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)

The mutant gene responsible for obesity in the ob/ob mouse was recently identified by positional cloning (Zhang Y., R. Proenca, M. Maffel, M. Barone, L. Leopold, and J.M. Friedman. 1994. Nature (Lond.) 372:425). The encoded protein and to represent and "adipostat" signal reflecting the state of energy stores. We confirm that the adipocyte is the source of ob mRNA and that the predicted 16-kD ob protein is present in rodent serum as detected by Western blot. To evaluate the hypothesis that it might represent an adipostat, we assessed serum levels of ob protein and expression of ob mRNA in adipose cells and tissue of rodents in response to a variety of perturbations which effect body fat mass. Both ob protein and ob mRNA expression are markedly increased in obesity. The levels of ob protein are approximately 5-10-fold elevated in serum of db/db mice, in mice with hypothalamic lesions caused by neonatal administration of monosodium glutamate (MSG), and in mice with toxigene induced brown fat ablation, (UCP-DTA). Very parallel changes are observed in adipocyte ob mRNA expression in these models and in ob/ob mice. As predicted however, no serum ob protein could be detected in the ob/ob mice. By contrast to obesity, starvation of normal rats and mice for 1-3 d markedly suppresses ob mRNA abundance, and this is reversed with refeeding. Similarly, ob protein concentration in normal mice falls to undetectable levels with starvation. In the ob/ob, UCP-DTA and MSG models, overexpression of ob mRNA is reversed by caloric restriction. These data support the hypothesis that expression of ob mRNA and protein are regulated as a function of energy stores, and that ob serves as a circulating feedback signal to sites involved in regulation of energy homeostasis.
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PMID:Expression of ob mRNA and its encoded protein in rodents. Impact of nutrition and obesity. 765 36

The mitochondrial FAD-linked enzyme glycerophosphate dehydrogenase plays a key role in the pancreatic B-cell glucose sensing device. In the present study, the activity of this enzyme was examined in islets of fa/fa rats in which inherited diabetes mellitus is associated with obesity, hyperinsulinism and severe insulin resistance. The specific activity of both FAD-linked glycerophosphate dehydrogenase and glutamate dehydrogenase were decreased in islet and liver homogenates prepared from fa/fa, as compared to Fa/Fa, rats, this coinciding with a low ratio between glutamateoxalacetate and glutamate-pyruvate transaminase activity in both islet and liver extracts, islet hyperplasia, hyperinsulinemia and hepatic steatosis in the hyperglycemic fa/fa rats. It is speculated that a low activity of FAD-linked glycerophosphate dehydrogenase in the pancreatic B-cell may participate to the perturbation of glucose homeostasis in fa/fa rats, like in other animal models of non-insulin-dependent diabetes mellitus.
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PMID:Impaired FAD-glycerophosphate dehydrogenase activity in islet and liver homogenates of fa/fa rats. 783 41

The cytochrome P-450 (P-450) enzymes are collectively responsible for the bulk of oxidation of xenobiotic chemicals, including drugs, pesticides, and carcinogens. This biotransformation can result in either increased or decreased toxicity, depending on the situation. The regulation of individual P-450 enzymes is a complex subject, with examples of induction and direct inhibition and stimulation. Nutrients and food additives can modify P-450 activities and consequently influence toxicity. P-450s also influence the toxicity of potentially harmful materials found in foods, as well as some vitamins and natural products. Some of the foodstuffs and conditions that influence P-450 in experimental animals and in humans are protein, carbohydrate, lipid, obesity and fasting, water- and fat-soluble vitamins, minerals, sulfides, isothiocyanates, indoles, ellagic acid, capsaicin, terpenes, flavones, butylated hydroxytoluene and hydroxyanisole, charbroiled foods, ethanol, and (monosodium) glutamate and aspartate. Consideration is given, when possible, to differences in responses between animal models and humans.
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PMID:Influence of nutrients and other dietary materials on cytochrome P-450 enzymes. 787 33

Non-insulin-dependent diabetes mellitus develops in obesity. The insulin resistance of this disease may be mediated by tumor necrosis factor-alpha (TNF-alpha). In particular, the TNF-alpha derived from adipose tissues might be involved in the induction of peripheral insulin resistance in rodent models of obesity. In general, monocytes/macrophages have been considered as the major source of TNF-alpha. This study was designed to examine the potential production of TNF-alpha from monocyte/macrophages in obese mice. In obese (ob/ob) and obese diabetic (db/db) mice, both of which are known to have severe insulin resistance, unstimulated serum bioactivity of TNF-alpha was significantly higher than that in lean control mice. Spontaneous TNF-alpha mRNA expression in splenic macrophages was also enhanced in obese mice, but not in monosodium-L-glutamate (MST)-induced obese mice which have no insulin resistance. In addition, both ob/ob and db/db mice produce more TNF-alpha than lean mice upon in vivo lipopolysaccharide (LPS) stimulation. The LPS-induced increase in serum TNF-alpha activity was not observed in MSG-induced obese mice. Taken together, it is postulated that TNF-alpha produced by monocytes/macrophages may also play an important role in the genesis of insulin resistance in obesity. Further study is needed to reveal the mechanism of enhanced TNF-alpha production in obese states and its possible etiologic relevance to obesity.
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PMID:Augmented production of tumor necrosis factor-alpha in obese mice. 788 92

Injection of Na-L-glutamate into neonate Wistar-rats (2 mg/g body mass s.c.; day 1-5 of life) induces hypothalamic lesions, which are followed by hypoplastic-hypertrophic obesity despite normophagia. In contrast to other animal models of obesity, these rats develop obesity under peripheral normoinsulinemic conditions. However, beginning at an age of 2 months (growing rats), peripheral insulin concentration rises gradually and at an age of 6 months (adults rats) hyperinsulinemia becomes manifest. Surprisingly, adult rats show normoglycemia, pointing to alterations in insulin sensitivity. In continuation to previous work, insulin binding of different organs of growing and adult rats was investigated using the in vivo radioreceptor assay described by Whitcomb et al. in 1985. In contrast to in vitro methods, this assay works under real metabolic and hormonal conditions in plasma of lean and obese rats. Insulin binding of liver, pancreas, adrenals, stomach, duodenum, spleen, and heart muscles was found to be not statistically different between lean and obese rats of both age groups. Thus, liver insulin binding was 6323 +/- 458 pg/g wet organ in growing, and 7586 +/- 959 pg/g in adult lean rats. Corresponding values for obese rats were 5755 +/- 445 pg/g and 7830 +/- 526 pg/g, respectively. Organ specific down regulation of insulin binding in obese rats was not detected, suggesting unalterated insulin sensitivity. It is concluded that hyperinsulinemia of adult glutamate-induced obese rats cannot be explained by diminished insulin binding and reduced organ specific insulin clearance.
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PMID:In vivo assessment of insulin binding in different organs of growing and adult glutamate-induced obese rats. 790 33

Glutamate-induced obesity of Wistar-rats is known to develop under normophagic and normoinsulinemic conditions, although hyperphagia and hyperinsulinemia are common to obese individuals. Rats of this obesity model show retarded growth, reduced mass of some organs, carcass and whole body as well as an extraordinary high fat content, whereas protein content is reduced. In this study, nitrogen (N) balance, urinary excretion of urea-N, ammonia-N, creatine-N and alpha-amino acid-N and plasma free fatty acid concentration of growing, glutamate-induced obese rats were determined. The main results were independent of frame of reference (mmol N/kg body mass; mmol N/kg0.75 metabolic body mass; N in % of nitrogen intake): Nitrogen intake, urinary excretion of alpha-amino acids and nitrogen excretion in faeces were equal between lean and obese rats. Nitrogen excretion in urine was elevated in obese rats, mainly resulting from increased amounts of urea and ammonia. Nitrogen balance was positive in both groups, but reduced in obese rats. These data point to normal digestion of food proteins, but an unusual high oxidative desamination rate of the absorbed amino acids in obese rats. Taking into account the various hormonal and nerval alterations in glutamate-induced obese rats, resulting e.g. in increased hepatic insulin concentration, the retained amino acid carbon should be channelled into hepatic fatty acid synthesis. Really, unfasted and overnight fasted obese rats showed elevated plasma free fatty acid concentrations. Channeling of amino acids into lipogenesis may explain the low muscle mass and striking fat accumulation--despite normophagia and peripheral normoinsulinemia--of growing, glutamate-induced obese Wistar-rats.
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PMID:Reduced, positive nitrogen balance and elevated plasma free fatty acid concentration in growing, glutamate-induced obese rats. 790 47

The effects of CL 316,243, a highly specific beta 3-adrenoceptor agonist (relative selectivities of 0, 1 and 100,000 for beta 1-, beta 2- and beta 3-receptors, respectively), were evaluated in mice with monosodium L-glutamate (MSG)-induced obesity as well as in control mice injected with physiological saline instead of MSG. Both MSG- and saline-treated mice were divided into three groups and at 8 weeks of age received either CL 316,243 (0.1 or 1.0 mg/kg) or distilled water through a gastric tube for 2 weeks. CL 316,243 not only reduced white adipose tissue mass but also activated brown adipose tissue and systemic metabolism, and hence reduced body mass without affecting food intake. Furthermore, CL 316,243 decreased hyperglycemia and hypertriglyceridemia in MSG-treated mice. However, at the higher dose, CL 316,243 also increased liver triglyceride in MSG-treated mice. These observations suggest that CL 316,243 exerts an anti-obesity effect in mice with MSG-induced obesity and consequently may prove efficacious in the treatment of human obesity.
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PMID:Anti-obesity effect of CL 316,243, a highly specific beta 3-adrenoceptor agonist, in mice with monosodium-L-glutamate-induced obesity. 791 51

The neurological mechanisms associated with weight gain in animals have been extensively studied in mammals, but relatively little investigation has been carried out in birds. As in mammals, it has been shown that lesion of the ventromedial nucleus of the hypothalamus leads to hyperphagia and obesity in several species of birds. Likewise, bilateral lesions of the lateral hypothalamus result in aphagia and weight loss. Therefore, at the level of the hypothalamus, control of body weight appears to be controlled by similar neurological mechanisms in all homeothermic species via modulation of the sympathetic nervous system. Because of the role of the mammalian striatum in body weight regulation, body weight data from various manipulative studies in chickens were analyzed to see if these areas play a role in avian body weight regulation. In the first study, cycloheximide, glutamate, or saline was injected intracerebrally into 1-day-old chicks. In the second study, 3-day-old chicks received surgical ablation of the neocortex or kainic acid-induced lesions of the paleostriatum. Decreased body weight was noted in chicks that received injections of cycloheximide or glutamate, or kainic acid-induced lesions. The disruption in body weight in Experiment 1 might have been due to neurochemical pathology thought to occur in the paleostriatum. In the second experiment, lesions of the neostriatum or hyperstriatum, analogous to the neocortex in mammals, did not produce a difference in weight gain compared to controls. This preliminary work with kainic acid lesions in the chicken paleostriatum demonstrates a significant long-term decrease in body weight. As in mammals, the basal ganglia may have a role in body weight regulation.
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PMID:Avian telencephalon and body weight. 791 25

Administration of monosodium L-glutamate (MSG) to neonatal mice produces a hypothalamic syndrome consisting of stunted growth and later development of obesity. We assayed plasma insulin (IRI), thyroxine (T4) and insulin-like growth factor-I (IGF-I) to investigate their roles in the growth of the mice. Two mg/g body weight of MSG was injected into newborn male mice daily for five successive days after birth. Plasma IRI levels were increased on the after 8 weeks of age in MSG-treated mice. There was no significant difference between the plasma T4 levels in MSG-treated mice and those in controls at any age studied. In contrast to this, plasma IGF-I levels in MSG-treated mice were reduced at one week and after. These results suggest that a decreased plasma IGF-I level contributes to the retarded linear growth which develops soon after the administration of MSG, and hyperinsulinemia contributes to the later development of obesity in MSG-treated mice.
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PMID:Plasma levels of insulin-like growth factor-I are reduced at one week of age in monosodium L-glutamate-treated mice. 792 Sep

Transcription of the adipocyte-specific adipsin gene is dramatically reduced in the adipose tissue of a number of genetically and chemically-induced obese rodents. To map the region of the adipsin gene that confers this response to obesity, transgenic mice were made containing -114, -250, -400, -700, and -938 base pairs (bp) to +35 bp of the promoter linked to the bacterial chloramphenicol acetyltransferase gene. Transgenic mice containing as few as 114 bp of the adipsin promoter had high levels of chloramphenicol acetyltransferase activity in adipose tissue. However, only those mice with 938 bp of the adipsin upstream regulatory region showed suppression of expression in adipose tissue in mice that were induced to become obese with monosodium glutamate. Using gel retardation assays, we showed that a 56-bp fragment of DNA mapping between -687 and -743 bp upstream from the start of adipsin expression was bound by protein factors in nuclear extracts prepared from adipose tissue. There was much greater retardation of this fragment with nuclear extracts prepared from adipose tissue of lean versus obese mice. These results indicate that a tissue-specific transcription factor(s) that regulates adipsin expression is less active in the adipose tissue of obese animals.
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PMID:Independent regulation of adipose tissue-specificity and obesity response of the adipsin promoter in transgenic mice. 796 1

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