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)

The mouse agouti gene encodes an 131 amino acid paracrine signaling molecule that instructs hair follicle melanocytes to switch from making black to yellow pigment. Expression of agouti during the middle part of the hair growth cycle in wild-type mice produces a yellow band on an otherwise black hair. The ubiquitous unregulated expression of agouti in mice carrying dominant yellow alleles is associated with pleiotropic effects including increased yellow pigment in the coat, obesity, diabetes and increased tumor susceptibility. Agouti shows no significant homology to known genes, and the molecular analysis of agouti alleles has shed little new light on the important functional elements of the agouti protein. In this paper, we show that agouti expression driven by the human beta-ACTIN promoter produces obese yellow transgenic mice and that this can be used as an assay for agouti activity. We used this assay to evaluate a point mutation associated with the a16H allele within the region encoding agouti's putative signal sequence and our results suggest that this mutation is sufficient to cause the a16H phenotype. Thus, in vitro mutagenesis followed by the generation of transgenic mice should allow us to identify important functional elements of the agouti protein.
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PMID:A transgenic mouse assay for agouti protein activity. 763 91

The mouse agouti coat color gene encodes a novel paracrine signaling molecule whose pulsatile expression produces a characteristic pattern of banded pigment in individual hairs. Several spontaneous agouti alleles produce adult-onset obesity and diabetes, and have provided important single-gene animal models for alterations in energy metabolism. Utilizing linkage groups conserved between mice and humans, we have cloned the human homolog of the mouse agouti gene from a human chromosome 20 yeast artificial chromosome known to contain S-adenosyl homocysteine hydrolase (AHCY). The human agouti gene, named Agouti Signaling Protein (ASP), encodes a 132 amino acid protein, the mRNA for which is expressed in testis, ovary, and heart, and at lower levels in liver, kidney, and foreskin. As predicted by the interactions of mouse agouti with the extension gene (which encodes the melanocyte receptor for alpha-melanocyte stimulating hormone [alpha-MSH]), expression of ASP in transgenic mice produces a yellow coat, and expression of ASP in cell culture blocks the alpha-MSH-stimulated accumulation of cAMP in mouse melanoma cells. The localization of ASP relative to other loci on chromosome 20 excludes it as a candidate for the MODY1 locus, a gene responsible for one form of early-onset non-insulin-dependent diabetes mellitus or maturity-onset diabetes of the young. The expression of ASP in human tissues suggests a function for agouti homologs in species that do not exhibit the characteristic phenotype of banded hairs.
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PMID:Structure and function of ASP, the human homolog of the mouse agouti gene. 775 71

Mice that carry the lethal yellow (Ay) or viable yellow (Avy) mutation, two dominant mutations of the agouti (a) gene in mouse chromosome 2, exhibit a phenotype that includes yellow fur, marked obesity, a form of type II diabetes associated with insulin resistance, and an increased susceptibility to tumor development. Molecular analyses of these and several other dominant "obese yellow" a-locus mutations suggested that ectopic expression of the normal agouti protein gives rise to this complex pleiotropic phenotype. We have now tested this hypothesis directly by generating transgenic mice that ectopically express an agouti cDNA clone encoding the normal agouti protein in all tissues examined. Transgenic mice of both sexes have yellow fur, become obese, and develop hyperinsulinemia. In addition, male transgenic mice develop hyperglycemia by 12-20 weeks of age. These results demonstrate conclusively that the ectopic agouti expression is responsible for most, if not all, of the phenotypic traits of the dominant, obese yellow mutants.
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PMID:Ectopic expression of the agouti gene in transgenic mice causes obesity, features of type II diabetes, and yellow fur. 776 89

Several dominant mutations at the agouti locus in the mouse cause a syndrome of marked obesity, hyperinsulinemia, and insulin resistance. Although it is known that the agouti gene is expressed in an ectopic manner in these mutants, the precise mechanism by which the agouti gene product mediates these effects is unclear. Since intracellular Ca2+ is believed to play a role in mediating insulin action and dysregulation of Ca2+ flux is observed in diabetic animals and humans, we examined the status of intracellular Ca2+ in mice carrying the dominant agouti allele, viable yellow (Avy). We show here that in mice carrying this mutation, the intracellular free calcium concentration ([Ca2+]i) is elevated in skeletal muscle, and the degree of elevation is closely correlated with the degree to which the mutant traits are expressed in individual animals. Moreover, we demonstrate that the agouti gene product is capable of inducing increased [Ca2+]i in cultured and freshly isolated skeletal muscle myocytes from wild-type mice. Based on these findings, we present a model in which we propose that the agouti polypeptide promotes insulin resistance in mutant animals through its ability to increase [Ca2+]i.
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PMID:Agouti regulation of intracellular calcium: role in the insulin resistance of viable yellow mice. 776 89

Hypertension in obesity and insulin resistance has been attributed to insulin stimulation of sympathetic neural output and renal sodium retention. However, recent data demonstrates a significant vasodilatory effect of insulin and suggests that vascular smooth muscle resistance to this action may instead be the cause of hypertension in insulin resistance. This concept is supported by the observation that pharmacological amplification of peripheral insulin sensitivity results in reduced arterial pressure. Insulin attenuates vasoconstrictor responses to pressor agonists and accelerates vascular smooth muscle relaxation, while these effects are blunted in obesity and insulin resistance. Insulin regulation of vasoconstriction and vascular relaxation appears to be secondary to regulation of intracellular Ca2+ ([Ca2+]i), as insulin attenuates both voltage- and receptor-mediated Ca2+ influx and stimulates both the transcription and activity of Ca(2+)-ATPase in vascular smooth muscle cells. Further, these effects are also blunted in insulin resistance. Although [Ca2+]i plays a poorly understood role in insulin signalling, increases beyond an optimal range results in impaired insulin sensitivity, possibly by Ca(2+)-inhibition of insulin-induced dephosphorylation of insulin-sensitive substrates. Consistent with this concept, ectopic overexpression of the agouti gene in the viable yellow (Avy) mouse results in increased skeletal myocyte [Ca2+]i. Accordingly, increased [Ca2+]i in primary insulin target tissues appears to result in peripheral insulin resistance which then results in aberrant regulation of vascular smooth muscle [Ca2+]i and increases in arterial pressure.
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PMID:Insulin resistance vs. hyperinsulinemia in hypertension: insulin regulation of Ca2+ transport and Ca(2+)-regulation of insulin sensitivity. 778 37

The agouti locus was first identified as a result of its effects on the type and temporal deposition of coat color pigments in mammals. Many mutations at the murine agouti locus have now been found, some of which not only affect coat color, but also interfere with diverse biological processes leading to diabetes, obesity, tumor susceptibility and embryonic lethality. Correlations between the genotype and phenotype of agouti mutants, as well as reasons for the pleiotropy of effects caused by agouti mutations, have begun to unfold with the molecular cloning of the agouti gene and its surrounding genomic region.
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PMID:The agouti gene: turned on to yellow. 787 91

The agouti gene normally confers the wild-type coat color of mice. Dominant mutations at the agouti locus result in a pleiotropic syndrome that is characterized by excessive amounts of yellow pigment in the coat, obesity, a non-insulin-dependent diabetic-like condition, and the propensity to form a variety of tumors. Here, we describe a new dominant mutation at the agouti locus in which an intracisternal A-particle (IAP) has integrated in an antisense orientation immediately 5' of the first coding exon of the gene. This mutation, which we have named Aiapy, results in the ectopic expression of the agouti gene through the utilization of a cryptic promoter within the IAP 5' long terminal repeat (LTR). The coat color of Aiapy/-mice ranges from solid yellow to a pigment pattern that is similar to wild type (pseudoagouti), and the expressivity of this mutant phenotype varies with parental inheritance. Those offspring with a yellow coat ectopically express agouti mRNA at high levels and exhibit marked obesity, whereas pseudoagouti mice express agouti mRNA at a very low level and their weights do not differ from wild-type littermates. Data are presented to show that the differential expressivity of the Aiapy allele is correlated with the methylation status of the inserted IAP 5' LTR. These data further support the hypothesis that in dominant yellow mutations at the agouti locus, it is the ubiquitous expression of the wild-type agouti coding sequence that is responsible for the yellow coat color, obesity, diabetes, and tumorigenesis.
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PMID:Differential expression of a new dominant agouti allele (Aiapy) is correlated with methylation state and is influenced by parental lineage. 792 45

The genetic loci agouti and extension control the relative amounts of eumelanin (brown-black) and phaeomelanin (yellow-red) pigments in mammals: extension encodes the receptor for melanocyte-stimulating hormone (MSH) and agouti encodes a novel 131-amino-acid protein containing a signal sequence. Agouti, which is produced in the hair follicle, acts on follicular melanocytes to inhibit alpha-MSH-induced eumelanin production, resulting in the subterminal band of phaeomelanin often visible in mammalian fur. Here we use partially purified agouti protein to demonstrate that agouti is a high-affinity antagonist of the MSH receptor and blocks alpha-MSH stimulation of adenylyl cyclase, the effector through which alpha-MSH induces eumelanin synthesis. Agouti was also found to be an antagonist of the melanocortin-4 receptor, a related MSH-binding receptor. Consequently, the obesity caused by ectopic expression of agouti in the lethal yellow (Ay) mouse may be due to the inhibition of melanocortin receptor(s) outside the hair follicle.
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PMID:Agouti protein is an antagonist of the melanocyte-stimulating-hormone receptor. 793 41

Agouti expression during the middle portion of the mouse hair growth cycle induces melanocytes to synthesize yellow instead of black pigment, generating black hairs with a yellow band. Dominant agouti alleles increase the amount of yellow pigment in the coat and are associated with pleiotropic effects including obesity, diabetes and increased tumor susceptibility. Four dominant agouti alleles (Aiapy, Aiy, and Avy) were recently shown to result from insertions that cause ubiquitous expression of chimeric transcripts encoding a wild-type agouti protein(1,2). Three insertions were identified as intracisternal A-particles, which helps explain the variable coat colors and parental imprinting effects associated with some dominant agouti alleles.
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PMID:The molecular basis for dominant yellow agouti coat color mutations. 798 Apr 72

Several dominant mutations of the mouse agouti coat colour gene have pleiotropic effects that include obesity and a yellow coat. The Ay allele is caused by a large deletion that affects the expression of several contiguous genes. We show that three other obesity-associated agouti mutations, Aiy, Asy and Avy, are due to different molecular alterations that result in ubiquitous expression of a chimaeric RNA that encodes a normal agouti protein. The Aiy and Avy alleles are caused by insertion of an intracisternal A particle element 1 kb or 100 kb, respectively, upstream of agouti coding sequences. These results provide a model for other genes that show allele-specific imprinting, and demonstrate that molecular mechanisms typically responsible for activation of proto-oncogenes can also lead to other disease phenotypes.
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PMID:Neomorphic agouti mutations in obese yellow mice. 798 93

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