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)

A new member of the uncoupling protein (UCP) family called UCP3 has recently been cloned and shown to be highly expressed in skeletal muscle of rodents and humans. In the present study, UCP3 was overexpressed in C2C12 myoblasts where it acts as an uncoupling protein. Changes in UCP3 mRNA expression were examined in rodent muscles under conditions known to modulate thermogenesis in brown adipose tissue. In skeletal muscle, UCP3 expression did not change in response to 48 h of cold exposure (6 degrees C), whereas it was decreased by 81% or increased 5.6-fold by 1 week of 50% food restriction or fasting, respectively. It was also decreased by 36% in soleus muscle of obese (fa/fa) as compared with lean Zucker rats. The unexpected rise of UCP3 mRNA level induced by fasting did not change in vitro muscle basal heat production rate but decreased by 31% the capacity to produce heat in response to the uncoupler carbonylcyanide p-trifluoromethoxyphenylhydrazone. This decrease may reflect underlying uncoupling by UCP3. Up-regulation of UCP3 mRNA after a 24-h fast was still observed in mice exposed at thermoneutrality. These results show that the increase in UCP3 expression induced by fasting is associated with the maintenance of thermogenesis measured in muscle in vitro and is not modulated by environmental temperature. The notion that UCP3 expression is modulated by food intake is of importance to better understand the pathophysiology of obesity in humans.
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PMID:Uncoupling protein-3 expression in rodent skeletal muscle is modulated by food intake but not by changes in environmental temperature. 941 36

We investigated the physiological basis for development of obesity in uncoupling protein-diphtheria toxin A chain (UCP-DTA) transgenic mice. In these mice the promoter of the brown adipose tissue (BAT)-specific UCP was used to drive expression of DTA, resulting in decreased BAT function and development of obesity and insulin resistance (Lowell, B. B., S. V. Susulic, A. Hamann, J. A. Lawitts, J. Himms-Hagen, B. B. Boyer, L. Kozak, and J. S. Flier. Nature 366: 740-742, 1994). In adult UCP-DTA mice, we measured food intake and food assimilation, locomotor activity, metabolic rate, and body temperature in comparison to control animals. No differences could be observed in food intake or assimilation and locomotor activity. Weight-specific metabolic rates at temperatures between 20 and 37 degrees C, however, were consistently lower in transgenic mice. Continuous telemetric recording of core body temperature showed that transgenic mice displayed a downshift in body temperature levels of approximately 0.9 degree C. In summary, we provide evidence that attenuated body temperature levels alone can be responsible for development of obesity and that BAT thermogenesis is a major determinant of body temperature levels in rodents.
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PMID:Physiology of transgenic mice with brown fat ablation: obesity is due to lowered body temperature. 948 83

Brown adipose tissue (BAT), a highly thermogenic tissue in young animals, is relatively atrophied and thermogenetically quiescent (e.g. as measured by colonic temperature) in mice that are obese or old. The aim of the current study was to investigate the effect of aging (3.1 (young) versus 14.6 (old) months old) on BAT activity in lean and obese (ob/ob) mice. In young but not in old mice, BAT mass in terms of weight per unit body weight was significantly lower in obese mice than in lean mice. A significant increase in BAT mass of obese mice with age was noted in terms of weight or weight per unit body weight, probably because of a tendency to become white adipose tissue and the deposit of fat, accompanied by the lowest levels of total protein, guanosine 5'-diphosphate binding, and uncoupling protein (UCP) antigen in the mitochondria of BAT, as well as the lowest colonic temperature among the groups examined. Unlike old lean animals, the old obese (ob/ob) animals did not increase but rather decreased the expression of mRNA for UCP in the mitochondria of BAT. These findings suggest that a marked decrease in BAT thermogenic capacity and activity is noted in old obese mice, probably due to synergism of aging and obesity.
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PMID:Effect of age on brown adipose tissue activity in the obese (ob/ob) mouse. 950 96

We identified and partially characterized another member of the uncoupling protein termed UCP3. Human and mouse UCP3 protein sequences are 86% identical to each other, and 73% and 59% identical to UCP2 and UCP1, respectively. Expression of human UCP3 in yeast resulted in a drastic decrease of mitochondria membrane potential. Northern analysis showed that UCP3 was highly expressed in skeletal muscle in human, rat, and mouse. Mapping of UCP3 placed it to the same chromosomal region of UCP2 in both human and mouse, a region that is linked to obesity and hyperinsulinemia. Furthermore, adenovirus-mediated leptin expression in obese ob/ob mice led to increased expression of UCP3 in skeletal muscle. The data indicate that UCP3 encodes a muscle-specific uncoupling protein that may play an important role in the regulation of energy expenditure and development of obesity.
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PMID:Uncoupling protein-3: a muscle-specific gene upregulated by leptin in ob/ob mice. 951 37

Understanding the genetic factors of obesity requires consideration of the genetic basis of the underlying etiological factors including energy expenditure and substrate utilization. Genetic susceptibility studies suggest that altered energy expenditure and/or preferential substrate utilization are likely to be involved in the etiology of obesity. Twin and family studies suggest that there is a strongly heritable component to resting energy expenditure, substrate utilization, and the thermic response to feeding. Physical activity energy expenditure has been less well studied; new data are presented in young sib pairs that suggest moderate heritability of nonresting energy expenditure. Only a few candidate gene studies have been performed to examine the role of basic proteins involved in energy expenditure (the sodium-potassium ATPase and the uncoupling protein) or substrate utilization (fatty acid binding protein). The lack of information in this area warrants further investigation into genetic aspects of energy and substrate metabolism.
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PMID:Genetic influences on human energy expenditure and substrate utilization. 951 64

Adaptive thermogenesis is an important component of energy homeostasis and a metabolic defense against obesity. We have cloned a novel transcriptional coactivator of nuclear receptors, termed PGC-1, from a brown fat cDNA library. PGC-1 mRNA expression is dramatically elevated upon cold exposure of mice in both brown fat and skeletal muscle, key thermogenic tissues. PGC-1 greatly increases the transcriptional activity of PPARgamma and the thyroid hormone receptor on the uncoupling protein (UCP-1) promoter. Ectopic expression of PGC-1 in white adipose cells activates expression of UCP-1 and key mitochondrial enzymes of the respiratory chain, and increases the cellular content of mitochondrial DNA. These results indicate that PGC-1 plays a key role in linking nuclear receptors to the transcriptional program of adaptive thermogenesis.
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PMID:A cold-inducible coactivator of nuclear receptors linked to adaptive thermogenesis. 952 58

The consequences of a 42 d exposure to elevated growth hormone (GH) on adipose tissue were assessed using the regulatable ovine metallothionein- ovine GH (oMt1a-oGH) transgene in male and female GH transgenic (TG) mice. Activation of transgene expression at 21 d of age followed by inactivation of transgene expression at 63 d of age (TG-on/off) increased individual white adipose tissue (WAT) depots and total body lipid stores in both males and females. WAT, expressed as a percentage of fasted body weight, did not differ in wildtype (WT) and continuously activated TG males and females up to 105 d of age, but was increased approximately 270% following inactivation of the transgene. Inguinal depot adipocytes were more numerous in both male and female TG +/- relative to WT or TG animals. The ensuring obesity was not accompanied by a decrease in thermogenic capacity of brown adipose tissue, as indexed by uncoupling protein quantity. GH transgene expression was accompanied by elevated insulin levels that were restored to WT levels upon cessation of transgene expression (p > 0.1). Early, transient exposure to elevated GH increased total body lipid by nearly threefold independent of gender; the increased lipid content was sustained and reflected WAT hypertrophy and hyperplasia. The oMt1a-oGH mouse provides a novel model of induced obesity in response to inactivation of a GH-transgene by the withdrawal of the transgene stimulus.
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PMID:Body composition of inactivated growth hormone (oMt1a-oGH) transgenic mice: generation of an obese phenotype. 954 8

Brown adipose tissue (BAT) has been proposed to play an important role in the regulation of energy balance. The unique presence of uncoupling protein (UCP) permits BAT to expend calories unrelated to the performance of work with the net result being the generation of heat. The role of BAT in mediating diet-induced thermogenesis had led to the suggestion that BAT activity contributes to metabolic inefficiency and, as such, might provide a cellular and molecular explanation for protection from obesity. In order to directly test this hypothesis, we recently created mice with isolated BAT deficiency by using a suicide DNA transgenic vector in which regulatory elements of the UCP gene were used to drive brown fat specific expression of diptheria toxin A-chain (DTA). Transgenic mice are characterized by reduced energy expenditure and marked obesity, associated with insulin resistance and NIDDM with both receptor and post-receptor components. Feeding of a "Western diet" which derives 41% of its calories from fat leads to a synergistic effect on the development of obesity and its accompanying disorders in transgenics. The results of our studies support a critical role for BAT in the nutritional homeostasis of mice and suggest that the intact thermogenic function of BAT is required for protection from diet induced obesity. Obese UCP-DTA mice have many features in common with obesity as it appears in most humans, and should therefore be a useful model that may aid studies of the pathogenesis and treatment of human obesity, NIDDM and their complications.
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PMID:Obesity after genetic ablation of brown adipose tissue. 955 22

The aim of this study was to evaluate the effectiveness of beta 3-adrenergic agonists for the treatment and prevention of obesity in the dog. When a selective beta 3-adrenergic agonist, CL316,243 (0.1 mg/kg), was given orally to adult beagles every day for 5-7 weeks, body weight and girth were decreased compared with control placebo-treated dogs. Gross anatomical examinations revealed no noticeable abnormalities in CL316,243-treated dogs, except an apparent decrease in abdominal fat. Immunohistochemical examination of perirenal adipose tissue showed a remarkable increase in brown adipocytes expressing a thermogenic protein, uncoupling protein (UCP). The increased expression of UCP and its mRNA in CL316,243-treated dogs was also confirmed by Western blot and reverse transcription polymerase chain reaction analyses. It was concluded that treatment with a beta 3-adrenergic agonist stimulates UCP expression, which may lead to an increase in energy expenditure, and thereby is useful for the treatment and prevention of obesity in the dog.
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PMID:Anti-obesity effects of selective agonists to the beta 3-adrenergic receptor in dogs. II. Recruitment of thermogenic brown adipocytes and reduction of adiposity after chronic treatment with a beta 3-adrenergic agonist. 959 19

The uncoupling protein (UCP) or thermogenin is a 33 kDa inner-membrane mitochondrial protein exclusive to brown adipocytes in mammals that functions as a proton transporter, allowing the dissipation as heat of the proton gradient generated by the respiratory chain and thereby uncoupling oxidative phosphorylation. Thermogenesis (heat production) in brown adipose tissue, which is activated in response to cold exposure or chronic overeating, depends largely on UCP activity. Norepinephrine, released from sympathetic terminals and acting via beta-adrenoceptors and cAMP, is the main positive regulator of both UCP synthesis and activity. Brown fat thermogenesis plays a critical role in thermoregulation and in overall energy balance, at least in rodents. Manipulation of thermogenesis, whether through UCP or through analogous uncoupling proteins, could be an effective strategy against obesity.
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PMID:The uncoupling protein, thermogenin. 959 49

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