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)

Peroxisome Proliferator Activated Receptors (PPARs) are regulators of metabolic pathways mainly of lipid metabolism and energy balance. Their medical importance is given by the fact that they have been implicated in development of insulin resistance, obesity and atherosclerosis. In recent years, major progress has been made in understanding the molecular basis of the function of these receptors. As a result of structural studies and identification of putative natural as well as synthetic ligands and activators of PPARs a new concept emerged and new drugs are on their ways to the clinic. The concept of Selective PPAR Modulators (SPPARM) was suggested by analogy to Selective Estrogen Receptor Modulators (SERM). SPPARMs activate the receptors in distinct ways leading to differential gene expression and biological response. The key features in understanding their action is most likely at the molecular details of ligand binding and the subsequently induced conformational changes as well as cofactor binding. A key aspect of this is that unlike classical steroid hormone receptors such as the retinoic acid receptor, the PPAR receptors have a rather large ligand-binding pocket which is not filled with the ligand entirely and the ligand also stabilizes the receptor's structure. The liganded receptor can have distinct conformations and this leads to different binding affinities for the various cofactors (coactivators and corepressors). In this review, we will introduce this concept, review the literature that supports it and present an overview of the receptor selective ligands including data about their mechanism of action and biological effects.
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PMID:Selective modulators of PPAR activity as new therapeutic tools in metabolic diseases. 1661 Nov 63

Heart failure with normal ejection fraction (HF-NEF) is frequently believed to be more common in women than in men. However, the interaction of gender and age has rarely been analyzed in detail, and knowledge of the distinction between pre- and postmenopausal women is lacking. Some of the studies that have described a higher prevalence of HF-NEF in women relied on clinical diagnoses of HF together with normal systolic function and did not measure diastolic function. This applies to the analysis of patients hospitalized for HF and some epidemiological investigations that agree on the greater prevalence of HF-NEF in women. Population-based studies with echocardiographic determination of diastolic function have suggested equal or greater prevalence of diastolic dysfunction in men. Major risk factors for HF-NEF include hypertension, aging, obesity, diabetes, and ischemia. Hypertension is more frequent in women and can contribute to left ventricular and arterial stiffening in a gender-specific way. Aging, obesity, and diabetes affect myocardial and vascular stiffness differently and lead to different forms of myocardial hypertrophy in women and men. In contrast, ischemia may play a greater role in men. Gender differences in ventricular diastolic distensibility, in vascular stiffness and ventricular/vascular coupling, in skeletal muscle adaptation to HF, and in the perception of symptoms may contribute to a greater rate of HF-NEF in women. The underlying molecular mechanisms include gender differences in calcium handling, in the NO system, and in natriuretic peptides. Estrogen affects collagen synthesis and degradation and inhibits the renin-angiotensin system. Effects of estrogen may provide benefit to premenopausal women, and the loss of its protective mechanisms may render the heart of postmenopausal women more vulnerable. Thus, a number of molecular mechanisms can contribute to the gender differences in HF-NEF.
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PMID:Role of gender in heart failure with normal left ventricular ejection fraction. 1718 12

Estrogens are essential for fertility and also have important effects on regulation of adiposity and the euglycemic state. We report here that lipin1, a candidate gene for lipodystrophy and obesity that is a phosphatidic acid phosphatase critical in regulation of cellular levels of diacylglycerol and triacylglycerol and a key regulator of lipid utilization, is rapidly and robustly down-regulated in the uterus by estradiol via the estrogen receptor. Lipin1 is expressed predominantly in the uterine luminal and glandular epithelium, and during the estrous cycle, lipin1 is lowest when blood levels of estrogen are highest. Lipin1 is expressed throughout all cells in the liver of ovariectomized female mice, and a sustained down-regulation is observed at the mRNA, protein and immunohistochemical levels after estrogen administration. Because the coupling of proper energy use and availability is central to reproduction, we also investigated expression of lipin1 in the uterus and liver of several mouse models of diabetes. Nonobese diabetic (NOD) mice, which have high blood levels of estrogen and impaired fertility, were severely deficient in lipin1 in the uterus and liver, which, interestingly, could be restored by insulin treatment. By contrast, nonobese diabetic/severe combined immunodeficient (NOD-SCID) mice, which do not develop diabetes, showed normal levels of lipin1. Our findings of lipin1 regulation by estrogen in two key target organs suggest a new role for this lipid-regulating phosphatase not only in central metabolic regulation but also in uterine function and reproductive biology. Estrogen regulation of lipin1 may provide a mechanistic link between estrogens, lipid metabolism, and lipid signaling.
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PMID:Lipin1 regulation by estrogen in uterus and liver: implications for diabetes and fertility. 1746 59

Women have a higher percentage of body fat than men, and there is a gender-specific difference in fat distribution: Females tend to accumulate fat around the hips, buttocks, and thighs while men have a larger intra-abdominal (visceral) fat mass. After menopause, there is a redistribution of fat depots, and post-menopausal women develop increased amounts of visceral fat. The risk of developing obesity-related diseases is significantly lower in pre-menopausal women compared to men, a difference that is abolished after menopause, suggesting that the female sex steroid estrogen influences adipogenesis and adipose metabolism. Experimentally, estrogen increases the size and number of subcutaneous adipocytes and attenuates lipolysis. Post-menopausal women also develop a more atherogenic lipid pattern and decreased levels of the prothrombotic protein plasminogen activator inhibitor-1, which attenuates fibrinolysis. Pathologically increased circulating cortisol concentration is associated with dysmetabolic features e.g., central obesity, elevated blood pressure, insulin resistance, and dyslipidemia. In "simple obesity," glucocorticoid production is elevated. Peak levels of circulating cortisol are however low or normal, possibly because of increased clearance and/or tissue-specific changes in cortisol production. In addition to the adrenal production of cortisol, cortisol is also generated in adipose tissue by the enzyme 11beta-hydroxysteroid dehydrogenase type 1 (11betaHSD1) which converts inactive cortisone to active cortisol. The enzyme activity in subcutaneous fat increases with increasing body weight. Estrogen seems to have a tissue-specific influence on 11betaHSD1 enzyme activity, attenuating it in liver, kidney, and testis but upregulating 11betaHSD1 mRNA expression in preadipocytes from women. In the present review, we summarize and discuss the interaction between glucocorticoids and sex steroids and their influence on adipocyte metabolism.
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PMID:Estrogens and glucocorticoid hormones in adipose tissue metabolism. 1804 37

Estrogen is considered a major regulator of adipose tissue in females. Estrogen increases circulating levels of atrial natriuretic peptide (ANP), a hormone with renal and cardiovascular effects. The aim of this study was to determine the status of the natriuretic peptide system in female follitropin-receptor knockout (FORKO) mice that could be associated with obesity and hypertension observed in these mutants. Furthermore, estradiol treatment was used to reverse alterations observed. FORKO and wild-type (WT) mice received daily injections of estradiol for 4 d. On the fifth day, blood was collected for determination of plasma ANP levels, and selected tissues were collected for determination of ANP, natriuretic peptide receptor type-A (NPR-A) and type-C (NPR-C) gene expression by RT-PCR and binding of [(125)I]ANP by autoradiography. At 5 months of age, FORKO mice were heavier and had more adipose tissue than WT mice. FORKO mice had lower plasma ANP levels and atrial ANP gene expression and higher renal and adipocyte NPR-C gene expression than WT mice. Estradiol treatment reduced weight gain and increased atrial ANP synthesis as well as decreased ANP clearance NPR-C receptors, resulting in elevation of circulating ANP level. In conclusion, this study shows that FORKO females have an impaired natriuretic peptide system, which may contribute to the susceptibility of FORKO mice to developing age-related hypertension previously shown in these animals. This study establishes a relation between estrogen, adipose tissue, and ANP, which may have important implications in menopausal women.
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PMID:Impairment of the natriuretic peptide system in follitropin receptor knockout mice and reversal by estradiol: implications for obesity-associated hypertension in menopause. 1806 89

Estrogen receptors (ER) are important regulators of metabolic diseases such as obesity and insulin resistance (IR). While ERalpha seems to have a protective role in such diseases, the function of ERbeta is not clear. To characterize the metabolic function of ERbeta, we investigated its molecular interaction with a master regulator of insulin signaling/glucose metabolism, the PPARgamma, in vitro and in high-fat diet (HFD)-fed ERbeta -/- mice (betaERKO) mice. Our in vitro experiments showed that ERbeta inhibits ligand-mediated PPARgamma-transcriptional activity. That resulted in a blockade of PPARgamma-induced adipocytic gene expression and in decreased adipogenesis. Overexpression of nuclear coactivators such as SRC1 and TIF2 prevented the ERbeta-mediated inhibition of PPARgamma activity. Consistent with the in vitro data, we observed increased PPARgamma activity in gonadal fat from HFD-fed betaERKO mice. In consonance with enhanced PPARgamma activation, HFD-fed betaERKO mice showed increased body weight gain and fat mass in the presence of improved insulin sensitivity. To directly demonstrate the role of PPARgamma in HFD-fed betaERKO mice, PPARgamma signaling was disrupted by PPARgamma antisense oligonucleotide (ASO). Blockade of adipose PPARgamma by ASO reversed the phenotype of betaERKO mice with an impairment of insulin sensitization and glucose tolerance. Finally, binding of SRC1 and TIF2 to the PPARgamma-regulated adiponectin promoter was enhanced in gonadal fat from betaERKO mice indicating that the absence of ERbeta in adipose tissue results in exaggerated coactivator binding to a PPARgamma target promoter. Collectively, our data provide the first evidence that ERbeta-deficiency protects against diet-induced IR and glucose intolerance which involves an augmented PPARgamma signaling in adipose tissue. Moreover, our data suggest that the coactivators SRC1 and TIF2 are involved in this interaction. Impairment of insulin and glucose metabolism by ERbeta may have significant implications for our understanding of hormone receptor-dependent pathophysiology of metabolic diseases, and may be essential for the development of new ERbeta-selective agonists.
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PMID:Metabolic actions of estrogen receptor beta (ERbeta) are mediated by a negative cross-talk with PPARgamma. 1858 35

Shortly after the introduction of oral contraceptives in 1960, myocardial infarction (MI) started to emerge as a major adverse effect. Its mechanism and pathophysiology have remained elusive. Many epidemiological studies identified smoking, hypertension, diabetes and hypercholesterolemia as risk factors for coronary thrombosis in young women using oral contraceptives. The pathogenesis of MI involves two phases: atherosclerotic plaque formation, and thrombotic arterial occlusion. The use of very low doses of estrogen (less than 50 microg of ethinyl estradiol) and new progestagens have minimized the vascular risks. However, the risk remains in women who smoke or have other atherosclerotic risks factors. We report 12 cases of MI in women aged 35 +/- 5 years who were using different types of oral contraceptive. All the women had several risks factors, such as smoking, hypertension, hypercholesterolemia, obesity, and type II diabetes. Coronarography during the acute phase showed either occlusions on severe atherosclerotic stenoses or thrombosis of arteries with non significant atherosclerotic plaque. In two cases coronarography was normal after thrombolysis. Ten women recovered without sequelae, but reversible left ventricular dysfunction occurred in the other two women, who did not have acute-phase revascularization. Recent case-control studies show that the cardiovascular risk is very low with new, third-generation combined contraceptives. But the risk of MI increases with age, smoking, hypertension, dyslipidemia and diabetes. The absolute risks associated with oral contraceptives and smoking are higher in women over 35, because of the steeply rising incidence of atherosclerosis. It is mandatory to respect the classical contraindications of oral contraception.
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PMID:[Myocardial infarction and oral contraceptives]. 1881 1

Taranabant, an orally active, potent, and highly selective CB-1 receptor inverse agonist, is being developed for the treatment of obesity. This randomized, placebo-controlled, multiple-dose, crossover study evaluated the effect of taranabant on the pharmacokinetics of ethinyl estradiol and norelgestromin in healthy women receiving > or =3 months of therapy with oral contraceptives. Nineteen participants with normal menstrual cycles received oral contraceptives on days 1 to 21 during 2 consecutive contraceptive cycles. Participants received taranabant 6 mg/day or placebo on days 1 to 21 of each contraceptive cycle. Plasma samples were collected predose and 0.5, 1, 1.5, 2, 3, 4, 6, 8, 12, and 24 hours postdose on day 21 of each cycle for determination of AUC0-24 h and Cmax of ethinyl estradiol and norelgestromin. Lack of a clinically important effect was declared if the 90% confidence intervals for the geometric mean ratio of AUC0-24 h and Cmax in the absence and presence of taranabant were contained within the predefined bounds of (0.8, 1.25). The geometric mean ratios and 90% confidence intervals of ethinyl estradiol and norelgestromin, respectively, were 0.93 (0.87, 1.00) and 1.02 (0.96, 1.09) for AUC0-24 h and 0.95 (0.88, 1.01) and 0.95 (0.88, 1.01) for Cmax. In summary, coadministration of multiple-dose taranabant 6 mg with oral contraceptives did not lead to clinically meaningful alterations in the pharmacokinetic profiles of ethinyl estradiol or norelgestromin.
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PMID:Influence of taranabant, an orally active, highly selective, potent cannabinoid-1 receptor (CB1R) inverse agonist, on ethinyl estradiol and norelgestromin plasma pharmacokinetics. 1893 84

Fusion and fission of mitochondria regulate their morphology and distribution. Mitofusin-2 (Mfn2) is a mitochondrial protein involved in such fusion. Recent observations indicate that Mfn2 is a multifunctional protein that participates in cell proliferation and metabolism and that it is required for normal endoplasmic reticulum morphology. In relation to the metabolic role of Mfn2, alterations in activity have been reported to modify cell respiration, substrate oxidation, and oxidative phosphorylation subunit expression in cultured nonmuscle and muscle cells. Mfn2 expression in skeletal muscle is subject to regulation and conditions characterized by reduced mitochondrial activity, such as obesity or type 2 diabetes, and are associated with repressed Mfn2. In contrast, cold-exposure treatment with beta3-adrenergic agonists or exercise induce the expression of this gene in muscle. Estrogen-related receptor-alpha transcription factor is a key regulator of Mfn2 transcription and recruits peroxisome proliferator-activated receptor gamma coactivator (PGC)-1beta and PGC-1alpha. These 2 nuclear coactivators are potent, positive regulators of Mfn2 expression in muscle cells, and ablation of PGC-1beta causes Mfn2 downregulation in skeletal muscle and in the heart. We propose that PGC-1beta is a regulator of normal expression of Mfn2 in muscle, whereas PGC-1alpha participates in the stimulation of Mfn2 expression under a variety of conditions characterized by enhanced energy expenditure.
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PMID:Regulation of mitofusin-2 expression in skeletal muscle. 1944 11

Obesity is increasing worldwide. Estrogen protects female mice from gaining weight in contrast to ovariectomy. Excess weight can inhibit wound healing. We determine the effects of obesity on wound healing in the presence and absence of estrogen. For this purpose, we generated (ovariectomized (OVX) and non-ovariectomized (NOVX)) lean mice by feeding a 30% calorie-restricted diet (CR), overweight mice a low-fat (LF) diet and obese mice a high-fat (HF) diet. CR mice had the lowest, LF an intermediate, and HF mice the highest body weights. OVX exacerbated weight gain in female mice. Wounds healed fastest in CR mice regardless of estrogen status. Contrastingly, wound healing in OVX obese female mice was delayed. In sum, OVX increased the propensity of gaining weight, CR mice healed wounds more rapidly than obese mice irrespective of estrogen status, and obesity in the absence of estrogen impaired wound healing.
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PMID:Obesity impairs wound healing in ovariectomized female mice. 1956 84


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