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)

It has recently been demonstrated that in rats induced to overeat by being fed a varied and palatable diet (the 'cafeteria diet') there is a marked increase in heat production which serves to reduce, or prevent, the development of obesity. This diet-induced thermogenesis is associated with increases in sympathetic activity, and with changes in brown adipose tissue. Following cafeteria feeding, brown adipose tissue hypertrophies and and exhibits increased lipolysis and an apparently greater thermogenesis in response to noradrenaline. These metabolic changes resemble those seen during non-shivering thermogenesis in cold-adapted rats, and it was proposed that non-shivering thermogenesis and diet-induced thermogenesis have a similar metabolic origin which depends on the unique capacity of brown adipose tissue for thermogenesis. During non-shivering thermogenesis heat is produced in brown adipose tissue through a proton conductance pathway across the inner mitochondrial membrane that dissipates the proton gradient generated by respiration. The activity of the proton conductance pathway can be modulated by purine nucleotides, and changes in the pathway seem to be related to the level of purine nucleotide binding to brown adipose tissue mitochondria. We now report results which indicate that the proton conductance pathway is augmented in cafeteria-fed rats, and suggest that it operates to dissipate their excess energy intake through diet-induced thermogenesis
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PMID:Increased proton conductance pathway in brown adipose tissue mitochondria of rats exhibiting diet-induced thermogenesis. 625 51

1 The sympathetic noradrenergic activation of brown adipose tissue and the biochemical mechanisms involved in diet-induced thermogenesis were studied in rats. 2 A close correlation was found between brown adipose tissue Na+, K+-adenosinetriphosphatase (Na+, K+-ATPase) activity in vitro and in vivo measurements of resting oxygen consumption (VO2). The effects of noradrenaline on in vitro NA+, K+-ATPase activity in brown adipose tissue and in vivo VO2 could be mimicked by a variety of agents. These included beta-adrenoceptor agonists and agents known to induce the release of noradrenaline or inhibit the noradrenaline uptake process. The pharmacological evidence suggests that dopaminergic mechanisms may also be involved in the control of thermogenesis. 3 Amphetamine did not increase VO2 in rats without causing associated increases in locomotor activity. Ciclazindol at doses of 3-30 mg/kg intraperitoneally increased VO2 but did not appear to increase locomotor activity or evoke any other signs of CNS stimulation including lengthening of time to sleep onset or stereotypy. Separation of metabolic and CNS effects occurred only at the lowest dose of mazindol used (0.3 mg/kg i.p.). These results are probably a reflection of (a) the relative abilities of these drugs to inhibit brain and brown adipose noradrenaline uptake processes and (b) the relatively high accumulation of ciclazindol in brown adipose. 4 Of the drugs tested, only ciclazindol was a more potent inhibitor of the noradrenaline uptake system in brown adipose tissue (BAT) than in brain. Kinetic analysis also revealed that the actions of ciclazindol on the NA uptake system and Na+, K+-ATPase in BAT differed from those of mazindol. 5 These findings suggest that ciclazindol may produce an energy wasting effect in rodents without causing overt CNS stimulation; the implications of these findings in terms of human obesity are discussed.
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PMID:Sympathetic mechanisms in diet-induced thermogenesis: modification by ciclazindol and anorectic drugs. 627 18

Young genetically obese (fatty, fa/fa) rats (7-8 wk old) maintained on a chow diet at 28 degrees C have a relatively normal amount of brown adipose tissue (BAT) (normal protein content, normal noradrenaline content, normal or slightly reduced cytochrome oxidase content, 30% reduction in DNA content) with cells grossly hypertrophied by accumulation of lipid. The binding of purine nucleotides by BAT mitochondria is lower in fa/fa rats than in lean rats, suggesting a lesser thermogenic activation of this tissue. Acute exposure to cold (24 h at 4 degrees C) activates BAT thermogenesis (visible hyperemia, marked increase in mitochondrial binding of purine nucleotides, depletion of noradrenaline content) in fa/fa rats as in lean rats. In contrast, feeding a cafeteria diet to young fa/fa rats fails to activate BAT (no increase in mitochondrial binding of purine nucleotides) as it does in lean rats, and these rats accumulate more extra fat (increase in weight of gonadal white adipose tissue) than do cafeteria diet-fed lean rats. It is concluded that the young fa/fa rat has normal cold-induced nonshivering thermogenesis in BAT but defective diet-induced thermogenesis in BAT and that the consequent reduction in energy expenditure, coupled with hyperphagia, contributes to the development of its obesity. The most probable location for the defect is suggested to be associated with the hypothalamus.
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PMID:Brown adipose tissue in genetically obese (fa/fa) rats: response to cold and diet. 629 7

Recent studies suggest that thermogenesis in brown adipose tissue has an important role in the regulation of energy balance. Thermogenesis is effected by noradrenaline released from sympathetic nerve endings; the noradrenaline stimulates beta-adrenoceptors, causing lipolysis, and the released fatty acids then promote the uncoupling of oxidative phosphorylation from electron transport. It has been widely accepted that mammalian beta-adrenoceptors exist as two subtypes, beta 1 and beta 2, and rat brown adipocyte beta-adrenoceptors have been classed as beta 1 or as a mixed beta 1/beta 2 population. The beta 1 subtype predominates in atria, whereas the beta 2 subtype predominates in trachea. However, we have now found a novel group of beta-adrenoceptor agonists that selectively stimulate lipolysis in brown adipocytes. In contrast, isoprenaline, fenoterol and salbutamol are less potent as stimulants of lipolysis than as stimulants of atrial rate or tracheal relaxation. Therefore, beta-adrenoceptors in rat brown adipocytes are of neither the beta 1 nor beta 2 subtypes. Compounds that selectively stimulate brown adipocyte beta-adrenoceptors should have potential as thermogenic anti-obesity agents and this has been demonstrated with BRL 26830A , BRL 33725A and BRL 35135A .
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PMID:Atypical beta-adrenoceptor on brown adipocytes as target for anti-obesity drugs. 632 35

Applied anatomy and physiology of the kidney are briefly reviewed. This includes an account of renal blood flow, glomerular filtration rate, juxtaglomerular apparatus, renal autoregulation and intra-renal blood flow distribution, tubular transport mechanisms, solute handling in proximal tubule, function of loop of Henle and distal tubule system. This section concludes with a summary of changes in tubule fluid along the length of the nephron. Acute effects of anaesthesia are reviewed in detail. Indirect effects include those on circulatory and sympathetic nervous systems, autoregulation, endocrine systems such as those involving anti-diuretic hormone, adrenaline and noradrenaline, renin-angiotensin and aldosterone. Direct effects of anaesthesia on renal function have now been confirmed both in vitro and in vivo. Delayed direct nephrotoxicity of anaesthetics relates predominantly to methoxyflurane (MOF) and its metabolism to inorganic fluoride. Other factors are MOF dose, genetics, age, enzyme induction, obesity, other nephrotoxic drugs. Clinical implications are presented. Enflurane nephrotoxicity is rare but aetiologic factors are similar to the foregoing. Isoflurane and halothane are not nephrotoxic. A consideration of the influence of anaesthetic management on the incidence and severity of postoperative acute renal failure concludes the review.
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PMID:Anaesthesia and the kidney. 635 48

The concept that thermogenesis in brown adipose tissue can play a role as an energy buffer has developed during the last 5 years. The history of this development is reviewed. Control of brown adipose tissue thermogenesis resides in regions of the brain, located primarily but not exclusively in the hypothalamus, that control the activity of the sympathetic nervous system in response to diet and to environmental temperature. Brown adipose tissue mitochondria are uniquely specialized for thermogenesis, possessing a specific proton leakage mechanism that is regulated by the concentration of fatty acids in the cells of the brown adipose tissue. The level of fatty acids is in turn controlled by the lipolytic action of noradrenaline on the tissue. Sympathetic stimulation also exerts a trophic influence on brown adipose tissue. Effective thermogenesis in brown adipose tissue is associated with leanness and decreased metabolic efficiency, as in the rat rendered hyperphagic and hypermetabolic, by either cold acclimation or cafeteria feeding. Conversely, food restriction is associated with suppressed thermogenesis in brown adipose tissue and increased metabolic efficiency. Defective brown adipose tissue thermogenesis is associated with obesity in a number of different types of obese animals. In three of these (the genetically obese fa/fa Zucker rat, the mouse with hypothalamic damage induced by gold thioglucose, the rat with a surgically induced hypothalamic lesion), diet-induced thermogenesis is defective in brown adipose tissue, but cold-induced thermogenesis is normal. In another type of obese animal, the genetically obese (ob/ob) mouse, control of brown adipose tissue is defective. Studies of this control are complicated by the frequency of torpor in the fed state.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Brown adipose tissue thermogenesis, energy balance, and obesity. 638 75

Gold thioglucose (GTG)-obese mice have a larger than normal amount of brown adipose tissue (BAT) with ultrastructurally normal mitochondria. The tissue grows normally when the mice adapt to cafeteria feeding or to cold (8 degrees C). Acute exposure to cold causes a fairly normal thermogenic activation of BAT mitochondria of GTG-obese mice, both in dynamic and static phases of their obesity. However, chow-fed GTG-obese mice have BAT mitochondria that are in a low state of thermogenic activation, and these mice fail to respond to eating a cafeteria diet for 3 wk by a normal thermogenic activation of their BAT mitochondria. More prolonged cafeteria feeding for 11-13 wk, into the static phase of obesity, is associated with thermogenic activation of BAT mitochondria of GTG-obese mice. The capacity of GTG-obese mice to respond to noradrenaline (norepinephrine) by an increase in metabolic rate is greater than that of lean mice and is further enhanced by cold acclimation. It is concluded that BAT of the GTG-obese mouse is inherently functional, as is control of its thermogenic function and growth during cold exposure and cold acclimation. Dietary influences on BAT thermogenic function are, however, defective in the GTG-obese mouse at least during the dynamic phase of its obesity. The resulting failure of diet-induced thermogenesis would be expected to contribute to the known high metabolic efficiency of the GTG-obese mouse and, together with the hyperphagia, to the obesity induced by GTG.
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PMID:Brown adipose tissue of mice with gold thioglucose-induced obesity: effect of cold and diet. 640 32

Ciclazindol, a noradrenaline (NA) uptake inhibitor originally introduced as an antidepressant, has recently been shown to produce weight loss in experimental animals and patients. Unlike CNS-stimulant anti-obesity drugs, such as amphetamine, ciclazindol may induce weight loss in animals by stimulating thermogenesis in brown adipose tissue (BAT), and it is known to stimulate resting metabolic rate (RMR) of rats and depress energetic efficiency. These effects can be achieved in the absence of overt CNS stimulation and with certain analogues of ciclazindol may be due to an exclusive peripheral action. Mazindol, a structural analogue of ciclazindol also produces an increase in RMR. However the increment is qualitatively and quantitatively different from that observed with ciclazindol and cannot be dissociated from central stimulant actions. In this report we examine some of the physiological and behavioural effects of ciclazindol and mazindol analogues in rats.
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PMID:Thermogenic properties of ciclazindol and mazindol in rodents. 653 97

Possible adrenal and autonomic mechanisms contributing to the onset of essential hypertension were studied in 18 men selected from the upper and lower extremes of blood pressure distribution within a larger population. In eight of the nine pairs of subjects, who were matched for age and obesity, those with higher pressure had significantly higher resting levels of both free adrenaline and noradrenaline sulphate in plasma than their lower pressure counterparts. The higher pressure group showed a positive correlation between diastolic blood pressure and both free and total noradrenaline levels (r = 0.77, P less than 0.05, and r = 0.81, P less than 0.01, respectively). In those with lower pressure, systolic blood pressure correlated closely with plasma adrenaline (r = 0.92, P less than 0.001). Increased adrenal medullary activity and altered autonomic tone appear to be features of the higher range of normal blood pressure and may precede the onset of essential hypertension.
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PMID:Adrenal and sympathetic nervous activity in subjects with "low' and "high' normal blood pressure. 668 Oct 25

The thermogenic response to noradrenaline administration was investigated at 25 degrees C in two models of obese mice (genetic ob/ob obesity of the ' QEC ' strain and monosodium-glutamate-induced obesity) and in their respective lean littermates. Subcutaneous injections of a low dose of noradrenaline (100 micrograms/kg body wt.) elevated metabolic rate by about 30% in both obese models but not in their respective lean counterparts. In contrast, the increase in metabolic rate after injections of a high dose of noradrenaline (600 micrograms/kg body wt.) was of a similar magnitude in both lean and obese animals: metabolic rate was increased by 70-80%. These results indicate that the overall whole body thermogenic capacity is unimpaired at room temperature in this ' QEC ' strain of ob/ob mice and in the hypothalamic damaged obese mice. Obesity in these models is therefore not associated with a reduced ability to respond to noradrenaline but could rather be due to a failure to release noradrenaline.
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PMID:Unimpaired thermogenic response to noradrenaline in genetic (ob/ob) and hypothalamic (MSG) obese mice. 673 59


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