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 present study attempted to replicate and extend two recent studies that implicated aberrant brain 5-HT neurotransmission in the etiology of overeating and BW grain. Adult female rats received 25 mg/kg of desipramine hydrochloride 30--45 min prior to an intracisternal injection of 200 microgram (free base) of 5,7-DHT creatinine sulfate or its 1% ascorbic acid aqueous vehicle. After 7 weeks of measuring food intake, water intake, and BW change, rats from both groups received radiofrequency lesions of the MH or sham surgery. After 5 additional weeks of intake and BW measurements, all rats were tested for 24-hr acceptance of varying sucrose and quinine solutions and for 25-day acceptance of a high-fat replacement diet. While 5,7-DHT depleted brain 5-HT by 45%, it did not induce overeating and BW gain alone nor did it modify the overeating, obesity, or "finickiness" produced by hypothalamic injury. Several factors that relate to specificity, sufficiency, and compatibility with other 5-HT depletory techniques were discussed, as were factors of similarity and dissimilarity between this and the previous experiments that we attempted to replicate.
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PMID:Effects of central 5,7-dihydroxytryptamine on the medical hypothalamic syndrome in rats. 28 Feb 59

A retractable wire knife was used to transect medial or lateral components of the MFB or its lateral projections to the striatum and amygdaloid complex. All cuts produced significant depletions of NE, DA, and 5-HT from telencephalon and striatum but little or no effect on hypothalamic NE or 5-HT. Two of our cuts resulted in aphagia and adipsia, the third in hyperphagia and obesity. A detailed correlational analysis of the magnitude and direction of the behavioral and biochemical consequences of our cuts indicated that the ingestive behavior of all of our experimental animals (including animals which had been aphagic and adipsic after surgery as well as animals which were hyperphagic and obese) was positively correlated with the concentration of DA in striatum and telencephalon and negatively correlated with telencephalic 5-HT. Less consistent evidence for facilitatory noradrenergic influences on food intake was also obtained. Our results suggest that the regulation of food intake may be the result of an interaction between telencephalic serotonergic mechanisms and dopaminergic pathways which exert opposite effects on ingestive behavior.
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PMID:A correlational analysis of the effects of surgical transections of three components of the MFB on ingestive behavior and hypothalamic, striatal, and telencephalic amine concentrations. 30 Aug 83

A review of evidence indicates that experimentally induced changes in the activity of serotonin (5-hydroxytryptamine) systems are associated with pronounced changes in feeding behaviour. In general, treatments and procedures believed to lead to an increased availability of 5-HT in the synaptic cleft or which directly activate 5-HT receptors reduce food consumption, while procedures which either directly or indirectly decrease 5-HT receptor activation bring about the opposite effect. Interpretation of findings is hindered by methodological difficulties involved in the experimental manipulation of serotonin metabolism, by the lack of precise behavioural measures of feeding, and by the presence of large stores of serotonin outside the brain. However, available data favour the idea that serotonin systems play an inhibitory role in feeding, possibly in the mediation of satiety. This proposal has implications for further experimental investigations of the control of food intake, and for the aetiology and treatment of obesity.
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PMID:Is there a role for serotonin (5-hydroxytryptamine) in feeding? 36 84

Disordered nocturnal breathing with significant arterial oxygen desaturation and sleep apnoea is a feature of extreme obesity which is often difficult to manage in the short term. We have evaluated the effect of fluoxetine, a centrally acting 5-HT re-uptake inhibitor, on sleep-breathing patterns in asymptomatic extremely obese subjects. A double-blind cross-over study was used to compare fluoxetine (60 mg for three days) to placebo. Eleven obese subjects (ten males, one female, mean weight +/- s.d. 131 +/- 2 kg) slept overnight in a sleep laboratory with the polysomnographic study recorded after an initial acclimatization night. The obese subjects had normal respiratory function and normal fully awake arterial oxygen saturation (%SaO2 97 +/- 1). Marked O2 desaturation was seen in all the subjects during sleep but the average asleep %SaO2 did not differ between the two treatment phases (placebo 90 +/- 5; fluoxetine 92 + 2%). However, fluoxetine significantly increased the minimum %SaO2 recorded during the study night either by abolishing or reducing REM sleep (placebo 73 +/- 2%; fluoxetine 81 +/- 8%; P < 0.05, 95% CI -12.3 to -2.03). Frequent hypopnoea was observed in all subjects in both REM and non-REM sleep whereas apnoea was uncommon. The total apnoea/hypopnoea index fell in six subjects during the fluoxetine night, the largest reduction being seen in the most severely affected. In five of the six the improvement was associated with the abolition of REM sleep. Total sleep time did not differ between the placebo and fluoxetine nights nor did a qualitative assessment of sleep using a visual analogue score.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Short-term use of fluoxetine in asymptomatic obese subjects with sleep-related hypoventilation. 133 Sep 62

Fluoxetine is a potent and specific inhibitor of 5-HT uptake even after prolonged dosing. Both fluoxetine and norfluoxetine, an active metabolite, have a long plasma half life. The drug is extensively metabolized and undergoes renal elimination. Impairment of renal function, increasing age or obesity do not appear to alter the disposition of fluoxetine, although hepatic impairment predictably decreases the clearance of the drug. Recent data suggests that fluoxetine is an inhibitor of cytochrome P450-II-D6 in man and has been shown to inhibit the metabolism of a number of drugs which are substrates for this isoenzyme. It does not, however, affect the elimination of ethanol and does not enhance the effect of ethanol on psychometric testing. Fluoxetine has no effect on normal blood pressure although mean heart rate is slightly reduced. It does not appear to have a clinically significant effect on pituitary function. Although there is psychometric and EEG evidence to suggest a vigilance enhancing property, fluoxetine does not exhibit stimulant activity of the amphetamine type and has been shown to be well tolerated at doses clinically useful for appetite suppression in extensive clinical trials and widespread clinical use since marketed in 1987 for depressive illness.
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PMID:The human pharmacology of fluoxetine. 133 86

Cholecystokinin octapeptide sulfate (CCK 8 S) appears to act via a serotonergic mechanism on several behavioral paradigms, including satiety. In the present study, CCK 8 S was found to induce slight nonsignificant serotonergic changes in hypothalamic nuclei of the normal rat. In the "cafeteria" rat, however, it increased both 5-HT and 5-HIAA levels in the ventromedial hypothalamus (VMH), 5-HT levels in the paraventricular nucleus (PVN) and decreased 5-HIAA levels in the dorsomedial hypothalamus (DMH). These data suggest that the primary site of action of CCK 8 S is in the median hypothalamus, contrasting with an absence of effect in the lateral hypothalamus (LH). The involvement of 5-HT in the effect of CCK 8 S is further suggested. However, the relationship between these neurochemical changes and CCK 8 S-induced satiety is not clear. Nonetheless, a special sensitivity to CCK 8 S of the obese "cafeteria" rat is evidenced, which contrasts with a reduced response of genetic obesity models.
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PMID:Cholecystokinin-induced variations in hypothalamic serotonergic system of the "cafeteria" rat. 170 63

Principal objectives in obesity management comprise the prevention of weight gain, the promotion of weight loss, and the treatment of obesity-related complications, including diabetes, hypertension, and depression. Serotonin agonists reduce food intake. The resultant weight loss is variable and there appears to be no way of predicting good responders, nor is there evidence that additional weight loss attributable to drug therapy is sustained once treatment is discontinued, although nonpharmacological strategies for preventing weight regain are worthy of exploration. Serotonin agonists are of clinical value if there is a short-term need for weight reduction or if long-term pharmacotherapy can be justified. This implies that sometimes the dangers of the obese state outweigh the potential hazards of drug treatment. Clearly, if the same agent also improves diabetic control, blood pressure, or depression then a longer term usage is more readily justified. The extent to which this may be achieved by the currently available 5-HT agonists is discussed.
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PMID:Appraisal of the clinical value of serotoninergic drugs. 172 33

Dextrofenfluramine [+)-fenfluramine) is the dextro-optical isomer of the racemic compound (+/-)-fenfluramine. This compound stimulates the release of serotonin (5-HT) and blocks its re-uptake in serotonergic nerve terminals. (+)-Fenfluramine and its nor metabolite which have been localized in significant amounts in the rat brain are useful anorectic agents in animals. In humans, (+)-fenfluramine is used as an anti-obesity agent when administered orally in doses of 0.25 mg/kg/twice a day. Studies in some animal species (such as the rat and monkey, but not mice) using high doses of (+)-fenfluramine (administered subcutaneously) have shown long-term neurochemical and immunocytochemical effects in selected brain regions. In the present study we used the rat to determine the mechanism underlying the anorectic effect of orally administered (+)-fenfluramine. The rat was selected because long-term effects of (+)-fenfluramine have been previously described in this species. In addition, a variety of other aspects of orally administered (+)-fenfluramine have been addressed in this study. For example, how long does the depletion of 5-HT in the nerve terminals last following cessation of the drug treatment? i.e. is the effect reversible? Is this depletion of 5-HT and the resultant abnormal morphology of 5-HT-immunoreactive nerve terminals seen at high doses dose-dependent? Since some of these questions relate to morphological evaluation of this drug in brain 5-HT systems, we have examined this system as part of our ongoing effort to examine brain monoaminergic systems under perturbed conditions. We have used a morphological (immunocytochemical) approach to answer these questions. The primary function of this study was to evaluate the effects of short-term exposure (4 days) to varying doses of orally administered (+)-fenfluramine on 5-HT-immunoreactive nerve terminals in the frontal cortex of the rat. The frontal cortex was selected because it contains a homogeneous population of nerve fibers and terminals unlike other cortical regions, the hippocampus, striatum and the hypothalamus where a mixed population of coarse and fine fibers has been described. Since the previously reported effect of fenfluramine on 5-HT nerve terminals was the appearance of coarse fibers, the region of cortex selected for this study showed no coarse fibers in the pair-fed control. This essential feature of control regions has not been used in previous studies on this subject. The present study demonstrates that (+)-fenfluramine produces a dose-dependent reduction in 5-HT immunoreactivity of 5-HT nerve terminals in the neocortex of adult rats.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Reversible, short-lasting, and dose-dependent effect of (+)-fenfluramine on neocortical serotonergic axons. 186 26

2-(3,4-Dichlorobenzyl)-2-dimethylamino-1-propanol, hydrochloride (JO 1017) is a novel antidepressant drug. Its biochemical and pharmacological properties were investigated in mice, rats, dogs, rabbits and guinea pigs. In vitro, it selectively inhibited serotonin uptake and had a high affinity for the 3H-paroxetine and 3H-imipramine binding sites. Biochemical studies demonstrated the lack of MAO-A and MAO-B inhibition and the absence of marked affinity for muscarinic, histaminic or other conventional brain receptors. Chronic treatment with JO 1017 induced a decrease in the Bmax values for imipramine sites but did not modify the Bmax for beta-adrenergic and 5-HT2 receptors. The neuropsychopharmacological profile of JO 1017 is characterized by a decrease of the immobility times in behavioural despair tests with mice, a decrease of the escape failures in the rat learned helplessness test, a strong potentiation of L-5-HT P-induced head-twitches in mice and an antagonism of reserpine-induced ptosis in rabbits. It weakly antagonized oxotremorine-induced hypothermia and did not influence the hypothermia induced by apomorphine. In contrast to most other antidepressants, a high dose of JO 1017 induced hypermotility in mice placed in an activity meter without producing stereotyped behaviour and group toxicity. Unlike tricyclic antidepressants, JO 1017 was devoid of severe cardiotoxicity in guinea pigs and had no central anticholinergic nor antihistaminic properties. These results suggest that JO 1017 is a selective serotonin uptake inhibitor with a high safety margin. JO 1017 may have a potential clinical utility both in the treatment of depression and for indications where serotonin transmission is involved, e.g., anxiety, panic attack, obsessive compulsive disorder, obesity and alcohol consumption.
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PMID:Biochemical and pharmacological evaluation of the novel antidepressant and serotonin uptake inhibitor 2-(3,4-Dichlorobenzyl)-2-dimethylamino-1-propanol hydrochloride. 216 3

Serotonin uptake carriers occur on serotonin neurons, on glial cells and on blood platelets. The uptake carrier on serotonin neurons inactivates serotonin that has been released into the synaptic cleft by transporting it back into the nerve terminal. The serotonin uptake carrier is the means by which blood platelets acquire serotonin, since they do not synthesize it. The function of the serotonin uptake carrier on glial cells is poorly understood. Selective inhibitors of serotonin uptake enhance neurotransmission via serotonergic neurons and have been useful pharmacologic tools for studying physiologic roles of serotonin neurons. Some serotonin uptake inhibitors are finding therapeutic uses in mental depression and other psychiatric disorders and in treating obesity and bulimia; other therapeutic applications continue to be evaluated.
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PMID:Serotonin uptake and serotonin uptake inhibition. 225 38

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