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)

Severly obese subjects and sex- and age-matched controls underwnet physical training during a 6-wk period. Evidence of training was shown in all subjects by increased aerobic power. Before training the obese subjects were characterized by the following abberations: decreased glucose tolerance, hyperinsulinemia, elevated blood glycerol and plasma free fatty acids, and a blunted plasma growth hormone response during glucose tolerance. Noradrenaline output was elevated, a finding of potential interest for the explanation of increased lipolysis, blood pressure, and heart size in obesity. With training the following changes were found:In the controls there was evidence for the beginning of a decrease of adipose tissue mass. In the obese, however, body weight, body fat, or fat cell size did not decrease during training. Plasma insulin decreased, and a corresponding increase of plasma glycerol was seen. Glucose tolerance was not changed, and this, together with decreased plasma insulin, indicated an increase insulin sensitivity of the periphery. Changes in noradrenaline or growth hormone during training could not explain this increased sensitivity. Urinary cortisol output was found to decrease after training in the obese; this might be interpreted as a decrease in cortisol secretion allowing a more effective insulin action on the periphery.
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PMID:Physical training in human hyperplastic obesity. IV. Effects on the hormonal status. 31 26

Norepinephrine (NE) levels in the hypothalamus and telencephalon of genetically obese mice with the OBOB and DBDB mutations are significantly higher than those of their lean littermates. Obese mice with the viable yellow mutation failed to show this increase. Restricting the diets of OBOB animals to prevent excessive weight gain does not affect NE levels in the hypothalamus, telencephalon or brainstem.
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PMID:Effects of food restriction and mutation on central catecholamine levels in genetically obese mice. 102 29

Abnormalities of renal handling of urate occur in a wide variety of physiological and pathological conditions and are mediated by factors including renal blood flow, glomerular filtration rate, urine flow rate, urinary constituents, metabolites, hormones and drugs. The determination of the aetiological factors in each abnormal situation is complex and the problem is discussed in relation to a variety of conditions including renal tubular disorders and mental intoxications, hypertension, toxaemia of pregnancy, glycogen storage disease, fructose administration, hereditary fructose intolerance, as well as obesity, regular alcohol consumption and hyperlipoproteinaemia. Apart from those diseases, usually genetically determined, which are associated with excessive production of urate, the most common causes of hyperuricaemia act at a renal level and result in a reduction in the net renal excretion of urate.
Nephron 1975
PMID:Abnormal renal urate homeostasis in systemic disorders. 105 88

The ventral noradrenergic bundle (VB) of the rate brain has been proposed as the substrate for the hyperphagia and obesity produced by ventromedial hypothalamic lesions. To determine the relationship between body weight and damage to the VB, the effects of bilateral electrolytic and 6-hydroxy-dopamine (6-OHDA) lesions of the VB were compared. When rats were fed only a standard laboratory diet, no significant differences were found between groups. When a high-fat diet supplement was introduced, the group with electrolytic lesions became significantly heavier than the control group; however, the 6-OHDA group did not differ from the controls. Norepinephrine depletion was significantly greater following the 6-OHDA than the electrolytic lesions. Both lesions reduced telencephalic dopamine and serotonin only slightly. A second study in which both types of lesions were placed at a rostral ventromedial hypothalamic site yielded the same pattern of results. Diet-dependent increases in body weight were attributed to the destruction of a non-noradrenergic system, which was spared by the relatively selective 6-OHDA lesion but damaged by the nonselective electrolytic lesion.
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PMID:Central noradrenergic neurons: differential effects on body weight of electrolytic and 6-hydroxydopamine lesions in rats. 124 69

Norepinephrine (NE), acting through alpha 2-noradrenergic receptors in the hypothalamic paraventricular nucleus (PVN), has been implicated in the control of feeding behavior and body weight gain. To determine whether this hypothalamic receptor system is disturbed in genetically obese rats, the binding of radioligands to alpha 2-noradrenergic, as well as to alpha 1-noradrenergic, receptors was examined in seven hypothalamic nuclei of obese Zucker rats relative to their lean littermates. Receptor binding procedures, using the alpha 2-noradrenergic agonist [3H]p-aminoclonidine ([3H]PAC) and the alpha 1-noradrenergic antagonist [3H]prazosin, demonstrated that the obese rats, compared to the lean rats, had significantly greater alpha 2-noradrenergic and alpha 1-noradrenergic receptor binding, specifically in the PVN as opposed to other hypothalamic areas examined. Moreover, the obese rats, compared to the lean rats, exhibited greater responsiveness to the effects of food deprivation (48 h), which caused a significant decline in radioligand binding to both alpha 2 and alpha 1 receptors, specifically in the PVN. A decrease in alpha 2-receptor binding after deprivation in the obese rats was also seen in two basal hypothalamic areas, namely, the supraoptic nucleus and arcuate nucleus-median eminence. The possibility exists that these disturbances in hypothalamic alpha-receptors may be involved in the development and/or maintenance of the genetic obesity.
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PMID:Higher alpha-noradrenergic receptors in paraventricular nucleus of obese Zucker rats: decline after food deprivation. 168 67

It has been recently suggested that focal glomerulosclerosis (FGS) is analogous to atherosclerosis. Obese Zucker (OZ) rats spontaneously develop hyperlipidemia, proteinuria and FGS. To evaluate the role of the monocyte (MO) and its derivatives in the pathogenesis of the lesion, 30 OZ rats and 15 lean littermates (LZ) were followed for up to 240 days of age. At 75, 120 and 240 days of age, groups of 10 OZ and 5 LZ were assessed with respect to serum total and free cholesterol (TC and FC), triglyceride, lipoprotein electrophoresis, renal histology, histochemistry and immunohistochemistry. All serum lipids were raised at 75 days in OZ rats and increased progressively at 120 and 240 days. The early lesions of FGS were first demonstrated in OZ at 120 days with more advanced lesions at 240 days. FGS was seen in LZ only at 240 days when their serum lipids were raised. Intraglomerular MO infiltration was significantly higher in OZ than in LZ at all time periods (p less than 0.01) and greater in glomeruli with FGS lesions than in those without (p less than 0.01 and 120 days and p less than 0.05 at 240 days). Staining for ED1 and Ia antigens with monoclonal antibodies demonstrated increasing numbers of intraglomerular ED1+ and Ia+ cells with increasing age and extent of FGS. The findings suggest a role for intraglomerular macrophages in the pathogenesis of FGS in OZ.
Nephron 1991
PMID:Monocytes and macrophages in focal glomerulosclerosis in Zucker rats. 194 26

Goldthioglucose (GTG) injected i.p. in mice is known to cause hyperphagia and obesity which is related to ventromedial hypothalamic damage and norepinephrine (NE) depletion in females. In the present experiment 6 doses of GTG were tested in males. After 160 days the monoamine content of whole brain was measured. Norepinephrine (NE) and serotonin (SER) were depleted without changes in dopamine content. Brain NE and SER were both negatively correlated with body weight. These experiments extend earlier studies by suggesting that GTG obesity in mice may be caused by NE depletion in males as well as females and by suggesting that the obesity is also a function of serotonin depletion.
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PMID:Goldthioglucose causes brain norepinephrine and serotonin depletion correlated with increased body weight. 250 32

This minireview deals with the possible roles of monoamines in feeding and feeding disorders. The introduction sketches the results of earlier studies with local drug injections and selective neurotoxins which provided pharmacological evidence that monoamines can influence food intake and body weight. A table summarizing this evidence is used to list monoamine changes that could underlie anorexia or hyperphagia. It is apparent that abnormalities in the monoamines, along with their cotransmitters, could cause many forms of feeding disorder. It is proposed as a working hypothesis that several varieties of hyperphagia leading to obesity have a common element. This common factor is a change in excitability of a lateral hypothalamic reinforcement system as manifested in self-stimulation at a stimulation-bound feeding site. Understanding this feeding reward-aversion system helps us understand hyperphagia and anorexia. The neurochemistry of reward and aversion involves the monoamines. This paper focuses on dopamine and serotonin. The data support the hypothesis that dopamine systems projecting to the nucleus accumbens and other forebrain areas from the mid-brain ventral tegmental area (VTA) are important for approach and positive reinforcement in ingestive behavior and self-stimulation. Serotonin is hypothesized to facilitate satiety and inhibition of feeding reward in the hypothalamus. The next section abstracts our recent experiments that measured pharmacological and physiological release of the monoamines in the hypothalamus and nucleus accumbens during ingestive behavior and self-stimulation. In vivo microdialysis in freely moving rats suggested the following: (1) Norepinephrine was released in the paraventricular nucleus during the active, feeding period of the circadian cycle. (2) The serotonin metabolite 5-HIAA also increased in the PVN at the same time if there was food to eat. (3) Amphetamine infused into the lateral hypothalamus (LH) by reverse dialysis increased synaptic dopamine, norepinephrine, and serotonin. (4) The anorectic drug d-fenfluramine increased synaptic serotonin in the LH and also increased the dopamine metabolite DOPAC, suggesting that serotonin and dopamine in the LH might contribute to fenfluramine-induced satiety. Local d-fenfluramine injection into the LH or local infusion by reverse dialysis again increased serotonin and decreased 5-HIAA and interfered with local dopamine metabolism as reflected in decreased DOPAC and HVA. (5) Tryptophan, a serotonin precursor, given systemically at an anorectic dose, increased extracellular serotonin in the LH, but this effect was only detectable in food-deprived rats. This was seemingly pH independent (between 5.8 and 8). The passage other cations through CFo is strictly suppressed (even at pH 8 and with 300 mM NaCl in the medium).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Microdialysis studies of brain norepinephrine, serotonin, and dopamine release during ingestive behavior. Theoretical and clinical implications. 269 87

The effects of bilateral lesions of the hypothalamic paraventricular nuclei (PVN), of rats with a mean weight of 260 g body, on eating habits and body weight, as well as on sympathetic nervous system (SNS) activity in interscapular brown adipose tissue (IBAT) were investigated. In 59 of 131 Sprague-Dawley female rats, PVN lesions resulted in hyperphagia and obesity. Although lesions were considered successful when more than 50% of the PVN was destroyed histologically, such lesions were observed in 35.9% (47/131) of all lesioned rats and all of these 47 rats were obese. Therefore, in this study, these 47 rats which were confirmed histologically, were designated as "PVN-lesioned rats". Plasma insulin levels in these 47 PVN-lesioned ats were more than double those of the controls. However, no significant differences were observed between plasma glucose levels in PVN-lesioned and control groups. Norepinephrine turnover, a reliable indicator of SNS activity, in IBAT, heart and pancreas was similar in PVN-lesioned and sham-operated control animals, even under contrasting conditions of feeding (ad libitum and fasting) and temperature (22 degrees C and 4 degrees C). It is concluded that PVN lesions produce hyperphagia, obesity and hyperinsulinemia in rats with an average body weight of 260g without affecting the SNS activity in IBAT, heart or pancreas.
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PMID:Lesions of the hypothalamic paraventricular nucleus and norepinephrine turnover in rats. 277 98

Diet-induced obesity (DIO) developed in 1-mo-old male Sprague-Dawley rats over an 8-wk period on a relatively high-fat (16%) high-calorie (4.6 kcal/g) diet (DIO diet). Percent carcass lipid (56%) and body weight gain (15%) were greater, whereas food intake was decreased over the first 3-5 wk in DIO diet-compared with chow-fed controls. Overall, 8-wk body weight gain (15%), percent carcass lipid (26%), and feed efficiency (15%) were greater, but food intake was not increased. Norepinephrine (NE) turnover rate, indicative of organ sympathetic activity, increased in interscapular brown adipose tissue (IBAT; 57-218%), heart (21-44%), and pancreas (25%) during the first 3 wk and remained elevated for the entire 8 wk. IBAT weight (51%) and in vitro lipolytic capacity (68%) increased by 1 wk and brown adipocyte size (43%) by 3 wk; IBAT thermogenic capacity (maximal NE-stimulated in vitro O2 consumption) increased by 5 wk (39%). Plasma insulin levels were similar in both diet groups over the entire 8-wk period. Why DIO diet-fed rats had increased metabolic efficiency is unknown, but activation of IBAT metabolism and thermogenesis failed to prevent the development of DIO.
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PMID:Metabolic features of diet-induced obesity without hyperphagia in young rats. 352 88

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