UMLS:C0948265 - FACTA Search

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Obesity and starvation have opposing affects on normal physiology and are associated with adaptive changes in hormone secretion. The effects of obesity and starvation on thyroid hormone, GH, and cortisol secretion are summarized in Table 1. Although hypothyroidism is associated with some weight gain, surveys of obese individuals show that less than 10% are hypothyroid. Discrepancies have been reported in some studies, but in untreated obesity, total and free T4, total and free T3, TSH levels, and the TSH response to TRH are normal. Some reports suggest an increase in total T3 and decrease in rT3 induced by overfeeding. Treatment of obesity with hypocaloric diets causes changes in thyroid function that resemble sick euthyroid syndrome. Changes consist of a decrease in total T4 and total and free T3 with a corresponding increase in rT3. untreated obesity is also associated with low GH levels; however, levels of IGF-1 are normal. GH-binding protein levels are increased and the GH response to GHRH is decreased. These changes are reversed by drastic weight reduction. Cortisol levels are abnormal in people with abdominal obesity who exhibit an increase in urinary free cortisol but exhibit normal or decreased serum cortisol and normal ACTH levels. These changes are explained by an increase in cortisol clearance. There is also an increased response to CRH. Treatment of obesity with very low calorie diets causes a decrease in serum cortisol explained by a decrease in cortisol-binding proteins. The increase in cortisol secretion seen in patients with abdominal obesity may contribute to the metabolic syndrome (insulin resistance, glucose intolerance, dyslipidemia, and hypertension). States of chronic starvation such as seen in anorexia nervosa are also associated with changes in thyroid hormone, GH, and cortisol secretion. There is a decrease in total and free T4 and T3, and an increase in rT3 similar to findings in sick euthyroid syndrome. The TSH response to TRH is diminished and, in severe cases, thyroid-binding protein levels are decreased. In regards to GH, there is an increase in GH secretion with a decrease in IGF-1 levels. GH responses to GHRH are increased. The [table: see text] changes in cortisol secretion in patients with anorexia nervosa resemble depression. They present with increased urinary free cortisol and serum cortisol levels but without changes in ACTH levels. In contrast to the findings observed in obesity, the ACTH response to CRH is suppressed, suggesting an increased secretion of CRH. The endocrine changes observed in obesity and starvation may complicate the diagnosis of primary endocrine diseases. The increase in cortisol secretion in obesity needs to be distinguished from Cushing's syndrome, the decrease in thyroid hormone levels in anorexia nervosa needs to be distinguished from secondary hypothyroidism, and the increase in cortisol secretion observed in anorexia nervosa requires a differential diagnosis with primary depressive disorder.
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PMID:Effect of obesity and starvation on thyroid hormone, growth hormone, and cortisol secretion. 1205 88

The apolipoprotein AV gene (APOA5) is a key determinant of plasma triglyceride levels, a major risk factor for coronary artery disease and a biomarker for the metabolic syndrome. Since thyroid hormones influence very low density lipoprotein triglyceride metabolism and clinical studies have demonstrated an inverse correlation between thyroid status and plasma triglyceride levels, we examined whether APOA5 is regulated by thyroid hormone. Here we report that 3,5,3'-triiodo-L-thyronine (T3) and a synthetic thyroid receptor beta (TRbeta) ligand increase APOA5 mRNA and protein levels in hepatocytes. Our data revealed that T3-activated TR directly regulates APOA5 promoter through a functional direct repeat separated by four nucleotides (DR4). Interestingly, we show that upstream stimulatory factor 1, a transcription factor associated with familial combined hyperlipidemia and elevated triglyceride levels in humans, and upstream stimulatory factor 2 cooperate with TR, resulting in a synergistic activation of APOA5 promoter in a ligand-dependent manner via an adjacent E-box motif. In rats, we observed that apoAV levels declines with thyroid hormone depletion but returned to normal levels upon T3 administration. In addition, treatments with a TRbeta-selective agonist increased apoAV and diminished triglyceride levels. The identification of APOA5 as a T3 target gene provides a new potential mechanism whereby thyroid hormones can influence triglyceride homeostasis. Additionally, these data suggest that TRbeta may be a potential pharmacological target for the treatment of hypertriglyceridemia.
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PMID:Thyroid hormone regulates the hypotriglyceridemic gene APOA5. 1594 10

It is well known that thyroid hormone affects body composition; however, the effect of the thyroid hormone receptor beta (TRbeta)-selective thyromimetic GC-1 on this biological feature had not been demonstrated. In the current study, we compared the effects of a 6-week treatment with triiodothyronine (T3; daily injections of 3 or 6 microg/100 g body weight) or GC-1 (equimolar doses) on different metabolic parameters in adult female rats. Whereas all animals gained weight (17-25 g) in a way not basically affected by T3 or GC-1 treatment, only T3 treatment selectively increased food intake (50-70%). Oxygen consumption was significantly and equally increased (50-70%) by T3 and GC-1. Analysis of body composition by dual-energy X-ray absorptiometry (DEXA) revealed that, whereas control animals gained about 80% of fat mass, T3- or GC-1-treated animals lost 70-90 and approximately 20% respectively. Direct analysis of the carcass showed that T3 treatment promoted a 14-74% decrease in fat content but GC-1 treatment promoted only a 15-23% reduction. The gain in lean mass by DEXA and the carcass protein content were not affected by T3 or GC-1 treatment. However, the mass of individual skeletal muscles was negatively affected by T3 but only barely by GC-1. These findings highlight the potential use of GC-1 for the treatment of obesity and the metabolic syndrome.
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PMID:Thyroid hormone receptor beta-specific agonist GC-1 increases energy expenditure and prevents fat-mass accumulation in rats. 1740 Jul 99

Obesity and metabolic syndrome are increasing dramatically worldwide, contributing to cardiovascular morbidity and mortality. There are currently few safe and efficacious therapeutics for obesity and most strategies are focused on appetite suppression. Thyroid hormones reduce adiposity via increased metabolic rate, but unfortunately they cause large changes in metabolic rate and direct cardiac acceleration, making them useless for treating obesity. Thyroid hormone receptors (TRs) work as transcription factors and two subtypes exist: TRalpha and TRbeta. TRalpha mediates tachycardia and much of the metabolic rate effect, while TRbeta mediates cholesterol and TSH lowering effects of thyroid hormones. TRbeta activation modestly increases metabolic rate such that a therapeutic window of 5-10 fold increases in metabolic rate can be seen without tachycardia. This was initially studied in TRalpha(1)(-/-) mice. Recent structure activity work has resulted in the discovery of several TRbeta selective thyromimetics such as KB-141. Studies with KB-141 show that it has a 10-fold window in which therapeutic increases in metabolic rate are seen without tachycardia or cardiac hypertrophy. This agent lowers cholesterol in rats and primates. In primates, KB-141 causes significant weight and cholesterol reduction in addition to the independent risk factor Lp(a). These effects were seen without any effect on heart rate, unlike thyroid hormone (T(3)). Further work with TRbeta selective agents is warranted and recent work suggests the possibility of developing compounds that selectively penetrate different tissues which may have an even more desirable therapeutic window. Selective thyromimetics, therefore, may be useful as adjunctive therapy to appetite suppressants along with exercise and diet restriction.
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PMID:Therapeutic potential for thyroid hormone receptor-beta selective agonists for treating obesity, hyperlipidemia and diabetes. 1743 Feb 19

The increasing prevalence of obesity is a fundamental contributor to the growing prevalence of the metabolic syndrome. Rexinoids, a class of compounds that selectively bind and activate RXR, are being studied as a potential option for the treatment of metabolic syndrome. These compounds have glucose-lowering, insulin-sensitizing, and antiobesity effects in animal models of insulin resistance and type 2 diabetes. However, undesirable side effects such as hypertriglyceridemia and suppression of the thyroid hormone axis also occur. This review examines and compares the effects of four RXR-selective ligands: LGD1069, LG100268, AGN194204, and LG101506, a selective RXR modulator. Similar to selective modulators of other nuclear receptors such as the estrogen receptor (SERMs), LG101506 binding to RXR selectively maintains the desirable characteristic effects of rexinoids while minimizing the undesirable effects. These recent findings suggest that, with continued research efforts, RXR-specific ligands with improved pharmacological profiles may eventually be available as additional treatment options for the current epidemic of obesity, insulin resistance, type 2 diabetes, and all of the associated metabolic sequelae.
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PMID:Therapeutic potential of retinoid x receptor modulators for the treatment of the metabolic syndrome. 1749 22

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.
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PMID:Bile acids and the membrane bile acid receptor TGR5--connecting nutrition and metabolism. 1827 17

Sleep deprivation, or sleep debt, is a very common condition in the lifestyles of many individuals. This condition has a profound effect on the endocrine system, leading to cardiovascular complications among other disturbances. Sleep deprivation decreases insulin sensitivity and is associated with metabolic control in diabetic patients. Other hormones such as cortisol, growth hormone, insulin-like growth factor-1, prolactin, leptin, thyroid hormone, and dehydroepiandrosterone sulfate, as well as the regulation pathways of these substances, are affected by the quantity and quality of sleep. Therefore, sleep loss has important implications in the prevention and treatment of the metabolic syndrome and other diseases.
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PMID:Impact of sleep deprivation on insulin secretion, insulin sensitivity, and other hormonal regulations. 1837 Jul 3

Increased cytokines secretion occurs in several different disorders. Hemophagocytic lymphohystiositosis (HLH) and metabolic syndrome (MS) are consist two of them. Hemophagocytic lymphohystiositosis results from uncontrolled macrophage activation and huge amounts of cytokine secretion. The metabolic syndrome is a multicomponent condition characterized by insulin resistance, dyslipidemia, abdominal obesity, hypertension, and increased level of proinflammatory cytokines. It was presented a 6.8 years old girl, diagnosed as HLH. Because she was morbid obese, endocrinological investigation had been done and metabolic syndrome, thyroid hormone dysfunction, and hypercortisolemia with disturbances of diurnal rhythm were detected. During follow-up of patient, metabolic syndrome components disappear gradually while haemophagocytosis was recovered. Endocrine system can be affect during HLH attack, and MS can be developed. Cytokines seems to act central role of pathological changes for both diseases.
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PMID:Cytokines as a common components of two different disorders: metabolic syndrome and hemophagocytic lymphohystiositosis. 1852 32

Selective thyroid hormone receptor subtype-beta (TRbeta) agonists have received attention as potential treatments for hypercholesterolemia and obesity, but have received less attention as treatments for diabetes, partly because this condition is not improved in thyroid hormone excess states. The TRbeta selective agonist KB-141 induces 5-10% increases in metabolic rate and lowering of plasma cholesterol levels without tachycardia in lean rats, unlike the major active thyroid hormone, T3. In the current study, we determined whether KB-141 promotes weight loss in obese animals and whether it exhibits anti-diabetogenic effects. Body weight, adiposity (DEXA), and lipid levels were examined following p.o. administration of KB-141 to obese Zucker fa/fa rats at 0.00547-0.547 mg/kg/day for 21 days, and in ob/ob mice at 0.5mg/kg/day KB-141 for 7 days. In rats, KB-141 reduced body weight by 6 and 8%, respectively, at 0.167 and 0.0547 mg/kg/day without tachycardia and adiposity was reduced at 0.167 mg/kg/day (5-6%). In ob/ob mice, KB-141 lowered serum cholesterol (35%), triacylglycerols (35%) and both serum and hepatic free fatty acids (18-20%) without tachycardia. Treatment of ob/ob mice with KB-141 (0.0547 or 0.328 mg/kg/day over 2 weeks) improved glucose tolerance and insulin sensitivity in a dose-dependent manner with no effect on heart rate. Thus, KB-141 elicits anti-obesity, lipid lowering and anti-diabetic effects without tachycardia suggesting that selective TRbeta activation may be useful strategy to attenuate features of the metabolic syndrome.
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PMID:Anti-obesity, anti-diabetic, and lipid lowering effects of the thyroid receptor beta subtype selective agonist KB-141. 1862 Nov 27

Metabolic syndrome is associated with an increased risk of developing cardiovascular diseases and Plasminogen activator inhibitor 1 (PAI-1) overexpression may play a significant role in this process. A positive correlation between adipose tissue gene expression of PAI-1 and its serum concentration has been reported. Furthermore, high serum levels of thyroid hormones (T3 and T4) and PAI-1 have been observed in obese children. The present study evaluates the impact of thyroid hormone treatment on white adipose tissue PAI-1 gene expression and its serum concentration. Male Wistar rats (60 days old) were treated for three weeks with T4 (50 microg/day, Hyper) or with saline (control). Additionally, 3T3-L1 adipocytes were treated for 24 h with T4 (100 nM) or T3 (100 nM). PAI-1 gene expression was determined by real-time PCR, while the serum concentration of PAI-1 was measured by ELISA using a commercial kit (Innovative Research, USA). Both the serum concentration of PAI-1 and mRNA levels were similar between groups in retroperitoneal and epididymal white adipose tissue. Using 3T3-L1 adipocytes, in vitro treatment with T4 and T3 increased the gene expression of PAI-1, suggesting non-genomic and genomic effects, respectively. These results demonstrate that thyroid hormones have different effects in vitro and in vivo on PAI-1 gene expression in adipocytes.
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PMID:The effect of thyroid hormones on the white adipose tissue gene expression of PAI-1 and its serum concentration. 1991 69

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