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)

Because abnormalities of the autonomic nervous system have been described in several animal models of obesity, and because galanin has been proposed to be a sympathetic neurotransmitter in the endocrine pancreas, we hypothesized that the hyperinsulinemia observed in genetically obese (ob/ob) mice may result either from defective ability of galanin to inhibit insulin release or from a reduced degree of pancreatic galaninergic innervation. To address these possibilities, we examined the effect of exogenous galanin on immunoreactive insulin (IRI) levels in ob/ob mice and compared the pancreatic content of galaninlike immunoreactivity (GLIR) in ob/ob mice with that in lean littermates. Intravenous administration of synthetic porcine galanin significantly reduced basal IRI levels in ob/ob mice, suggesting that a defect in galanin action is unlikely to account for the hyperinsulinemia in this model. In contrast, reduced pancreatic galaninergic innervation was supported by findings that pancreatic content of GLIR in ob/ob mice was less than 10% of that in age- and sex-matched lean littermates. The reduction of pancreatic GLIR in ob/ob mice appeared organ specific; no such reduction was observed in adrenal GLIR content when comparing obese and lean mice. In addition, the relationship between pancreatic GLIR content and plasma IRI levels was examined in groups of obese and lean mice. It was found in young females, young males, and older mice of mixed sex that there was a significant negative correlation between pancreatic GLIR and plasma IRI in lean mice, whereas no such correlation was observed in obese mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduced pancreatic content of the inhibitory neurotransmitter galanin in genetically obese, hyperinsulinemic mice. 137 40

Neuropeptide Y (NPY) is a powerful appetite stimulant, and hypothalamic concentrations rise after food deprivation and in experimental diabetes. Serotonergic drugs such as dexfenfluramine are inhibitors of feeding. We measured hyothalamic NPY and NPY mRNA, along with galanin, neurotensin, and somatostatin in chow-fed rats and in rats with dietary obesity, and examined the effect of dexfenfluramine on these peptides in this model. Sixty-five rats were fed a palatable diet (condensed milk, sucrose and chow) for 6 weeks, which produced significant weight gain compared to twenty fed standard chow (145.1 +/- 2.3 g vs. 113.4 +/- 3.2 g, p less than 0.001). Groups of animals were treated for 7 days or 28 days with dexfenfluramine (1.8 mg/kg/day) or saline intraperitoneally via miniosmotic pumps. Hypothalami were dissected into medial and lateral blocks, and NPY, galanin, neurotensin, and somatostatin were measured by radioimmunoassay. Neuropeptide Y mRNA was measured by Northern blotting. Hypothalamic NPY was significantly higher in the palatable diet group compared to chow-fed controls (medial hypothalamus: 86.6 +/- 7.6 vs. 65.7 +/- 4.0 pmol/g tissue, p less than 0.02, lateral hypothalamus 71.2 +/- 6.6 vs. 53.1 +/- 3.6 pmol/g tissue, p less than 0.05), but NPY mRNA was unchanged. Although dexfenfluramine was effective at reducing weight gain in the animals fed the palatable diet, this did not result in any changes in the hypothalamic neuropeptides measured. Neuropeptide Y may be of importance in diet-induced obesity but the weight loss produced by dexfenfluramine in such animals is not mediated by changes in hypothalamic NPY.
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PMID:Dexfenfluramine treatment and hypothalamic neuropeptides in diet-induced obesity in rats. 138 31

Central and lateral hypothalamic concentrations of 9 regulatory peptides implicated in the control of feeding behaviour were measured in corpulent (cp/cp) JCR:LA-cp rats which develop spontaneous obesity, hyperinsulinaemia and hyperlipidaemia, and in lean (+/?) controls. In female cp/cp rats, central hypothalamic levels of neuropeptide Y (NPY), neurotensin, somatostatin and substance P were significantly lower (p less than 0.02) than in lean female controls. Following food restriction with a 16% reduction in body weight, these differences were apparently reversed and there were also significant rises in the lateral hypothalamic concentrations of neurotensin and of galanin. The other 4 peptides examined (bombesin, calcitonin gene-related peptide, neuromedin B and vasoactive intestinal peptide) did not differ significantly between cp/cp and lean females, either fed freely or food-restricted. Male cp/cp rats showed no significant differences from lean males in central or lateral hypothalamic concentrations of any of the 9 peptides. NPY and galanin are powerful and specific central appetite stimulants, whereas neurotensin, substance P and somatostatin inhibit feeding when injected centrally. Disturbances in these putative appetite-regulating peptides may be involved in the hyperphagia and other hypothalamic abnormalities in this spontaneous obesity syndrome. The apparent absence of differences between the male corpulent and lean groups may relate to sexual dimorphism of the syndrome, which is more marked in the females.
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PMID:Hypothalamic regulatory peptide disturbances in the spontaneously obese JCR: LA-corpulent rat. 172 Mar 64

Hypothalamic tissue levels of nine regulatory peptides (bombesin, calcitonin gene-related peptide [CGRP], galanin, neuromedin B, neuropeptide Y [NPY], neurotensin, somatostatin, substance P, and vasoactive intestinal peptide [VIP]) were compared in Aston obese diabetic (ob/ob) and lean (+/?) mice aged 4, 16, and 28 weeks. Neurotensin concentrations were significantly lower in ob/ob mice than in lean mice, with a 20% reduction (P = .03) in the whole hypothalamus at 4 weeks of age, a 24% reduction (P = .009) in the lateral hypothalamus at 16 weeks, and a 50% reduction (P = .0007) in the central hypothalamus at 28 weeks of age. Apart from a 42% increase in vasoactive intestinal peptide concentrations in the central hypothalamus of ob/ob mice at 28 weeks (P = .02), levels of the other eight peptides examined did not differ significantly between obese and lean groups. Neurotensin is known to cause anorexia and increased energy expenditure when injected into the central hypothalamus. Reduced hypothalamic neurotensin concentrations may reflect reduced neurotensinergic activity, which might contribute to hyperphagia and decreased energy expenditure, two major defects that contribute to obesity and diabetes in the ob/ob syndrome.
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PMID:Reduced hypothalamic neurotensin concentrations in the genetically obese diabetic (ob/ob) mouse: possible relationship to obesity. 194 36

Pharmacological tests are essential for the diagnosis of growth hormone (GH) insufficiency. Obesity is a pathological state associated with blunted GH response to all the classical stimuli tested. In the present study, three new pharmacological stimuli for GH reserve were evaluated in three groups of subjects: Normal, GH-insufficient and normal growing obese children. Dexamethasone provokes a clear GH-response in normal children, whereas the response in the other 2 groups of patients is significantly diminished. Galanin-induced GH-secretion is significantly higher in normal than in obese children. GHRP-6 causes a potent GH release in normal children, higher than in GH-insufficiency or obesity. The overlap shown between GH-insufficient patients and normal children reduces the usefulness of the tests. Similar to the classical stimuli, the response to these new tests is also decreased in obesity.
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PMID:New diagnostic tests of GH reserve. 752 26

Food Intake is reciprocally related to the activity of sympathetic nerves to brown adipose tissue. This reciprocal or feedback relation is shown for hypothalamic lesions, drugs, and many peptides. These peptides also modulate intake of specific nutrients. Galanin and opioids increase fat intake, whereas enterostatin decreases fat intake. NPY increases carbohydrate intake and growth hormone releasing hormone decreases protein intake. The activity of the sympathetic nervous system is low in obesity and adrenalectomy reverses this decrease in sympathetic activity and reverses or stops the progression of obesity. One mechanism for this effect of adrenal steroids is through a transacting substance which is involved in steroid actions and the production of obesity.
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PMID:Food intake, sympathetic activity, and adrenal steroids. 822 Nov 49

Obesity results from an imbalance between nutrient ingestion and metabolism, with more calories being ingested than utilized. The brain plays an important role in coordinating these complex behavioral and physiological functions, operating through multiple neurochemical systems with distinct properties. This review focuses on two hypothalamic peptide systems, neuropeptide Y (NPY) and galanin (GAL), that illustrate how the brain operates through different mechanisms to control the body's nutrient stores, in different states or conditions. These peptides have different behavioral and physiological effects and are, themselves, differentially responsive to feedback signals from circulating steroids, peptides, and nutrients. They can be distinguished by their relation to natural feeding patterns and endogenous hormones and by their specificity of action in relation to natural biological rhythms. The neuroanatomical substrates involved in these actions of NPY and GAL are also distinct. The neurocircuit mediating NPY's actions originates in the arcuate nucleus and terminates in the medial portion of the paraventricular nucleus; the GAL-containing neurons, in contrast, are concentrated in the lateral portion of the paraventricular nucleus, in addition to the medial preoptic area, which contribute to local GAL innervation as well as projections to the median eminence. Regarding their distinct functions, the evidence suggests that the NPY system is more closely related to patterns of carbohydrate ingestion and carbohydrate utilization, channeling nutrients towards the synthesis of fat. It is most strongly activated at the start of the active feeding cycle or after weaning, in close association with the adrenal steroid, corticosterone. The GAL system, in contrast, is more closely associated with patterns of fat consumption and signals related to fat oxidation. This peptide system is most active during the middle of the feeding cycle or immediately after puberty, in close association with the gonadal steroids. The gene expression and synthesis of these peptides in their respective neuronal cell groups is inhibited by circulating insulin and altered by dietary nutrients. Disturbances in sensitivity to insulin and steroid feedback regulation in the brain are believed to be involved in producing abnormal patterns of peptide function that result in overeating and body weight gain.
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PMID:Brain peptides and obesity: pharmacologic treatment. 869 61

Lean and obese male Zucker rats were fed high fat (72% of energy as fat), high carbohydrate (66% of energy as carbohydrate) or intermediate diets for 4 weeks commencing 1 week after weaning. We examined the effects of these diets on growth rates, plasma insulin and corticosterone titres, and hypothalamic gene expression of 3 appetite-related neuropeptides. Messenger RNA levels for neuropeptide Y (NPY), galanin (GAL) and corticotropin-releasing factor (CRF) in critical hypothalamic locations were measured by in situ hybridization in each brain. Obese rats grew more rapidly and had elevated plasma insulin and corticosterone concentrations relative to their lean littermates. The obese phenotype was also associated with elevated NPY gene expression in the arcuate nucleus of the hypothalamus and increased GAL gene expression in the hypothalamic paraventricular nucleus. There was no effect of diet on NPY or CRF gene expression in either lean or obese rats. However, maintenance on the high fat diet had a significant effect on GAL gene expression in obese but not lean rats: high fat diet significantly reduced mRNA levels in the obese rats. This reduction in GAL mRNA was accompanied by attenuation of the hyperinsulinemia that is characteristic of this genetic obesity.
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PMID:Regulation of galanin gene expression in the hypothalamic paraventricular nucleus of the obese Zucker rat by manipulation of dietary macronutrients. 903 34

Dominant mutations at the agouti locus induce several phenotypic changes in the mouse including yellow pigmentation (phaeomelanization) of the coat and adult-onset obesity. Nonpigmentary phenotypic changes associated with the agouti locus are due to ectopic expression of the agouti-signaling protein (ASP), and the pheomelanizing effects on coat color are due to ASP antagonism of alpha-MSH binding to the melanocyte MC1 receptor. Recently it has been demonstrated that pharmacological antagonism of hypothalamic melanocortin receptors or genetic deletion of the melanocortin 4 receptor (MC4-R) recapitulates aspects of the agouti obesity syndrome, thus establishing that chronic disruption of central melanocortinergic signaling is the cause of agouti-induced obesity. To learn more about potential downstream effectors involved in these melanocortinergic obesity syndromes, we have examined expression of the orexigenic peptides galanin and neuropeptide Y (NPY), as well as the anorexigenic POMC in lethal yellow (A(y)), MC4-R knockout (MC4-RKO), and leptin-deficient (ob/ob) mice. No significant changes in galanin or POMC gene expression were seen in any of the obese models. In situ hybridizations using an antisense NPY probe demonstrated that in obese A(y) mice, arcuate nucleus NPY mRNA levels were equivalent to that of their C57BL/6J littermates. However, NPY was expressed at high levels in a new site, the dorsal medial hypothalamic nucleus (DMH). Expression of NPY in the DMH was also seen in obese MC4-RKO homozygous (-/-) mice, but not in lean heterozygous (+/-) or wild type (+/+) control mice. This identifies the DMH as a brain region that is functionally altered by the disruption of melanocortinergic signaling and suggests that this nucleus, possibly via elevated NPY expression, may have an etiological role in the melanocortinergic obesity syndrome.
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PMID:Induction of neuropeptide Y gene expression in the dorsal medial hypothalamic nucleus in two models of the agouti obesity syndrome. 913 6

The recently discovered rat neuropeptide Y (NPY) receptor, the Y5 subtype, has been proposed to mediate the NPY-induced feeding response and therefore plays a central role in the regulation of food intake. These conclusions were based on studies with peptidic agonists. We now report studies in which phosphothioate end-protected antisense oligodeoxynucleotides (ODNs) targeted to prepro NPY (prepro NPY antisense ODNs) or to the Y5 receptor (Y5 antisense ODNs) were used to assess the functional importance of this novel receptor subtype in vivo. NPY antisense ODNs given intracerebroventricularly to rats prevented the increase in hypothalamic NPY levels during food deprivation and inhibited fasting-induced food intake. Likewise, repeated intracerebroventricular injections of Y5 antisense ODNs prevented fasting-induced food intake in rats. Moreover, two Y5 antisense ODNs, targeted to different sequences of the receptor, significantly decreased basal food intake and inhibited the increase in food intake after intracerebroventricular injection of NPY. These effects proved to be selective, since the feeding response to galanin was not affected. Analysis of the structure of feeding behavior revealed that prepro NPY and Y5 receptor antisense ODNs reduced food intake by inducing decreases in meal size and meal duration analogous to the orexigenic effects of NPY that are mediated by increases in these parameters. Although changes in Y5 receptor density could not be measured, the results with Y5 antisense ODNs strongly suggest that this receptor subtype mediates the feeding response to exogenous and endogenous NPY. Selective Y5 antagonists may therefore be of therapeutic value for the treatment of obesity and eating disorders.
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PMID:Inhibition of food intake by neuropeptide Y Y5 receptor antisense oligodeoxynucleotides. 935 28


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