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Query: UMLS:C0038187 (starvation)
 24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent pharmacological studies have more precisely characterised the nature of the inhibitory effect of brain serotonin (5-hydroxytryptamine) on feeding behaviour. Thus, the brain sites and receptors involved have been identified, and a possible physiological role of endogenous serotonin in controlling natural patterns of eating and nutrient selection has been defined. The medial hypothalamus is believed to be a critical location in the mediation of serotonin's action. Specifically, the paraventricular and ventromedial nuclei are known to be involved in controlling energy balance, while the suprachiasmatic nucleus determines circadian patterns of eating. Serotonergic stimulation of these 3 nuclei with exogenous serotonin or drugs that release endogenous serotonin, preferentially reduces carbohydrate intake in naturally feeding animals through satiety mechanisms involved in the termination of feeding. This phenomenon is mediated by serotonin and possibly serotonin receptors, in contrast to serotonin autoreceptors which potentiate feeding possibly by inhibiting serotonin release. The activity of serotonergic function in the medial hypothalamus exhibits a circadian rhythm which is characterised by a peak at the beginning of the active cycle when the motivation to eat is strongest and is triggered by deficits in energy stores. At this time, carbohydrate is found to be the naturally preferred macronutrient, and it appears that serotonin becomes most activated under these conditions to terminate the carbohydrate-rich meal, possibly by activating satiety neurons localised in the medial hypothalamus. In this process, serotonin may interact antagonistically with noradrenaline (norepinephrine) and its alpha 2-noradrenergic receptors that normally function to enhance carbohydrate intake at the onset of the natural feeding cycle. Moreover, while inducing satiety for carbohydrate, serotonin may also play a role in switching the animal's preference towards protein. The regulation of this macronutrient is closely linked to that of carbohydrate, and it is normally preferred in the second meal of the natural feeding cycle. Most of the pharmacological evidence to date generally supports the hypothesis that disturbances in serotonin function occur in eating disorders. Decreases in plasma tryptophan, urinary 5-hydroxyindoleacetic acid (5-HIAA), platelet serotonin binding and basal cerebrospinal fluid 5-HIAA in anorexia nervosa normalise upon weight restoration and appear to be starvation effects. These alterations in serotonergic function may however perpetuate the symptomatology of anorexia nervosa once the illness is set in motion. Some drugs which in part affect serotonergic function facilitate weight gain in conjunction with an integrated psychotherapeutic and behavioural programme. Patients with bulimia nervosa, regardless of the presence of anorexia nervosa or major depression, who have been relatively weight stable and free of binge/vomit episodes for at least 3 weeks, have significantly blunted prolactin responses to the serotonin agonists. These findings indicate that post-synaptic responsiveness in hypothalamic-pituitary serotonergic pathways is reduced in bulimia. Similar alterations in other serotonin pathways at or above the level of the hypothalamus may contribute to binge eating and other behavioural symptoms in bulimic patients. The clinical response to several psychotropic agents known to potentiate serotonergic transmission further substantiates a serotonin dysregulation hypothesis of bulimia nervosa.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The role of serotonin in eating disorders. 219 74

Male Long-Evans rats were given 50 micrograms/kg 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) intraperitoneally and after 1, 4, 28 or 76 hr, noradrenaline, dopamine, dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), 5-hydroxytryptamine (5-HT), 5-hydroxyindoleacetic acid (5-HIAA), tryptophan and histamine were measured in the brain (dissected into ten parts) as well as in the pituitary gland. Several slight but significant changes were observed, e.g. in the hypothalamus where HVA and 5-HIAA were decreased after 4 hr, noradrenaline was decreased after 76 hr and histamine increased after 28 hr. Several late changes were also found, conspicuously tryptophan was increased in most brain areas after 76 hr and in some cases earlier; these changes may be due to starvation after hypophagia rather than TCDD directly. The results demonstrate that TCDD causes changes in brain neurotransmitter systems, but the changes are minor and it is not likely that aminergic systems are the key mediators in TCDD-induced hypophagia.
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PMID:Changes in rat brain monoamines, monoamine metabolites and histamine after a single administration of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). 225 84

The effects of progressive starvation for up to three days on the basal and secretagogue stimulated secretory functions of the rat ileum were investigated in vitro and in vivo. The secretagogues used included agents acting via cyclic AMP (dibutyryl cyclic AMP, theophylline, forskolin, and PGE2) and those acting via Ca++ (acetylcholine, bethanecol, carbachol, 5-hydroxytryptamine, and A23187). Starving rats for 24 h (day 1) had no effect on the basal electrogenic secretion (measured as the short circuit current, Isc muamps/cm2) or on the stimulated maximum electrogenic secretion (measured as the delta Isc where delta Isc = maxIsc-basal Isc). By day 2 of starvation, however, both the basal Isc and the delta Isc induced by all the secretagogues were significantly greater than in the fed and increased even more on day 3. Replacement of all the chloride ions and inhibition by furosemide indicated that the enhanced secretion was due mainly to chloride ions. Cholinergic stimulation was blocked by atropine, indicating the stimulation was via muscarinic receptors while cholinergic dose - delta Isc response curves for fed and starved ilea showed significantly increased maximum electrogenic secretory response in the latter but no evidence of any change in the affinity (ED50) of the receptors mediating the response. The basal secretion and the secretory response to acetylcholine in both fed and starved ilea was unaffected by tetrodotoxin, revealing that the enhanced secretory response could be expressed via the muscarinic receptors on the enterocytes without the enteric neural network. Measurement of ileal fluid movement in vivo showed that in fed and day 1 starved rats the basal, unstimulated 'tone' of the ileum was absorptive. On day 2, however, the basal 'tone' had reversed to one of secretion which increased further on day 3. Stimulation of fluid secretion in vivo by bethanecol, carbachol, or PGE2 induced larger increases in the starved ilea by day 2 which increased even further on day 3. Lumenal chloride and bicarbonate concentrations were greater in the starved ileal fluid than in the fed. The studies in rat ileum confirm and extend those on rat jejunum and indicate that starvation creates a hypersensitive small bowel that responds to secretagogues and cholinergic neurotransmitters with a greatly enhanced secretory response.
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PMID:Diarrhoea of famine and malnutrition--investigations using a rat model. 2--Ileal hypersecretion induced by starvation. 231 74

Maternal smoking depressed the active uptake of amino acids by human placentae and lowered their levels in the placenta and umbilical vein. During starvation of cells for amino acids, more amino acid carriers are induced and incorporated into the plasma membrane. A question arises whether there could be similar changes due to maternal smoking in the placental amino acid uptake carrier systems. Therefore, the characteristics of (a) the uptake of 2-amino[I-14C]-isobutyric acid (AIB) by isolated placental villi, (b) gammaglutamyltranspeptidase (GGTP), a critical enzyme of the gammaglutamyl cycle (GGC) for the uptake of amino acids in human placenta, and (c) lipid structural parameters (reciprocal of fluidity), by steady state fluorescence polarization of plasma membrane vesicles of microvilli (MV) and microsomal membranes (MM) of umbilical and chorionic plate arteries of placentae of smoking and non-smoking mothers were investigated. The above investigations gave the following results: (a) Washed placental villi of smokers exhibited higher capacity for AIB uptake than those of non-smokers. The higher uptake capacity was mainly due to increase in Vmax for AIB uptake in smokers. Km increased for placental AIB uptake in smokers. (b) Maternal smoking lowered GGTP activity of MV by decreasing its Vmax. Therefore, maternal smoking decreases the formation of gammaglutamyl-amino acid (GGAA) on the surface of trophoblast which are absorbed by the trophoblast. The degree of absorption of GGAA is considered as an inverse environmental signal for the cell to regulate amino acid transport systems. Maternal smoking seems to decrease the formation and absorption of GGAA and thereby induce the formation of new carriers for AIB uptake. (c) Maternal smoking increased the values for lipid structural order parameters and microviscosity of MV and induced tolerance against fluidization by ethyl alcohol in MM of umbilical and chorionic arteries. The alterations could increase Km for AIB uptake system and decrease the sensitivity of umbilical and chorionic arteries to vasoconstrictive substances like 5-hydroxytryptamine and catecholamine which are released by nicotine. All these changes tend to overcome the deficits produced in placental amino acid transport and satisfy the demands of the growing fetus for amino acids.
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PMID:Maternal tobacco smoking and changes in amino acid uptake by human placental villi: induction of uptake systems, gammaglutamyltranspeptidase and membrane fluidity. 257 Nov 46

Rats trained on a restricted feeding (RF) schedule of 4 h/day were killed before (starved) and after (fed) the presentation of food to compare hepatic and brain tryptophan metabolism with feeding (FF) controls. The RF rats exhibited greater holo-tryptophan pyrrolase activity in the liver than FF controls. Holoenzyme activity of starved rats was greater than fed animals. Plasma levels of tryptophan higher in the FF rats were comparable in the starved and fed groups of RF rats. Plasma levels of glucose comparable in the FF and RF fed rats were smaller in the starved animals. Brain levels of tryptophan comparable in the RF fed rats and FF controls were smaller in RF starved rats. Brain concentrations of serotonin (5-hydroxytryptamine) and its metabolite 5-hydroxyindoleacetic acid comparable in the RF starved rats and FF controls were higher in the RF fed rats. Possible implication of the findings in the pathogenesis of food deprivation/starvation related disease, anorexia nervosa is discussed.
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PMID:Decreases of plasma tryptophan concentrations following restricted feeding do not decrease serotonin and its metabolite in rat brain. 753 Aug 10

An investigation of the effects of chronic administration of ethanol by the liquid diet procedure and its subsequent withdrawal on tryptophan (Trp) metabolism and disposition was performed in rats. Treatment with the control liquid diet caused an enhancement of liver Trp pyrrolase activity and mRNA abundance. These effects are not due to the starvation associated with this feeding procedure, because they occur in rats maintained on the liquid diet ad libitum. Chronic ethanol administration in the liquid diet did not further influence the above increased expression of Trp pyrrolase mRNA but caused inhibition of pyrrolase activity in competition with the effects of the diet. The control liquid diet decreased liver Trp concentration, but exerted no significant effects on other aspects of Trp disposition. The most striking and robust finding was a highly significant elevation in both Trp pyrrolase activity and mRNA expression at 7 h following discontinuation of ethanol availability, at which time there were demonstrable behavioural signs of ethanol withdrawal. The increase in Trp pyrrolase mRNA during alcohol withdrawal may be caused by corticosterone, whose circulating concentration was also increased. The changes in Trp pyrrolase activity during ethanol withdrawal were associated with significant alterations in Trp disposition including decreased brain Trp concentration and 5-hydroxytryptamine synthesis and turnover. These alterations may play a pivotal role in the behavioural manifestations of ethanol withdrawal including the hyperexcitement underlying audiogenic seizures. We suggest that rat Trp pyrrolase gene regulation may be an important biological determinant of the ethanol withdrawal syndrome and requires further study, and that the use of the liquid diet procedure in Trp metabolic studies requires inclusion of adequate controls and special attention to the effects of the liquid diet itself.
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PMID:Effects of chronic administration and subsequent withdrawal of ethanol-containing liquid diet on rat liver tryptophan pyrrolase and tryptophan metabolism. 873 17

Rats fed on a restricted feeding (RF) schedule of 4 h day-1 to produce a 15-20% reduction in body weight were killed before (starved) and after (fed) the presentation of food on the sixth day to compare 5-hydroxytryptamine (5-HT; serotonin) metabolism and synthesis rate in the hypothalamus with freely feeding (FF) controls. The RF rats showed lower 5-HT concentration and synthesis rate than FF controls. Restricted feeding did not decrease tryptophan concentration in the hypothalamus. However, RF-fed rats had lower tryptophan concentration than RF starved rats. 5-HIAA concentration was comparable in RF fed rats and FF controls but higher in RF starved rats. Possible implications of the findings in the pathogenesis of the food deprivation/starvation-related disease anorexia nervosa are discussed.
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PMID:Food restriction decreases serotonin and its synthesis rate in the hypothalamus. 881 22

This investigation reports the possible role of the endocannabinoid anandamide on modulating the behavioral and neurochemical consequences of semi-starvation. We studied the effect of very low dose anandamide (0.001 mg/kg) administration on food intake, cognitive function and catecholaminergic and serotonergic pathways in two murine brain areas concerned with appetite (hypothalamus) and learning (hippocampus), and the peripheral corticosterone response to the stress of 40% diet restriction. Anandamide-treated mice consumed 44% more food (P<0.05) during 1 week of 2.5-h feeding each day. In the hypothalamus, there were significantly increased concentrations of norepinephrine (P<0.01), dopamine (P<0.05) and 5-hydroxytryptamine (5-HT) (P<0.001). In the hippocampus, anandamide increased significantly norepinephrine and dopamine, but decreased 5-HT (all at P<0.001). Diet restriction was accompanied in both areas by a significant decrease in all neurotransmitter concentrations that were partially restored by anandamide for dopamine and 5-HT, but not for norepinephrine. In animals on diet restriction, anandamide significantly improved impaired maze performance. Norepinephrine turnover and plasma corticosterone levels were also raised significantly by anandamide. The fact that low dose anandamide improved food intake, cognitive function and reversed some of the neurotransmitter changes caused by diet restriction, might have implications for the treatment of cachexia associated with acquired immunodeficiency syndrome (AIDS) and cancer, for mood changes sometimes associated with dieting, and in the extreme case, of patients with anorexia.
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PMID:Low dose anandamide affects food intake, cognitive function, neurotransmitter and corticosterone levels in diet-restricted mice. 1076 68

Male and female rats fed on a restricted feeding (RF) schedule of 4 weeks to produce 20-25% reduction in body weight, were killed before (starved) and after (fed) the presentation of food to compare 5-hydroxytryptamine (5-HT) metabolism in the hypothalamus with respective freely feeding (FF) controls and to monitor sex differences in RF-induced changes of 5-HT. RF decreased plasma tryptophan concentration in RF starved and RF fed females and also in RF starved males. In the hypothalamus tryptophan levels decreased in RF starved and RF fed female rats and RF fed males. 5-HT decreased in both RF starved and RF fed male and female rats and the decreases were comparable in the two sexes. 5-hydroxyindoleacetic acid (5-HIAA), a major metabolite of 5-HT was not affected. Food restriction decreased 5-HT concentration in the rest of the brain of male but not female rats. Possible implications of the findings in the pathogenesis of food restriction/starvation related disease anorexia nervosa and its greater occurrence in women than men is discussed.
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PMID:Decreases of brain serotonin following a food restriction schedule of 4 weeks in male and female rats. 1120 56

Neurochemical research on brain 5-hydroxytryptamine (5-HT; serotonin) and feeding shows that rat brain serotonin metabolism is increased following ingestion of a carbohydrate rich diet to generate a neurochemical signal for the termination of meal. Increased metabolism may not necessarily enhance postsynaptic function; neuropharmacological studies therefore gained attention. Drugs which mimick 5-HT function at the post synaptic sites have been shown to decrease feeding in experimental animals. Moreover some 5-HTergic drugs are potent anorectic agents. Multiple receptors for 5-HT exist in the central nervous system. Drugs with selectivity towards 5-HT-1B/ 5-HT-1C sites produced hypophagia, while 5-HT-1A selective drugs increased food intake. Studies designed to investigate sensitivity of these receptors following starvation or satiety may prove useful to develop drugs for therapeutic purposes.
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PMID:Serotonergic neurotransmission in the regulation of appetite: a receptor approach. 1641 31


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