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 ob gene encodes a protein that, in mutant form, is associated with obesity and type II diabetes in mice. Sequence analysis has revealed no similarities to other proteins, however, and no clues as to possible functions. The possibility nonetheless remains that ob is functionally or ancestrally related to other proteins, whose sequences are divergent to the point that only a comparison of three-dimensional structures might detect relationship. To explore this possibility, we conduct a 'threading' search of a 3-dimensional structure database, to determine whether the ob protein might adopt a fold similar to any known structure. This search reveals that the ob sequence is compatible, at a significance level of P < 0.05, with structures from the family of helical cytokines that includes interleukin-2 and growth hormone. A structural model of ob based upon these results is physically and biologically plausible and leads to testable predictions, including the prediction that ob may activate the JAK-STAT pathway, via binding to a receptor resembling those of the cytokine family.
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PMID:Threading analysis suggests that the obese gene product may be a helical cytokine. 758 24

Receptor subunits for the neurocytokine ciliary neurotrophic factor (CNTF) share sequence similarity with the receptor for leptin, an adipocyte-derived cytokine involved in body weight homeostasis. We report here that CNTF and leptin activate a similar pattern of STAT factors in neuronal cells, and that mRNAs for CNTF receptor subunits, similarly to the mRNA of leptin receptor, are localized in mouse hypothalamic nuclei involved in the regulation of energy balance. Systemic administration of CNTF or leptin led to rapid induction of the tis-11 primary response gene in the arcuate nucleus, suggesting that both cytokines can signal to hypothalamic satiety centers. Consistent with this idea, CNTF treatment of ob/ob mice, which lack functional leptin, was found to reduce the adiposity, hyperphagia, and hyperinsulinemia associated with leptin deficiency. Unlike leptin, CNTF also reduced obesity-related phenotypes in db/db mice, which lack functional leptin receptor, and in mice with diet-induced obesity, which are partially resistant to the actions of leptin. The identification of a cytokine-mediated anti-obesity mechanism that acts independently of the leptin system may help to develop strategies for the treatment of obesity associated with leptin resistance.
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PMID:Ciliary neurotrophic factor corrects obesity and diabetes associated with leptin deficiency and resistance. 917 39

Leptin, an adipocyte-secreted hormone, is one of the central regulators of body weight homeostasis. In humans and rodents, two major forms of leptin receptors (OB-R) are expressed. The short form (OB-RS), considered to lack signaling capability, is detected in many organs. In contrast, OB-R long form (OB-RL) predominates in the hypothalamus, but is also present at low levels in peripheral tissues. Transient transfection experiments have demonstrated that OB-RL transduces an intracellular signaling similar to interleukin (IL)-6 type-cytokine receptors. To define the specificity by which OB-R induces genes and cooperates with signal transduction pathways utilized by other hormones and cytokines, rat and human hepatoma cell lines were generated which stably express human OB-RL. Hepatoma cell lines selected for appreciable levels of OB-RL mRNA display enhanced leptin binding and responded to leptin with an IL-6 receptor-like signaling that includes the activation of STAT proteins, induction of acute-phase plasma proteins, and synergism with IL-1 and tumor necrosis factor-alpha. A leptin-mediated recruitment of phosphatidylinositol 3-kinase to insulin receptor substrate-2 was also detected. However, no significant tyrosine phosphorylation of insulin receptor substrate-2 and modulation of the immediate cell response to insulin were observed. The data suggest that OB-RL action in hepatic cells is equivalent to that of IL-6 receptor. However, leptin does not play a specific role in muting insulin action on hepatoma cells and therefore may not contribute to the diabetic symptoms associated with obesity.
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PMID:Leptin receptor action in hepatic cells. 919 22

The signal transducer and activator of transcription, STAT5b, has been implicated in signal transduction pathways for a number of cytokines and growth factors, including growth hormone (GH). Pulsatile but not continuous GH exposure activates liver STAT5b by tyrosine phosphorylation, leading to dimerization, nuclear translocation, and transcriptional activation of the STAT, which is proposed to play a key role in regulating the sexual dimorphism of liver gene expression induced by pulsatile plasma GH. We have evaluated the importance of STAT5b for the physiological effects of GH pulses using a mouse gene knockout model. STAT5b gene disruption led to a major loss of multiple, sexually differentiated responses associated with the sexually dimorphic pattern of pituitary GH secretion. Male-characteristic body growth rates and male-specific liver gene expression were decreased to wild-type female levels in STAT5b-/- males, while female-predominant liver gene products were increased to a level intermediate between wild-type male and female levels. Although these responses are similar to those observed in GH-deficient Little mice, STAT5b-/- mice are not GH-deficient, suggesting that they may be GH pulse-resistant. Indeed, the dwarfism, elevated plasma GH, low plasma insulin-like growth factor I, and development of obesity seen in STAT5b-/- mice are all characteristics of Laron-type dwarfism, a human GH-resistance disease generally associated with a defective GH receptor. The requirement of STAT5b to maintain sexual dimorphism of body growth rates and liver gene expression suggests that STAT5b may be the major, if not the sole, STAT protein that mediates the sexually dimorphic effects of GH pulses in liver and perhaps other target tissues. STAT5b thus has unique physiological functions for which, surprisingly, the highly homologous STAT5a is unable to substitute.
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PMID:Requirement of STAT5b for sexual dimorphism of body growth rates and liver gene expression. 920 75

New Zealand Obese (NZO) mice exhibit a polygenic syndrome of hyperphagia, obesity, hyperinsulinemia, and hyperglycemia similar to that observed in young diabetes mutant mice on the C57BLKS/J background (C57BLKS/J-Lepr(db)/Lepr(db)). Here we show that in NZO this syndrome is accompanied by a marked elevation of the leptin protein in adipose tissue and serum. The promoter region and the complementary DNA of the ob gene of NZO mice, including its 5'-untranslated region, are identical with the wild-type sequence (C57BL, BALB/c), except that the transcription start is located 5 bp upstream of the reported site. In contrast to C57BLKS/J+/+ and C57BL/6J-Lep(ob)/Lep(ob) mice, NZO mice failed to respond to recombinant leptin (7.2 microg/g) with a reduction of food intake. Leptin receptor messenger RNA as detected by PCR appears as abundant in hypothalamic tissue of NZO mice as in tissue from lean mice. Ten nucleotide polymorphisms are found in the complementary DNA of the leptin receptor, resulting in two conservative substitutions (V541I and V651I) in the extracellular part of the receptor and one nonconservative substitution (T1044I) in the intracellular domain between the presumed Jak and STAT binding boxes. However, these mutations are also present in the related lean New Zealand Black strain (body fat at 9 weeks: New Zealand Black, 6.2 +/- 1.3%; NZO, 17.0 +/- 1.7%). Thus, the polymorphic leptin receptor seems to play only a minor, if any, role in the obesity and hyperleptinemia of the NZO mouse. It is suggested that the main defect in NZO is located distal from the leptin receptor or at the level of leptin transport into the central nervous system.
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PMID:Hyperleptinemia, leptin resistance, and polymorphic leptin receptor in the New Zealand obese mouse. 932 35

Leptin is the product of OB gene. This 16 kDa protein is produced by mature adipocytes and is secreted in plasma. Its plasma levels are strongly correlated with adipose mass in rodents as well as in humans. Leptin inhibits food intake, reduces body weight and stimulates energy expenditure. It has been suggested that leptin could be the link between obesity and diabetes. Recent experiments in rodents have shown that leptin expression in adipocytes is also regulated at short-term by hormones and nutrients. Leptin expression increases after food intake and decreases during fasting and diabetes. Insulin and glucocorticoids increase leptin expression, whereas catecholamines, via beta-adrenergic receptors and cAMP, and long-chain fatty acids (and thiazolidinediones), via PPARy, inhibit leptin expression. Leptin is a cytokine that binds to transmembrane receptors similar to the receptors of cytokine family (type IL-6), and transmit their information inside the cell, after dimerisation. A short-form of leptin receptor (with a cytoplasmic domain of 34 amino residues) has been identified in the choroid plexus. This type of receptor should be used for leptin transport across the blood-brain barrier. Then leptin binds to a long-form of leptin receptor in the hypothalamus (with a cytoplasmic domain of 302 amino residues) and decreases the production of neuropeptide Y, a neuromediator of food intake. The long-form of leptin receptor, transmits its information via the Janus Kinases (JAK) who subsequently phosphorylate transcription factors of the STAT family. Intermediary forms of leptin receptor have been identified in other tissues: liver, heart, skeletal muscles, endocrine pancreas. The role of leptin receptors in these tissues remains obscure, but is of considerable interest. Recent studies have shown that leptin inhibits insulin secretion and have anti-insulin effects on liver and adipose tissue. If these effects are confirmed, leptin could play a role similar to TNF alpha and could participate in the insulin-resistance of obesity and type II diabetes.
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PMID:Is leptin the link between obesity and insulin resistance? 934 38

Leptin at 1-5 nM, the concentrations observed in obese subjects, caused an increase in the active form of mitogen-activated protein kinase (MAPK) that was accompanied by increased tyrosine phosphorylation of STAT-1 and STAT-3 in a mouse pancreatic beta cell line, MIN6. Leptin also increased DNA synthesis and cell viability in MIN6 cells based on the results of [3H]-thymidine incorporation and colorimetric MTT assay, respectively. The specific MAPK-inhibitor PD98059 blocked not only the MAPK activation but also the increment in DNA synthesis and cell viability caused by leptin. Thus, leptin stimulates both the MAPK and the Janus kinase (JAK)-STAT cascade as well as inducing proliferation through the MAPK cascade in MIN6 cells. This mechanism might account, at least in part, for obesity-induced pancreatic islet hypertrophy.
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PMID:Leptin induces proliferation of pancreatic beta cell line MIN6 through activation of mitogen-activated protein kinase. 943 83

Leptin is a fat cell-derived satiety factor that regulates food intake and energy expenditure. Its effects are mediated by interactions with the leptin receptor (Ob-R) that is alternatively spliced to encode at least five isoforms(a-e), which are distributed in a wide range of tissues including the hypothalamus. Ob-R is a member of cytokine receptors and involves the JAK-STAT signal transduction system. We found Ob-R mutations in Zucker fatty rats and obese Koletsky rats and demonstrated that Ob-R dysfunction brings around hyperphagia and obesity. However we and others have not found any Ob-R mutation in human obese subjects.
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PMID:[Leptin Receptor]. 970 77

Mutations of the leptin receptor have been found to cause obesity in rodents. The fa mutation that is responsible for obesity in Zucker rats is a missense mutation (269 gln-->pro) in the extracellular domain of the leptin receptor. We have characterized the effects of this mutation on the two major isoforms of the leptin receptor, Ob-Rb and Ob-Ra, by studying cell-surface expression, leptin binding affinity, signaling capacity, and receptor-mediated internalization and degradation of leptin in transfected mammalian cell lines. Both Ob-Rb(269 gln-->pro) and Ob-Ra(269 gln-->pro) have decreased cell-surface expression and decreased leptin binding affinity. Ob-Rb(269 gln-->pro) was shown to have defective signaling to the JAK-STAT pathway and markedly diminished ability to activate transcription of the egr-1 promoter. Constitutive ligand-independent activation of Ob-Rb(269 gln-->pro) was observed for activation of egr-1-luc but only under conditions when JAK2 was coexpressed with Ob-Rb(269 gln-->pro), Finally, Ob-Ra(269 gln-->pro) has an increased ability to internalize leptin but is less efficient at degrading leptin, as compared with Ob-Ra. In conclusion, both Ob-Ra(269 gln-->pro) and Ob-Rb(269 gln-->pro) have multiple functional defects.
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PMID:Functional properties of leptin receptor isoforms containing the gln-->pro extracellular domain mutation of the fatty rat. 972 17

The adipocyte hormone leptin activates signal transducer and activator of transcription 3 (STAT3) in the hypothalamus, mediating increased satiety and increased energy expenditure. To date, leptin-mediated activation of the STAT pathway in vivo has not been established in tissues other than hypothalamus. We now describe leptin receptor expression and in vivo signaling in discrete regions of the mouse gastrointestinal tract. Expression of the functional isoform leptin receptor (OB-Rb) is restricted to the jejunum and is readily detected by RT-PCR in isolated enterocytes from this site. Intravenous injection of leptin rapidly induced nuclear STAT5 DNA binding activity in jejunum of +/+ and obese (ob/ob) mice but had no effect in the diabetic (db/db) mouse that lacks the OB-Rb isoform. In addition, an induction of the immediate-early gene c-fos is observed in jejunum in vivo. Leptin-mediated induction of a number of immediate-early genes and activation of STAT3 and STAT5 in a human model of small intestine epithelium, CACO-2 cells, corroborate this effect. Furthermore, intravenous leptin administration caused a significant 2-fold reduction in the apolipoprotein AIV transcript levels in jejunum 90 min after a fat load. Our results suggest that the epithelium of jejunum is a direct target of leptin action, and this activity is dependent on the presence of OB-Rb. Lack of leptin or resistance to leptin action in this site may contribute to obesity and its related syndromes by directly affecting lipid handling.
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PMID:Leptin action in intestinal cells. 974 2

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