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
Query: UMLS:C0028754 (
obesity
)
124,988
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Obesity
, an easily detected and quantifiable phenotypic endpoint, is often considered, colloquially, as a disease. However, the study of
obesity
in rodents suggests that it is merely a convenient indicator of diverse underlying metabolic and physiologic dysregulations, rather than a disease entity in itself. To illustrate this concept, the differences between the murine Lepob/Lepob and Avy/- "obesity" syndromes are delineated. In both syndromes, pleiotropic effects of single mutations play a major role in altering the homeostatic regulation of energy metabolism and a myriad of extra- and intracellular processes in a diversity of tissues and cell types. The Lepob/Lepob syndrome mimics juvenile-onset
obesity
, whereas the Avy/- syndrome resembles maturity-onset
obesity
. The Avy/- syndrome has its basis in overabundance of
agouti
protein, whereas the Lepob/Lepob syndrome results from a lack of active leptin hormone. Lepob/Lepob mice have a smaller lean body mass, whereas Avy/- mice have a larger lean body mass than their respective lean siblings. Lepob/Lepob mice have fewer lung and mammary tumors than their lean Lep/- littermates, and Avy/- develop more mammary and lung tumors than their lean A/- or a/a siblings. Lepob/Lepob mice are infertile or sterile, whereas Avy/- mice are fertile. Thus, although adult Lepob/Lepob and Avy/- mice are both obese, many of the other morphologic and physiologic attributes of one mutant are diametrically opposite to those of the other.
...
PMID:Obesity as a pleiotropic effect of gene action. 927 78
The yellow obese syndrome in mice encompasses many pleiotropic effects including yellow fur, maturity-onset
obesity
, hyperinsulinemia, insulin resistance, hyperglycemia, increased skeletal length and lean body mass, and increased susceptibility to neoplasia. The molecular basis of this syndrome is beginning to be unraveled and may have implications for human
obesity
and diabetes. Normally, the
agouti
gene is expressed during the hair-growth cycle in the neonatal skin where it functions as a paracrine regulator of pigmentation. The secreted
agouti
protein antagonizes the binding of the alpha-melanocyte-stimulating hormone to its receptor (melanocortin 1 receptor) on the surface of hair bulb melanocytes, causing alterations in intracellular cAMP levels. Widespread, ectopic expression of the mouse
agouti
gene is central to the yellow obese phenotype, as demonstrated by the molecular cloning of several dominant
agouti
mutations and the ubiquitous expression of the wild-type
agouti
gene in transgenic mice. Recent experiments have revealed that the hypothalamus and adipose tissue are biologically active target sites for
agouti
in the yellow obese mutant lines.
...
PMID:The role of the agouti gene in the yellow obese syndrome. 927 79
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.
...
PMID:Homologous pigmentation mutations in human, mouse and other model organisms. 930 Jun 52
Segregation analysis of body-mass index (BMI) supported recessive inheritance of
obesity
, in pedigrees ascertained through siblings with non-insulin dependent diabetes mellitus (NIDDM). BMI was estimated as 39 kg/m2 for those subjects homozygous at the inferred locus. Two-locus segregation analysis provided weak support for a second recessive locus, with BMI estimated as 32 kg/m2 for homozygotes. NIDDM prevalence was increased among those subjects presumed to be homozygous at either locus. Using both parametric and nonparametric methods, we found no evidence of linkage of
obesity
to any of nine candidate genes/regions, including the Prader-Willi chromosomal region (PWS), the human homologue of the mouse
agouti
gene (ASP), and the genes for leptin (OB), the leptin receptor (OBR/DB), the beta3-adrenergic receptor (ADRB3), lipoprotein lipase (LPL), hepatic lipase (LIPC), glycogen synthase (GYS), and tumor necrosis factor alpha (TNFA).
...
PMID:Recessive inheritance of obesity in familial non-insulin-dependent diabetes mellitus, and lack of linkage to nine candidate genes. 932 33
The
agouti
protein plays an important role in the development of diabetes and
obesity
in rodents and has been shown to be a potent antagonist of melanocortin receptors. For this reason alanine-scanning mutagenesis was performed on the
agouti
protein carboxyl terminus to locate residues important for melanocortin receptor binding inhibition. When
agouti
residues Arg116 and Phe118 are changed to alanine, very large decreases in
agouti
affinity for melanocortin receptor 1, 3, and 4 result. Mutation of Phe117 to alanine causes a similar increase in
agouti
KI app at melanocortin receptor 4. Substitution of
agouti
residue Asp108 with alanine results in large increases in KI app for all three melanocortin receptors examined. All of these residues are conserved in the
agouti
-related transcript, ART, whose expression is up-regulated in animal models of
obesity
. The three-dimensional structure of the
agouti
carboxyl terminus was modeled, and residues which decrease receptor binding by a factor of > or = 15 when mutated to alanine localize to one side of the structure. These
agouti
variants with altered receptor selectivity may be useful in determining the role of melanocortin receptors in diabetes and
obesity
.
...
PMID:Melanocortin receptor binding determinants in the agouti protein. 945 89
An autosomal genomic scan to search for linkage to
obesity
and energy metabolism was completed in Pima Indians, a population prone to
obesity
.
Obesity
was assessed by percent body fat (by hydrodensitometry) and fat distribution (the ratio of waist circumference to thigh circumference). Energy metabolism was measured in a respiratory chamber as 24-h metabolic rate, sleeping metabolic rate, and 24-h respiratory quotient (24RQ), an indicator of the ratio of carbohydrate oxidation to fat oxidation. Five hundred sixteen microsatellite markers with a median spacing of 6.4 cM were analyzed, in 362 siblings who had measurements of body composition and in 220 siblings who had measurements of energy metabolism. These comprised 451 sib pairs in 127 nuclear families, for linkage analysis to
obesity
, and 236 sib pairs in 82 nuclear families, for linkage analysis to energy metabolism. Pointwise and multipoint methods for regression of sib-pair differences in identity by descent, as well as a sibling-based variance-components method, were used to detect linkage. LOD scores >=2 were found at 11q21-q22, for percent body fat (LOD=2.1; P=.001), at 11q23-q24, for 24-h energy expenditure (LOD=2.0; P=.001), and at 1p31-p21 (LOD=2.0) and 20q11.2 (LOD=3.0; P=.0001), for 24RQ, by pointwise and multipoint analyses. With the variance-components method, the highest LOD score (LOD=2.3 P=.0006) was found at 18q21, for percent body fat, and at 1p31-p21 (LOD=2.8; P=.0003), for 24RQ. Possible candidate genes include LEPR (leptin receptor), at 1p31, and ASIP (
agouti
-signaling protein), at 20q11.2.
...
PMID:Autosomal genomic scan for loci linked to obesity and energy metabolism in Pima Indians. 949 55
The application of molecular and genetic techniques to the study of body weight regulation have produced exciting new insights into the physiological systems governing energy expenditure, appetite, and metabolic signaling. A number of new peptides have been identified that play important roles in these regulatory systems. These include the hormone leptin, the short and long forms of the leptin receptor, uncoupling proteins,
agouti
protein, melanocortin receptor isoforms, melanin-concentrating hormone, and the proteins responsible for tub and fat, two monogenic mouse models of
obesity
. This article reviews some of the new insights gained from studies of these peptides. Although much of this new knowledge has come from studies of
obesity
, there may be implications for the clinical syndromes associated with weight loss. As more is learned about these systems, potential new targets for therapeutic intervention will likely become evident. These interventions may develop first as
obesity
treatments, but investigators and clinicians involved in the care of cachectic patients should follow these scientific developments as well.
...
PMID:Recently identified peptides involved in the regulation of body weight. 962 80
KK mouse is known as a polygenic model for noninsulin-dependent diabetes mellitus with moderate obesity. To identify the quantitative trait loci (QTLs) responsible for the body weight in KK, linkage analysis with 97 microsatellite markers was carried out into 192 F2 progeny, comprising 93 mice with a/a genotype at
agouti
locus and 99 mice with A(y)/a genotype, of a cross between C57BL/6J female and KK-A(y) (A(y) congenic) male, thereby the influence of A(y) allele on the quantitative regulation of body weight was also examined. In F2 a/a mice, we identified a QTL on Chromosome (Chr) 4, and two loci with suggestive linkage on Chrs 15 and 18. In F2 A(y)/a mice, a QTL was identified on Chr 6, and two loci with suggestive linkage were identified on Chrs 4 and 16. That the QTL on Chr 4 was held in common between F2 a/a and F2 A(y)/a progenies implies that this locus may be a primary component regulating body weight in KK and KK-A(y). These results suggest that the body weight in KK is controlled by multiple genes, and the different combination of loci is involved in the presence of A(y) allele. The QTL on Chr 6 seemed to determine the body weight by controlling fat deposition, because the linkage was identified on body weight and adiposity, and is suggested to be a component involved in the metabolic pathway in
obesity
caused by the A(y) allele.
...
PMID:Genetics of obesity in KK mouse and effects of A(y) allele on quantitative regulation. 965 45
Agouti-related protein (Agrp) is present in rat and human hypothalamus and is structurally related to
agouti
protein. Overexpression of either of these proteins results in
obesity
. However the effect of exogenous Agrp and its in vivo interaction with alpha-melanocyte stimulating hormone (alphaMSH), the likely endogenous melanocortin 3 and 4 receptor (MC3-R and MC4-R) agonist, have not been demonstrated. We report that 1 nmol of Agrp(83-132), a C-terminal fragment of Agrp, when administered intracerebroventricularly (ICV) into rats, increased food intake over a 24-h period (23.0+/-1.4 g saline vs 32.9+/-2.3 g Agrp, p<0.05). The hyperphagia was similar to that seen when 1 nmol of the synthetic MC3-R and MC4-R antagonist SHU9119 was given i.c.v. (19.6+/-1.8 g saline vs 32.5+/-1.7 g SHU9119, p<0.001). Both Agrp(83-132) and SHU9119 blocked the reduction in 1-h food intake of i.c.v. alphaMSH at the beginning of the dark phase. This effect occurred independently of whether the antagonists were administered simultaneously, or nine hours prior, to the alphaMSH. We have also shown Agrp(83-132) is an antagonist at the MC3-R and MC4-R, with similar inhibition of cAMP activation to that previously reported for the full length peptide. In conclusion, Agrp(83-132) administered i.c.v. increases feeding with long lasting effects and is able to inhibit the action of alphaMSH. This interaction may be mediated by the MC3-R and/or MC4-R.
...
PMID:A C-terminal fragment of Agouti-related protein increases feeding and antagonizes the effect of alpha-melanocyte stimulating hormone in vivo. 975 29
Overexpression of the murine
agouti
gene results in
obesity
. The human homologue of
agouti
is expressed primarily in human adipocytes, and we have shown recombinant
agouti
protein to increase adipocyte intracellular Ca2+([Ca2+]i) and thereby stimulate lipogenesis. However, since recent data demonstrate that increasing adipocyte [Ca2+]i may also inhibit lipolysis, we have investigated the role of
agouti
-induced [Ca2+]i increases in regulating lipolysis in human adipocytes. Short-term (1 h) exposure to recombinant
agouti
(100 nM) protein had no effect on basal lipolysis, although longer term treatment (24 h) caused a 60% decrease in basal lipolysis (P<0.0001). Short-term
agouti
treatment totally inhibited ACTH-induced lipolysis (P<0.05). Since melanocortin receptors (MCR) are involved in some actions of
agouti
, we next determined whether
agouti
's antilipolytic effect is exerted through competitive antagonism of the ACTH receptor (MCR-2). Forskolin (1 microM), an adenylate cyclase activator, induced a 48% increase in lipolysis in human adipocytes (P<0.05); this effect was reversed by 100 nM
agouti
(P<005), demonstrating that the antilipolytic effect of
agouti
is distal to the ACTH receptor. To determine the role of [Ca2+]i in the antilipolytic effect of
agouti
, human adipocytes were treated with KCl or arginine vasopressin to stimulate voltage- and receptor-stimulated Ca2+ influx, respectively. Both agents caused inhibition of forskolin-induced lipolysis (P<0.005). Furthermore,
agouti
's antilipolytic effect was also blocked by the Ca2+ channel blocker nitrendipine. These data demonstrate that
agouti
exerts a potent antilipolytic effect in human adipocytes via a Ca2+-dependent mechanism. This effect, combined with
agouti
-induced lipogenesis, represents a coordinate control of adipocyte lipid metabolism that may contribute to an
agouti
-induced
obesity
syndrome.
...
PMID:The agouti gene product inhibits lipolysis in human adipocytes via a Ca2+-dependent mechanism. 976 82
<< Previous
1
2
3
4
5
6
7
8
9
10
Next >>
