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)

Injections of 6-hydroxydopamine in mouse neonates caused extensive and long lasting damage to the sympathetic nervous system and impaired brown fat development. Brown adipose tissue (BAT) thermogenic capacity of sympathectomized mice (up to 120 days old) was reduced because of marked reductions in the tissue mitochondrial protein content and the mitochondrial concentration of uncoupling protein, as assessed by [3H]GDP binding and immunoassay. Neonatal sympathectomy did not affect BAT DNA content. Sympathectomized mice also had reduced epinephrine-stimulated rates of oxygen consumption. BAT of sympathectomized mice failed to respond by increases in [3H]GDP binding to isolated mitochondria and uncoupling protein concentration when animals were offered a palatable high-fat dietary supplement that increased calorie intake of both normal and sympathectomized mice. The high-fat diet caused increases in body weight, carcass fat, and gonadal white fat pad weights in sympathectomized animals that were similar to those of control mice. These results show that inactivation of BAT metabolism did not accentuate the development of obesity caused by a dietary supplement rich in fat and suggest that stimulation of BAT metabolism was not very effective in counteracting the obesity-inducing effect of this diet.
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PMID:Effects of neonatal sympathectomy on brown fat development and susceptibility to high fat diet induced obesity in mice. 180 59

Adrenalectomy arrests the development of obesity in ob/ob mice fed a high-starch diet and housed at a normal room temperature (20-25 degrees C) partly by stimulating the low thermogenic activity of brown adipose tissue (BAT). The present study was undertaken to determine if adrenalectomy would also lower energy retention and stimulate BAT metabolism in ob/ob mice housed in a warm environment (35 degrees C) where BAT thermoregulatory heat production is not needed. Adrenalectomy prevented hyperphagia and hyperinsulinemia and lowered the efficiency of energy retention in ob/ob mice housed at 35 degrees C, which is comparable to results obtained at 20-25 degrees C. Sympathetic nervous system stimulation of BAT (interscapular and subscapular depots) assessed by norepinephrine turnover was increased in adrenalectomized ob/ob mice. Thermogenic activity of BAT in adrenalectomized ob/ob mice (as assessed by GDP binding to isolated BAT mitochondria, GDP-inhibitable acetate-induced BAT mitochondrial swelling, and Mg2(/)-activated GDP binding to BAT mitochondria) was not elevated when results were expressed per milligram of mitochondrial protein but was elevated approximately 65% when expressed per interscapular and subscapular depots because adrenalectomy increased BAT mitochondrial mass. Adrenalectomy lowers the efficiency of energy retention and stimulates BAT metabolism even when ob/ob mice are housed in a warm environment.
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PMID:Adrenalectomy increases brown adipose tissue metabolism in ob/ob mice housed at 35 degrees C. 216

The effects of RU 486 (mitepristone), an antagonist of type II glucocorticoid receptors (GR), on the development of obesity in young 5-wk-old obese fa/fa rats has been investigated. After 15 days of treatment, body composition of obese RU 486-treated rats was similar to that of lean-vehicle rats. Analysis of body composition changes showed that RU 486 effectively reversed the obesity. It stopped fat deposition in obese rats but increased protein deposition to the level of lean-vehicle rats. RU 486 prevented the development of hyperphagia and reduced gross energetic efficiency in the obese rats but had little effect on lean rats. Brown adipose tissue mitochondrial GDP binding was increased in obese rats but was reduced in lean rats by RU 486 treatment. RU 486 also reduced the elevated activity of hippocampal glycerophosphate dehydrogenase, a glucocorticoid-responsive enzyme, of obese rats to the level of lean rats. The evidence suggests that abnormal activity of glucocorticoid GR receptors or abnormal cellular responsiveness to corticosterone receptor complexes may be important in the development of obesity in the fa/fa rat.
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PMID:Effects of antiglucocorticoid RU 486 on development of obesity in obese fa/fa Zucker rats. 220 81

Adrenalectomy (ADX) prevents the excessive weight gain in the genetically obese ob/ob and db/db mice. To test the possibility that this results from increased energy expenditure due to increased thermogenesis in brown adipose tissue (BAT), we measured GDP binding to mitochondria from interscapular brown adipose tissue (BAT) in db/db and ob/ob mice and their lean controls after adrenalectomy, with and without corticosterone replacement. Both the vehicle treated and corticosterone treated db/db and ob/ob mice had lower body weights than the sham-operated mice GDP binding to mitochondria from IBAT was significantly lower in both the db/db and ob/ob mice than in their lean controls. Adrenalectomy significantly increased GDP binding in all mice compared to the respective sham-operated mice, but, the percentage increase was always greater in the db/db and ob/ob mice. Corticosterone treatment of adrenalectomized db/db, ob/ob or lean mice lowered GDP binding to sham levels. Our data confirm previous findings that adrenalectomy results in increased GDP binding to mitochondria from IBAT. Injections of corticosterone into adrenalectomized mice results in a decrease in GDP binding to values which are similar to values in sham-operated mice. Thus adrenalectomy may inhibit the development of obesity by increasing the thermic activity in IBAT.
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PMID:Adrenalectomy in genetically obese ob/ob and db/db mice increases the proton conductance pathway. 258 69

The effects of adrenalectomy in rats with ventromedial or paraventricular hypothalamic lesions have been studied in two experiments. Rats with ventromedial hypothalamic lesions or lesions in the paraventricular nucleus were allowed to gain weight for fourteen days at which time they were adrenalectomized. Before adrenalectomy, animals with VMH lesions ate more, gained significantly more weight than animals with lesions in the paraventricular nucleus, and both were significantly heavier and consumed more food than sham-operated controls. Following adrenalectomy, food intake decreased and both groups of lesioned animals lost weight. The animals with VMH lesions stabilized at weights above the control animals. Implantation of corticosterone enhanced weight gain and food intake in animals with lesions in either the paraventricular nucleus or the ventromedial hypothalamus. In the second experiment, one subgroup of rats with VMH lesions was adrenalectomized, and allowed to eat ad lib. Two other groups of sham-operated rats with VMH lesions served as controls. One group ate ad lib and one group was pair fed to the food intake of the adrenalectomized VMH-lesioned rats. Weight gain in the adrenalectomized VMH-lesioned rats and the pair-fed VMH-lesioned controls was similar and less than the VMH-lesioned rats eating ad lib. GDP binding to interscapular brown adipose tissue was related to the degree of weight gain, not to the presence of the VMH lesion. These data show that corticosterone is essential for the expression of obesity in both PVH- and VMH-lesioned rats. They also argue that the reduction in the activity of the sympathetic nervous system of VMH-lesioned rats as estimated by the GDP binding to mitochondria from brown adipose tissue is associated with hyperphagia.
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PMID:Effects of food restriction and adrenalectomy in rats with VMH or PVH lesions. 281 37

Mice treated with glutamate in the neonatal period are known to develop into stunted obese adults, despite hypophagia. Our objective was to find out whether brown adipose tissue (BAT) thermogenic function might be abnormal in the glutamate-obese mouse. At 10 wk of age, group-housed glutamate-obese mice exhibited nocturnal and early diurnal torpor, i.e., they thermoregulated at a lower than normal body temperature. When exposed to 4 degrees C, they died in hypothermia within 24 h. They could adapt to living at 14 degrees C for up to 1 wk but failed to adjust their food intake sufficiently to maintain their body weight. Their fat stores were, nevertheless, conserved. BAT was present in increased amounts in glutamate-obese mice. Its thermogenic activity (as assessed by the level of mitochondrial GDP binding) was normal (male mice) or reduced (female mice). A normal thermogenic responsiveness of BAT to cold occurred. The thermogenic response of BAT to a cafeteria diet was normal (male mice) or reduced (female mice). Serum corticosterone concentration was increased in both male and female glutamate-treated mice particularly in the cold. We conclude that the high metabolic efficiency and obesity of the glutamate-obese mouse are principally a consequence of its maintenance of a hypothermic torpid state for more than 50% of the time. An additional deficit in energy expenditure in female, but not male, glutamate-obese mice is associated with suppressed responsiveness of the thermogenic function of BAT to diet and may account for the greater degree of obesity in female than in male glutamate-treated mice.
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PMID:Brown adipose tissue thermogenesis, torpor, and obesity of glutamate-treated mice. 287 42

Measurements were made of cytochrome c oxidase activity and the GDP-binding capacity of mitochondria in brown adipose tissue of genetically obese mice and wild-type siblings, to estimate the thermogenic capacity of the tissue. The binding capacity was decreased in ad libitum fed obese animals compared with wild-type animals. Limited feeding of obese animals to restrict their body weight caused a large increase in the binding capacity of the tissue, which was greater than that in wild-type animals fed either ad limitum or on a limited diet. The decreased binding capacity of brown adipose tissue mitochondria in obese mice appears to be a consequence of ad libitum feeding and therefore not a cause of the obesity. Limit feeding of obese animals also corrected their characteristic hypothermia at low ambient temperature. The large increase in the thermogenic capacity of brown adipose tissue in obese animals, induced by limited feeding, may account for the vital improvement of their thermoregulation. However, close similarities were found between obesity hypothermia and hypothermia induced in wild-type animals by restraint. It is suggested that changes in posture caused by obesity, resulting in increased loss of body heat, may be important in the development of obesity hypothermia. Obese animals fed less than wild-type grained more weight than wild-type animals, indicating that the high thermogenic capacity of their brown adipose tissue did not function to regulate their calorie intake.
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PMID:Influence of restricted food intake on brown adipose tissue function in genetically obese mice (genotype, ob/ob). 298 19

Adrenalectomy arrests the development of obesity in ob/ob mice fed nonpurified high-starch diets partly by stimulating the low thermogenic activity of brown adipose tissue (BAT). However, adrenalectomy fails to suppress the development of obesity in ob/ob mice fed a purified high-glucose diet. Effects of adrenalectomy on BAT metabolism in ob/ob mice fed purified high-starch or high-glucose diets were therefore examined. Adrenalectomy markedly decreased the efficiency of energy retention and increased BAT metabolism (as assessed by GDP binding to BAT mitochondria, GDP-inhibitable acetate- or chloride-induced mitochondrial swelling, and by rates of norepinephrine turnover in BAT) in ob/ob mice fed a high-starch purified diet but had only minimal effects on energy efficiency or BAT metabolism in ob/ob mice fed a high-glucose purified diet. Plasma insulin concentrations decreased and thyroxine concentrations increased in adrenalectomized ob/ob mice fed the high-starch diet; changes in these hormones were less pronounced in adrenalectomized ob/ob mice fed the high-glucose diet. Consumption of glucose mimics effects of adrenal secretions on BAT metabolism in ob/ob mice.
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PMID:Adrenalectomy fails to stimulate brown adipose tissue metabolism in ob/ob mice fed glucose. 318 36

Hypophysectomy (HYPX) in genetically obese (fa/fa) Zucker rats significantly reduced body weight and energy gains and stimulated energy expenditure (by 34%), the thermic response to food (by 144%), and brown adipose tissue (BAT) mitochondrial GDP-binding capacity (by 190%) compared with pair-fed, sham-operated obese rats. These changes in energy balance in obese HYPX rats were reversed by corticosterone replacement (1 mg/day), but the increased BAT activity was only partly restored to normal. HYPX had only small effects on energy balance in lean Zucker rats compared with pair-fed, sham-operated lean controls but increased the acute thermic response to food and BAT mitochondrial GDP-binding capacity; these effects were inhibited by replacement of HYPX rats with corticosterone. The results suggest that alterations in the hypothalamic-pituitary-adrenal axis play a fundamental role in the development and maintenance of genetic obesity.
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PMID:Effect of hypophysectomy on energy balance and brown fat activity in obese Zucker rats. 334 69

Adrenalectomy normalizes many abnormalities of the obese (ob/ob) mouse. The high corticosterone concentration in blood may account in part for development of obesity and other abnormalities in the ob/ob mouse. Our objective was to determine dose-response relationships for the effect of corticosterone on the obesity. Lean and ob/ob mice were adrenalectomized or sham-operated at 4.5 wk of age. Adrenalectomized mice received 100 mg implants of cholesterol containing corticosterone (0, 2, 5, 20, or 50 mg) at 8.5 wk of age and were killed at 10.5 wk of age. In ob/ob mice, but not in lean mice, low physiological levels of serum corticosterone (up to 10 micrograms/dl) markedly increased body weight gain, food intake, and serum insulin. They also increased white and brown adipose tissue weights and decreased brown adipose tissue mitochondrial GDP binding. Higher levels of corticosterone (12-22 micrograms/dl) increased body weight gain, white and brown adipose tissue weights, and serum insulin and suppressed brown adipose tissue mitochondrial GDP binding in lean mice also, although in most cases to a lesser extent than in ob/ob mice, but were still without effect on food intake. Only very high levels of corticosterone (approximately 30 micrograms/dl) increased food intake in lean mice. Hyperglycemia was induced in ob/ob, but not lean, mice only at concentrations of corticosterone greater than 17 micrograms/dl. Thermoregulation was unaffected by serum corticosterone at levels from 0 to 30 micrograms/dl in both ob/ob and lean mice. Thus the ob/ob mouse is excessively sensitive and responsive to an effect of physiological levels of corticosterone that results in hyperphagia, hyperinsulinemia, and increased weight gain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased sensitivity of the genetically obese mouse to corticosterone. 354 20


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