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)

Estrogen biosynthesis in adipose tissue increases with age and obesity, and has been implicated in the development of endometrial cancer and breast cancer. In normal human adipose tissue, expression of the CYP19 gene which encodes aromatase P450, the enzyme responsible for estrogen biosynthesis, is regulated by a distal promoter, namely promoter I.4. Stimulation of expression in adipose stromal cells by members of the type 1 cytokine family, i.e. interleukin (IL)-6, IL-11, leukemia inhibitory factor (LIF) and oncostatin M (OSM), is mediated via a Jak-STAT3 signaling pathway and a GAS element upstream of promoter I.4. In contrast, aromatase expression in breast adipose tissue proximal to tumor is increased three- to four-fold to the utilization of another promoter, namely promoter II, proximal to the translation initiation site. In the present report, we show that prostaglandin (PG) E2 is the most potent factor which stimulates aromatase expression via cyclic AMP and promoter II. PGE2 acts via EP1 and EP2 receptor subtypes to stimulate both the PKC and PKA pathways. The combined stimulation of both of these pathways results in the maximal expression of promoter II-specific CYP19 transcripts. Because PGE2 is a major secretory product both of breast tumor epithelial cells and fibroblasts, as well as of macrophages infiltrating the tumor site, then this could be the mechanism whereby estrogen biosynthesis is stimulated in breast sites adjacent to a tumor, leading in turn to increased growth and development of the tumor itself.
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PMID:Transcriptional regulation of CYP19 gene (aromatase) expression in adipose stromal cells in primary culture. 936 91

We have recently identified the winged helix/forkhead gene Foxc2 as a key regulator of adipocyte metabolism that counteracts obesity and diet-induced insulin resistance. This study was performed to elucidate the hormonal regulation of Foxc2 in adipocytes. We find that TNF alpha and insulin induce Foxc2 mRNA in differentiated 3T3-L1 cells with the kinetics of an immediate early response (1-2 h with 100 ng/ml insulin or 5 ng/ml TNF alpha). This induction is, in both cases, attenuated by the PI3K inhibitor wortmannin as well as the MAPK kinase inhibitor PD98059. Furthermore, we show that stimulation of 3T3-L1 adipocytes with phorbol-12-myristate-13-acetate or 8-(4-chlorophenyl)thio-cAMP induces the expression of Foxc2. Interestingly, we find that the basal level of Foxc2 mRNA is down-regulated whereas hormonal responsiveness increases during differentiation of 3T3-L1 from preadipocytes to adipocytes. At the protein level, immunoblots with Foxc2 antibody demonstrated an induction of Foxc2 by insulin and TNF alpha in nuclear extracts of 3T3-L1 adipocytes. EMSA of nuclear proteins from phorbol-12-myristate-13-acetate- and TNF alpha-treated 3T3-L1 adipocytes using a forkhead consensus oligonucleotide revealed specific binding of a Foxc2/DNA complex. In conclusion, our data suggest that insulin and TNF alpha regulate the expression of Foxc2 via a PI3K- and ERK 1/2-dependent pathway in 3T3-L1 adipocytes. Also, signaling pathways downstream of PKA and PKC induce the expression of Foxc2 mRNA.
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PMID:Insulin and TNF alpha induce expression of the forkhead transcription factor gene Foxc2 in 3T3-L1 adipocytes via PI3K and ERK 1/2-dependent pathways. 1192 82

FOXC2 is a winged helix/forkhead transcription factor involved in PKA signaling. Overexpression of FOXC2 in the adipose tissue of transgenic mice protected against diet-induced obesity and insulin resistance. We examined the expression of FOXC2 in fat and muscle of nondiabetic humans with varying obesity and insulin sensitivity. There was no relation between body mass index (BMI) and FOXC2 mRNA in either adipose or muscle. There was a strong inverse relation between adipose FOXC2 mRNA and insulin sensitivity, using the frequently sampled intravenous glucose tolerance test (r = -0.78, P < 0.001). However, there was no relationship between muscle FOXC2 and any measure of insulin sensitivity. To separate insulin resistance from obesity, we examined FOXC2 expression in pairs of subjects who were matched for BMI but who were discordant for insulin sensitivity. Compared with insulin-sensitive subjects, insulin-resistant subjects had threefold higher levels of adipose FOXC2 mRNA (P = 0.03). In contrast, muscle FOXC2 mRNA expression was no different between insulin-resistant and insulin-sensitive subjects. There was no association of adipose or muscle FOXC2 mRNA with either circulating or adipose-secreted TNF-alpha, IL-6, leptin, adiponectin, or non-esterified fatty acids. Thus adipose FOXC2 is more highly expressed in insulin-resistant subjects, and this effect is independent of obesity. This association between FOXC2 and insulin resistance may be related to the role of FOXC2 in PKA signaling.
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PMID:Expression of FOXC2 in adipose and muscle and its association with whole body insulin sensitivity. 1519 34

Overexpression of forkhead transcription factor FOXC2 in white adipose tissue (WAT) leads to a lean phenotype resistant to diet-induced obesity. This is due, in part, to enhanced catecholamine-induced cAMP-PKA signaling in FOXC2 transgenic mice. Here we show that rolipram treatment of adipocytes from FOXC2 transgenic mice did not increase isoproterenol-induced cAMP accumulation to the same extent as in wild type cells. Accordingly, phosphodiesterase-4 (PDE4) activity was reduced by 75% and PDE4A5 protein expression reduced by 30-50% in FOXC2 transgenic WAT compared to wild type. Thus, reduced PDE4 activity in adipocytes from FOXC2 transgenic mice contributes to amplified beta-AR induced cAMP responses observed in these cells.
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PMID:Reduced PDE4 expression and activity contributes to enhanced catecholamine-induced cAMP accumulation in adipocytes from FOXC2 transgenic mice. 1682 89

Compensatory beta cell growth occurs in accordance to overweight and increasing insulin demands. The proliferative actions of insulin and insulin-like growth factors are mediated via the IRS-2-PI(3)K-Akt pathway of pleiotropic insulin signaling. However, sustained activation leads to negative feedback via the mTOR-induced proteasomal degradation of IRS-2. The proliferative actions of incretins and adipokines are mediated via other pathways that ultimately converge with the IRS-2-PI(3)K-Akt axis. The incretins GIP and GLP-1 increase IRS-2 levels in beta cells by acting via the cAMP-PKA pathway, whereas leptin inhibits PTEN activity via CK2-dependent pathways. By increasing PIP(3) availability the adipokine amplifies the magnitude as well as duration of factors acting via the IRS-2-PI(3)K-Akt pathway. Considering that AMPK prevents mTOR-induced degradation of IRS-2, we propose that adiponectin and leptin cooperatively achieve compensatory beta cell growth in accordance to adiposity. In conditions of overt obesity, when adiponectin levels are too low to provide sufficient IRS-2 levels, loss of compensatory beta cell growth may occur.
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PMID:Leptin and adiponectin regulate compensatory beta cell growth in accordance to overweight. 1709 72

In addition to its well known stimulation of cAMP production, the human melanocortin type 4 (hMC4) receptor recently has been shown to mediate p44/42 MAPK activation. This finding opens new questions about the structural and signaling mechanisms that connect the receptor to this alternate cell signaling pathway. Point mutants in the hMC4 receptor that have been associated with obesity were constructed and transfected into HEK 293 cells. Functional analyses then were done to determine if these mutations would similarly impact cAMP formation and p44/42 MAPK signaling. Whereas a D90N mutation in the second transmembrane domain and a D298A mutation in the seventh transmembrane domain impaired both cAMP formation and p44/42 MAPK activation, a more conservative D298N mutation retained cAMP formation but abolished p44/42 MAPK activation. The D298N mutation identified, for the first time, differential structural requirements of the hMC4 receptor for activation of the cAMP and p44/42 MAPK pathways. Furthermore, functional characterizations of a series of chimeric receptors combining the hMC4 receptor and the hMC3 subtype, a receptor that does not couple to p44/42 MAPK activation despite stimulating adenylyl cyclase, indicate that the hMC4 cytoplasmic tail is a necessary structural element for p44/42 MAPK signaling. Subsequent investigation of the signaling requirements for p44/42 MAPK activation demonstrated that the adenylyl cyclase inhibitor 2', 5'-dideoxyadenosine blocked agonist-induced p44/42 MAPK activation, but the PKA inhibitor Rp cAMPS did not. Taken together, these data indicate that cAMP is required, but not sufficient for p44/42 MAPK activation and suggest structural elements required for hMC4 receptor signaling.
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PMID:Structural and signaling requirements of the human melanocortin 4 receptor for MAP kinase activation. 1737 47

Glucagon-like peptide 1 (GLP-1) is a potent inhibitor of food intake. GLP-1 receptor mRNA is densely expressed in hypothalamic arcuate nucleus (ARC) and precisely overlaps the area occupied by proopiomelanocortin (POMC) neurons. Activation of POMC neurons suppresses appetite, and lack of POMC-derived peptides or inhibition of POMC neuronal firing causes obesity. Here, we identify living POMC cells in mouse ARC brain slices by targeted expression of green fluorescent protein. Using whole-cell patch-clamp recordings, we show that GLP-1 increases the spontaneous action-potential firing of POMC neurons. The stimulatory effect of GLP-1 was mimicked by GLP-1 receptor agonist exendin-4 and abolished by the receptor antagonist exendin 9-39. The effect of GLP-1 was unchanged in the presence of the synaptic blockers DAP5 (D(-)-2-amino-5-phosphonopentanoic acid)/CNQX (6-cyano-7-nitroquinoxaline-2,3-dione disodium salt) and picrotoxin. These results suggest that GLP-1 excites POMC neurons postsynaptically, via interaction with GLP-1 receptors on POMC cells. Whole-cell Ca2+ currents increased approximately 70% in the presence of GLP-1, and this effect was abolished by L-type Ca2+ channel antagonist nifedipine. Forskolin (which activates cAMP) mimicked the effects of GLP-1 and the PKA inhibitor Rp-8-Bromo-cAMPS (8-bromoadenosine-3',5'-cyclic monophosphorothioate, Rp-isomer) blocked GLP-1 action. These data indicate that GLP-1 stimulates the electrical activity of hypothalamic POMC neurons by activation of PKA and a subsequent increase in L-type Ca2+ current. This effect may contribute to the anorectic action of GLP-1, because excitation of POMC cells is well established to reduce food intake.
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PMID:Glucagon-like peptide 1 stimulates hypothalamic proopiomelanocortin neurons. 2165 75

Agouti lethal yellow (A(y)) mice express agouti ectopically because of a genetic rearrangement at the agouti locus. The agouti peptide is a potent antagonist of the melanocortin 4 receptor (MC4R) expressed in neurons, and this leads to hyperphagia, hypoactivity, and increased fat mass. The MC4R signals through Gs and is thought to stimulate the production of cAMP and activation of downstream cAMP effector molecules such as PKA. Disruption of the RIIbeta regulatory subunit gene of PKA results in release of the active catalytic subunit and an increase in basal PKA activity in cells where RIIbeta is highly expressed. Because RIIbeta is expressed in neurons including those in the hypothalamic nuclei where MC4R is prominent we tested the possibility that the RIIbeta knockout might rescue the body weight phenotypes of the A(y) mice. Disruption of the RIIbeta PKA regulatory subunit gene in mice leads to a 50% reduction in white adipose tissue and resistance to diet-induced obesity and hyperglycemia. The RIIbeta mutation rescued the elevated body weight, hyperphagia, and obesity of A(y) mice. Partial rescue of the A(y) phenotypes was even observed on an RIIbeta heterozygote background. These results suggest that the RIIbeta gene mutation alters adiposity and locomotor activity by modifying PKA signaling pathways downstream of the agouti antagonism of MC4R in the hypothalamus.
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PMID:Disruption of the RIIbeta subunit of PKA reverses the obesity syndrome of Agouti lethal yellow mice. 1817 98

Sympatho-adrenergic activity and the renin-angiotensin system are considered critical regulators of obesity and hypertension. The novel angiotensin II type 1 receptor-associated protein (ATRAP) has been demonstrated to modulate angiotensin II signalling in smooth muscle cells and cardiomyocytes. Adipose tissue expresses important renin angiotensin system components and contributes to cardiometabolic disease. However, ATRAP expression and regulation in adipocytes are unknown. We investigated expression of this novel modulator of angiotensin signalling and its regulation by beta-adrenergic receptors. We found ATRAP to be expressed in differentiated brown and white adipocytes. Stimulation of beta-adrenoceptors strongly suppressed ATRAP expression. We hypothesised a role for JAK/STAT signalling elements. Indeed, beta3-adrenergic stimulation robustly stimulated both STAT1 and STAT3 phosphorylation in a time- and dose-dependent manner. This effect was abrogated by inhibition of PKA and JAK2 signalling. Moreover, inhibition of JAK/STAT and PKA signalling reversed the beta3-adrenergic suppression of ATRAP expression. This study provides the first evidence for expression and adrenergic regulation of the angiotensin II signalling modulator ATRAP in adipocytes. Further, it indicates a novel regulatory link between beta-adrenergic and JAK/STAT signalling.
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PMID:Expression of ATRAP in adipocytes and negative regulation by beta-adrenergic stimulation of JAK/STAT. 1823 61

Obesity, insulin resistance, and type 2 diabetes are associated with elevated concentration of circulating free fatty acids (FFAs), which are critically governed by the process of triglyceride lipolysis in adipocytes. Hormone-sensitive lipase (HSL) and adipose triglyceride lipase (ATGL) are two major enzymes in the control of triacylglycerol hydrolysis in adipose tissue. ATGL expressed predominantly in white adipose tissue specifically initiates triacylglycerol hydrolysis to generate diacylglycerols and FFA, a role distinguished from HSL that mainly hydrolyzes diacylglycerols. The transcription of ATGL is regulated by several factors. ATGL activity is regulated by CGI-58. Under basal conditions, interaction of CGI-58 with a lipid droplet associating protein, perilipin, results in an inactivation of ATGL activity. During PKA-stimulated lipolysis, CGI-58 is released from phosphorylated perilipin and in turn, binds to ATGL. This action facilitates triglyceride lipolysis. This review focuses on the regulation and function of ATGL in adipose lipolysis and metabolism.
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PMID:[Adipose triglyceride lipase regulates adipocyte lipolysis]. 1835 81

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