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)

Thyroid hormones act on several aspects of metabolic and energy homeostasis influencing body weight, thermogenesis, and lipolysis in adipose tissue. Adipocytokines are biologically active substances produced by adipocyte with different physiological functions. These substances have multiple effects on several tissues acting on the intermediate and energy metabolism. For these reasons, attention has recently been focused on the possible relationship between adipocytokines, thyroid status, and thyroid dysfunction. Leptin, a signal of satiety to the brain and regulator of insulin and glucose metabolism, reflects the amount of fat storage and is considered as a pro-inflammatory adipocytokine. Adiponectin is inversely related to the degree of adiposity, increases insulin sensitivity, and may have antiatherogenic and anti-inflammatory properties. Resistin impairs glucose homeostasis and insulin action in mice but not in humans. Resistin might be considered a pro-inflammatory adipocytokine and participate in obesity-associated inflammation. Several reports indicate that leptin regulates thyroid function at hypothalamic-hypophyseal level and, conversely, thyroid hormones might control leptin metabolism at least in some animals studies. Both adiponectin and thyroid hormones share some physiological actions as reduction of body fat by increasing thermogenesis and lipid oxidation. Resistin also seems to be regulated by thyroid hormones, at least in rats. Thyroid dysfunction does not significantly affect serum leptin concentrations. Serum levels of adiponectin are no influenced by thyroid hypofunction; however, hyperthyroidism is associated with normal or elevated adiponectin levels. Finally, discordant results in resistin levels in thyroid dysfunction have been reported in humans.
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PMID:Influence of thyroid dysfunction on serum concentrations of adipocytokines. 1800 29

Case study of a young female patient with severe hypothyroidism due to autoimmune thyroiditis and multiple ovarian cysts is reported. A 14-year 7-month-old girl presented with pelvic and abdominal pain and severe asthenia. Her last menstrual period was 10 months before presentation. Physical examination showed obesity; apathetic and flat expression; periorbital puffiness; pale, cold, dry skin and slow sustained reflexes; swelling in the hands and feet; no galactorrhea; a hardly palpable thyroid gland; and ovaries with a palpable irregular surface. Her heart rate was 90 bpm with a blood pressure within the normal range (110/70 mmHg). Laboratory findings showed severe hypothyroidism (thyroid-stimulating hormone [TSH]: 960 mIU/L), gravis macrocytic anemia, hyperfibrinogenemia, and hyperprolactinemia. Imaging examinations revealed a normal-size thyroid with irregular echogenicity, strongly hypoechogenous area at the neck ultrasonography, bilateral multilocular ovarian masses with cystic components at pelvic ultrasound and computed tomography, and both anterior and posterior pericardial effusion at echocardiography. As soon as thyroid replacement therapy was initiated, all symptoms progressively disappeared and biochemical and hormonal values normalized, while the right ovary did not decrease in size during the follow-up period. For this reason, our patient underwent right ovarian wedge resection 14 months after the initiation of medication replacement. Ovarian histological examination showed a benign ovarian cyst with extensive hemorrhage and myxedematous infiltration. It is concluded that it is important to recognize early in young girls the association between large multiple ovarian cysts and high elevated levels of TSH in order to resolve this disorder with substitutive therapy.
Thyroid 2007 Dec
PMID:Multiple ovarian cysts in a young girl with severe hypothyroidism. 1802 Sep 17

A multitude of endocrine, neural, and metabolic signaling pathways are activated upon food intake to coordinate the effective use of the available energy. Bile acids (BAs) are released from the gallbladder after each meal and subsequently facilitate the digestion of nutrients. Since concentrations of BAs increase postprandially in the serum, they are also signals of food availability that bridge nutrition with metabolism. Both nuclear and membrane receptors mediate BA signaling. Whereas the nuclear receptor farnesoid X receptor mainly affects enterohepatic lipid homeostasis, the G protein-coupled receptor TGR5 stimulates glucagon-like protein 1 production in enteroendocrine cells and activates thyroid hormone in brown adipose tissue and muscle, through the stimulation of type 2 iodothyronine deiodinase (D2). Through its insulinotropic effects, TGR5 may improve glucose homeostasis; through the activation of D2, it will stimulate energy expenditure and protect against the onset of obesity. These properties position TGR5 as an attractive and "drugable" target in our fight against the metabolic syndrome.
Thyroid 2008 Feb
PMID:Bile acids and the membrane bile acid receptor TGR5--connecting nutrition and metabolism. 1827 17

After a long history of relative neglect by the scientific community, white adipose tissue is finally emerging as a central component of body homeostasis. Indeed, the explosion of obesity statistics worldwide encouraged the study of adipose tissue and the complications of increased adiposity, such as insulin resistance, type 2 diabetes, and accelerated vascular disease. Far beyond merely furnishing free fatty acids from triglyceride depots, a growing list of fat tissue-derived mediators has increased the understanding of the regulatory role of adipose tissue in metabolic control. Recently, inflammation within the obese adipose tissue has surfaced as another important link of obesity to its undesirable metabolic consequences.
Thyroid 2008 Feb
PMID:The multiple facets of the fat tissue. 1827 18

Thyroid hormone affects in a myriad of biological processes such as development, growth, and metabolic control. Triiodothyronine (T3) is the biologically active form of thyroid hormone that acts through nuclear receptors, TRalpha and TRbeta, regulating gene expression. Given that the distribution of these receptors is heterogeneous amongst the different tissues, it is not surprising that some physiological effects of T3 are isoform specific. For example, while TRalpha is the dominant receptor in the brain and skeletal system and mediates most of the synergism between T3 and the sympathetic signaling pathway in the heart, TRbeta is abundant in liver and is probably the isoform that mediates most of the T3 effects on lipid metabolism. Thus, it makes sense to develop compounds that selectively act on either one of the TRs, allowing for the activation of specific T3-dependent pathways. This article reviews the recent progress made in this area, focusing on the physiological effects of compounds that lower serum cholesterol and decrease fat mass, as they spare skeletal muscle and bone masses, as well as the heart. The available studies indicate that achieving selective activation of different TR-mediated pathways is a promising strategy for treating lipid disorders and obesity.
Thyroid 2008 Feb
PMID:Effects of thyroid hormone analogs on lipid metabolism and thermogenesis. 1827 20

Thyroid hormone receptors (TR) are hormone-dependent transcription regulators that play a major role in human health, development, and metabolic functions. The thyroid hormone resistance syndrome, diabetes, obesity, and some types of cancer are just a few examples of important diseases that are related to TR malfunctioning, particularly impaired hormone binding. Ligand binding to and dissociation from the receptor ultimately control gene transcription and, thus, detailed knowledge of binding and release mechanisms are fundamental for the comprehension of the receptor's biological function and development of pharmaceuticals. In this work, we present the first computational study of ligand entry into the ligand binding domain (LBD) of a nuclear receptor. We report molecular dynamics simulations of ligand binding to TRs using a generalization of the steered molecular dynamics technique designed to perform single-molecule pulling simulations along arbitrarily nonlinear driving pathways. We show that only gentle protein movements and conformational adaptations are required for ligand entry into the LBDs and that the magnitude of the forces applied to assist ligand binding are of the order of the forces involved in ligand dissociation. Our simulations suggest an alternative view for the mechanisms ligand binding and dissociation of ligands from nuclear receptors in which ligands can simply diffuse through the protein surface to reach proper positioning within the binding pocket. The proposed picture indicates that the large-amplitude protein motions suggested by the apo- and holo-RXRalpha crystallographic structures are not required, reconciling conformational changes of LBDs required for ligand entry with other nuclear receptors apo-structures that resemble the ligand-bound LBDs.
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PMID:Only subtle protein conformational adaptations are required for ligand binding to thyroid hormone receptors: simulations using a novel multipoint steered molecular dynamics approach. 1868 73

Thyroid hormones [predominantly 3, 5, 3 -I- iodothyronine (T3)] regulate cholesterol and lipoprotein metabolism but cardiac effects restrict their use as hypolipidemic drugs. New molecules have been developped which target specifically the thyroid hormone receptor ss, predominant isoform in liver. The first thyroid hormone agonist, called GC1, has selective actions compared to T3. In animals, GC1 reduced serum cholesterol and serum triglycerides, probably by stimulation important steps in reverse cholesterol transport. Other selective thyromimetic, KB- 2115 and KB - 141 have similar effects. Another class of thyroid hormone analogs, the thyronamines have emerged recently but the basic biology of this new class of endogenous thyroid hormone remains to better understood. Therefore, these molecules may be a potentially treatment for obesity and reduction cholesterol, triglycerides and lipoprotein (a). To date the studies in human are preliminary. Tolerance and efficacy of these drugs are still under investigation.
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PMID:[Thyroid hormone analogs: an important biological supply and new therapeutic possibilities]. 1895 57

Thyroid hormones exert most of their physiological effects through two thyroid hormone receptor (TR) subtypes, TRalpha and TRbeta, which associate with many transcriptional coregulators to mediate activation or repression of target genes. The search for selective TRbeta ligands has been stimulated by the finding that several pharmacological actions mediated by TRbeta might be beneficial in medical conditions such as obesity, hypercholesterolemia and diabetes. Here, we present a new methodology which employs surface plasmon resonance to investigate the interactions between TRbeta ligand binding domain (LBD) complexes and peptides derived from the nuclear receptor interaction motifs of two of its coregulators, SRC2 and DAX1. The effect of several TRbeta ligands, including the TRbeta selective agonist GC-1 and the TRbeta selective antagonist NH-3, were investigated. We also determined the kinetic rate constants for the interaction of TRbeta-T3 with both coregulators, and accessed the thermodynamic parameters for the interaction with DAX1. Our findings suggest that flexibility plays an important role in the interaction between the receptor and its coregulators, and point out important aspects of experimental design that should be addressed when using TRbeta LBD and its agonists. Furthermore, the methodology described here may be useful for the identification of new TRbeta ligands.
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PMID:Ligand induced interaction of thyroid hormone receptor beta with its coregulators. 1900 Jul 67

Thyroid hormones influence heart rate, serum lipids, metabolic rate, body weight and multiple aspects of lipid, carbohydrate, protein and mineral metabolism. Although increased thyroid hormone levels can improve serum lipid profiles and reduce fat, these positive effects are counterbalanced by harmful effects on the heart, muscle and bone. Thus, attempts to use thyroid hormones for cholesterol-lowering and weight loss purposes have so far been limited. However, over the past decade, thyroid hormone analogues that are capable of uncoupling beneficial effects from deleterious effects have been developed. Such drugs could serve as powerful new tools to address two of the largest medical problems in developed countries--atherosclerosis and obesity.
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PMID:Thyroid hormone mimetics: potential applications in atherosclerosis, obesity and type 2 diabetes. 1933 72

IGFs (Insulin like growth factors) are important regulators of pancreatic beta cell development, growth and maintenance. Mutations in the IGF genes have been found to be associated with diabetes mellitus, myocardial infarction obesity. These associations could result from changes in insulin secretion. We aimed to investigate IGF-1 gene polymorphism in obese patients with insulin resistance. We included 100 obese patients with insulin resistance 30 healthy subjects to study. At baseline examinations, antropometric measurements were done. Genomic DNA from the patients and controls were prepared. Thyroid function tests and serum IGFBP3 levels were similar between patients and controls whereas IGF, GH levels were significantly lower in obese patients. We categorized the IGF-1 (CA)19 polymorphism area into 3 groups as lower than 192 bp (group 1), 192-194 bp (group 2), and higher than 194 bp(group 3). Group 3 was more frequent in both obese and control groups. IGF-1 levels were also significantly lower in obese group (138.51 +/- 49.3) in than controls (218.14 +/- 69.15). IGF-1 levels were significantly lower in obese patients. The most frequent IGF-1 gen polymorphism allel is >194 bp in both obese insulin resistant patients and controls. IGF-1 levels and the other biochemical and hormonal parameters were similar in different genotype groups. The cause of lower IGF-1 levels in obese patients might be different from IGF-1 gene polymorphism and it may be insulin resistance.
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PMID:IGF-1 gene polymorphism in obese patients with insulin resistance. 1968 Jul 83


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