MC1-R, found on melanocytes, is involved in pigmentation, while MC2-R is the classic adrenocorticotropic (ACTH) receptor found on the adrenal cortex and adipocytes. MC3-R, MC4-R and MC5-R are in their infancy with regard to their characterization. MC4-R has generated wide interest for its involvement in obesity, whereas our own studies have indicated a role for MC3-R in experimental inflammation. An ACTH fragment unable to alter circulating corticosterone, ACTH-4-10, acts at murine MC3-R present on peritoneal macrophage to inhibit cytokine formation and subsequent neutrophil extravasation. These findings were confirmed using agonists with a higher degree of selectivity toward MC3-R, such as gamma-2-MSH and the synthetic mixed MC3/4-R agonist MTII. In vitro, all these agents were able to affect macrophage functions, including phagocytosis and production of the CXC chemokine KC. Besides using RT-PCR and cAMP formation assays, the involvement of MC3-R in the antiinflammatory actions of these melanocortins was validated with the antagonist SHU-9119. Together these experimental data support the notion that agonism at MC3-R can be used for the design of novel therapeutics for inflammatory conditions.
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PMID:MC3-R as a novel target for antiinflammatory therapy. 1293 49

By screening patients with severe early onset obesity for mutations within the melanocortin 4 receptor (MC4R) gene, we have identified a missense mutation (C271R) that occurs homozygous in two siblings with obesity. In-depth functional characterization of C271R revealed a right-shifted concentration response curve due to lower affinity to natural and synthetic MC4R agonists and a reduced cell surface expression. Cys-271 is located in the third extracellular loop. Here, we provide evidence that Cys-271 forms an intra-loop disulfide bond with Cys-277. Unexpectedly, we found that loss of receptor function is not only caused by the disruption of this disulfide bridge. Our data strongly support a new mechanism in which the receptor malfunction in the C271R mutant is induced by formation of a functionally disastrous disulfide bridge between Cys-277 and a third Cys residue at position 279. Mutational and chemical disruption of this improper disulfide bond was able to restore normal receptor potency. By demonstrating that a loss of a disulfide bond-participating Cys residue can favor a functionally disastrous disulfide bond, we now add a new mechanism of how Cys residues can be involved in G-protein-coupled receptor malfunction.
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PMID:Mutationally induced disulfide bond formation within the third extracellular loop causes melanocortin 4 receptor inactivation in patients with obesity. 1450 70

The gene dosage effect of the MC4-R (melanocortin 4 receptor) on obesity suggests that regulation of MC4-R expression and function is critically important to the central control of energy homoeostasis. In order to identify putative MC4-R regulatory proteins, we performed a yeast two-hybrid screen of a mouse brain cDNA library using the mouse MC4-R intracellular tail (residues 303-332) as bait. We report here on one positive clone that shares 63% amino acid identity with the C-terminal part of the mouse attractin gene product, a single-transmembrane-domain protein characterized as being required for agouti signalling through the melanocortin 1 receptor. We confirmed a direct interaction between this ALP (attractin-like protein) and the C-terminus of the mouse MC4-R by glutathione S-transferase pulldown experiments, and mapped the regions involved in this interaction using N- and C-terminal truncation constructs; residues 303-313 in MC4-R and residues 1280-1317 in ALP are required for binding. ALP is highly expressed in brain, but also in heart, lung, kidney and liver. Furthermore, co-localization analyses in mice showed co-expression of ALP in cells expressing MC4-R in a number of regions known to be important in the regulation of energy homoeostasis by melanocortins, such as the paraventricular nucleus of hypothalamus and the dorsal motor nucleus of the vagus.
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PMID:Characterization of a novel binding partner of the melanocortin-4 receptor: attractin-like protein. 1465 15


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