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

Patients with anorexia nervosa have neuroendocrine and behavioral alterations that starvation and weight loss are thought to cause, or contribute to, since they are reversed by weight restoration. We have found that anorexics have starvation-related disturbances of neuropeptide Y (NPY), corticotropin-releasing hormone (CRH), and beta-endorphin, as determined by their measurements in cerebrospinal fluid. The relationship between these neuropeptides and several symptoms in anorexia, together with findings in experimental animals, raise a possibility that changes in the activity of these neuropeptides contribute to neuroendocrine and behavioral alterations in anorexia. Specifically, a disturbance of central nervous system CRH activity is likely to be responsible for hypercortisolemia, while a disturbance of central nervous system NPY may contribute to amenorrhea. In addition, disturbances of these neuropeptides could contribute to other symptoms such as increased physical activity, hypotension, reduced sexual interest, depression, and pathological feeding behavior.
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PMID:Contribution of CNS neuropeptide (NPY, CRH, and beta-endorphin) alterations to psychophysiological abnormalities in anorexia nervosa. 253 90

The lipolysis in adipose tissue is controlled by the hormone-sensitive lipase activity which is dependent on the intracellular cAMP level. In human adipose tissue, cAMP level is increased by catecholamines (through beta-adrenoceptor stimulation) or decreased by insulin, catecholamine (through alpha 2-adrenoceptor stimulation), neuropeptide Y, prostaglandins and adenosine. The mobilization of lipids from adipose tissue is an adaptative mechanism in response to starvation or hypocaloric diet, which involves reduction of the antilipolytic effect of insulin and the increase of catecholamine sensitivity. The regulatory pathways of lipolysis and their adaptation to caloric reduction are not defective in obesity state. Pharmacological approaches proposed for the activation of lipolysis are limited; they mainly consist either to stimulate the fat cell beta-adrenoceptors (beta-sympathomimetic drugs) or to indirectly activate the sympathetic nervous system (ephedrine and its derivatives, methylxanthines, alpha 2-antagonists). However, the side effects elicited by these drugs frequently limit their clinical use.
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PMID:[Lipid mobilization, physiopathological and pharmacological aspects]. 775 46

Central administration of neuropeptide Y (NPY) produces a robust feeding response in the rat. It is still unclear how, and in response to what endogenous stimuli NPY is released. We have developed a radioimmunoassay-linked microdialysis procedure for measuring hypothalamic NPY release in both the anaesthetised and freely moving rat. We have used the procedure to show that anaesthesia dramatically decreased NPY release, while a 48 h period of food deprivation significantly increased extracellular NPY concentrations. Streptozotocin-induced diabetic rats also showed increased hypothalamic NPY release compared to controls. These results provide more evidence that NPY may be involved in mediating the hyperphagia associated with starvation and diabetes mellitus. The development of a sensitive microdialysis procedure to measure NPY will allow further detailed investigation of the hypothalamic NPY system.
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PMID:Effect of food deprivation and streptozotocin-induced diabetes on hypothalamic neuropeptide Y release as measured by a radioimmunoassay-linked microdialysis procedure. 780 26

The role of neuropeptide Y (NPY), leptin and 5-HT and other neurotransmitters implicated in the regulation of energy balance are only now being fully investigated. Little is known about how they may interact with each other in this complex process. In evolutionary terms, the availability of excess food, and the risk of obesity, is only a recent occurrence in humans. Man, and perhaps other species, may not have developed a specialised neurochemical system for adjusting food intake during obesity. Hence perturbation of a single system, such as hypothalamic NPY or leptin, is unlikely to be directly responsible for the development of most obesity. In contrast, periods of food deprivation and partial starvation have been common in the animal kingdom and the multitude of neurotransmitters implicated in energy balance are more likely to be directed towards increasing food consumption and conserving energy than reducing appetite and increasing thermogenesis in the presence of excess. The last few years have witnessed rapid advances in the understanding of the fundamental mechanisms that regulate body weight and fat content. This progress will undoubtedly continue in the future, and it is hoped that this will be rewarded with the development of new drugs to treat obesity. At present, however, it is unclear whether NPY, leptin, or other apparently strong candidates will be the winner in the lucrative race for the ideal anti-obesity drug.
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PMID:Neurobiology. 924 37

Neuropeptide Y is one of the most powerful neurochemical stimulants of food intake known. The neuronal substrate for this action is believed to be the neuropeptide Y-expressing cell population in the hypothalamic arcuate nucleus. In this study, mice homozygous for the anorexia mutation (anx) were investigated histochemically; anx is a recessive mutation that causes decreased food intake and starvation, leading to death 22 days after birth. We were interested to see whether any hypothalamic neurochemical abnormalities could be detected in this genetic model of starvation. By using immunohistochemistry and in situ hybridization, the hypothalamic distributions of neuropeptide Y, cholecystokinin, galanin, and serotonin, all messenger molecules postulated to be involved in the regulation of food intake and energy metabolism, were investigated. Immunoreactivities for somatostatin, the excitatory amino acid aspartate, and acetylcholinesterase were also studied. Neuropeptide Y-like immunoreactivity was increased markedly in arcuate cell bodies and decreased in terminals in the arcuate nucleus and other hypothalamic regions of anx/anx mice compared with normal litter mates. In situ hybridization for neuropeptide Y mRNA, however, showed no significant difference in gene expression in the arcuate nucleus. In addition, immunoreactivities for aspartate, acetylcholinesterase, and somatostatin in the arcuate nucleus were decreased in anx/anx mice. For cholecystokinin, galanin, and serotonin, no certain differences in hypothalamic immunoreactivity could be seen. These data suggest that a defect in neuropeptide Y-ergic signalling in the arcuate neurons may contribute to the failure to thrive in anx/anx mice.
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PMID:Hypothalamic neurohistochemistry of the murine anorexia (anx/anx) mutation: altered processing of neuropeptide Y in the arcuate nucleus. 933 Nov 76

Chronic cold exposure stimulates sympathetically driven thermogenesis in brown adipose tissue (BAT), resulting in fat mobilization, weight loss, and compensatory hyperphagia. Hypothalamic neuropeptide Y (NPY) neurons are implicated in stimulating food intake in starvation, but may also suppress sympathetic outflow to BAT. This study investigated whether the NPY neurons drive hyperphagia in rats that have lost weight through cold exposure. Rats exposed to 4 degrees C for 21 days weighed 14% less than controls maintained at 22 degrees C (P < 0.001). Food intake increased after 3 days and remained 10% higher thereafter (P < 0.001). Increase BAT activity was confirmed by 64, 96, and 335% increases in uncoupling protein-1 mRNA at 2, 8, and 21 days. Plasma leptin decreased during prolonged cold exposure. Cold-exposed rats showed no significant changes in NPY concentrations in any hypothalamic regions or in hypothalamic NPY mRNA at any time. We conclude that the NPY neurons are not activated during cold exposure. This is in contrast with starvation-induced hyperphagia, but is biologically appropriate since enhanced NPY release would inhibit thermogenesis causing potentially lethal hypothermia. Other neuronal pathways must therefore mediate hyperphagia in chronic cold exposure.
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PMID:Hyperphagia in cold-exposed rats is accompanied by decreased plasma leptin but unchanged hypothalamic NPY. 945 99

The effects of leptin on the levels of CRF messenger RNA (mRNA) in the paraventricular hypothalamic nucleus (PVN), on the activation of the PVN CRF cells, and on the plasma levels of corticosterone were investigated in lean (+/?) and obese (ob/ob) C57BL/6J male mice. Murine leptin was s.c. infused using osmotic minipumps. The treatment period extended to 7 days, and the daily dose of leptin delivered was 100 microg/kg. The mice were killed either in a fed state or following 24 h of total food deprivation. The starvation paradigm was employed to enhance the activity of the hypothalamic-pituitary-adrenal axis in obese mice. In situ hybridization histochemistry was performed to determine the PVN levels of CRF mRNA and the arcuate nucleus levels of neuropeptide Y mRNA. The activity of the PVN CRF cells was estimated from the number of PVN cells colocalizing CRF mRNA and the protein Fos. Leptin led to a reduction in body weight gain and fat deposition. These effects were seen in both +/? and ob/ob mice and were observed to be particularly striking in obese mutants, in which leptin also caused an important reduction in food intake. Leptin also was found to affect plasma levels of corticosterone. It lowered the high corticosterone levels of obese mutants, an effect that appeared more evident in food-deprived than in fed mice. Finally, leptin prevented the induction of CRF synthesis in the PVN and the activation of the PVN CRF neurons observed in food-deprived ob/ob mice and hindered the elevation of arcuate nucleus neuropeptide Y synthesis in ob/ob mice. Together these results suggest a role for leptin in the excessive response of the hypophysiotropic CRF system of the ob/ob mouse.
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PMID:Effects of leptin on corticotropin-releasing factor (CRF) synthesis and CRF neuron activation in the paraventricular hypothalamic nucleus of obese (ob/ob) mice. 952 30

The mammalian hypothalamus strongly influences ingestive behaviour through several different signalling molecules and receptor systems. Here we show that CART (cocaine- and amphetamine-regulated transcript), a brain-located peptide, is a satiety factor and is closely associated with the actions of two important regulators of food intake, leptin and neuropeptide Y. Food-deprived animals show a pronounced decrease in expression of CART messenger RNA in the arcuate nucleus. In animal models of obesity with disrupted leptin signalling, CART mRNA is almost absent from the arcuate nucleus. Peripheral administration of leptin to obese mice stimulates CART mRNA expression. When injected intracerebroventricularly into rats, recombinant CART peptide inhibits both normal and starvation-induced feeding, and completely blocks the feeding response induced by neuropeptide Y. An antiserum against CART increases feeding in normal rats, indicating that CART may be an endogenous inhibitor of food intake in normal animals.
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PMID:Hypothalamic CART is a new anorectic peptide regulated by leptin. 959 Jun 91

The anorexia (anx) mutation causes reduced food intake in preweanling mice, resulting in death from starvation within 3-4 weeks. In wild-type rodents, starvation induces increased neuropeptide Y (NPY) mRNA levels in the arcuate nucleus that promotes compensatory hyperphagia. Despite severely decreased body weight and food intake at 3-weeks age, anx/anx mice do not show elevated NPY mRNA levels in the hypothalamic arcuate nucleus compared to wild-type/heterozygous littermates. The NPY mRNA levels can be upregulated in normal mice at this chronological age, because 24-h food deprivation increased arcuate NPY mRNA in wild-type littermates. The unresponsiveness of NPY expression in the arcuate of anx/anx mice was paralleled by serotonergic hyperinnervation of the arcuate nucleus, comparable to the serotonergic hyperinnervation previously reported in the rest of the anx/anx brain. This result is consistent with the hypothesis that wasting disorders are accompanied by disregulation of NPY mRNA expression in the arcuate nucleus, and suggests that reduced food intake, the primary behavioral phenotype of the anx/anx mouse, may be the result of altered hypothalamic mechanisms that normally regulate feeding.
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PMID:Neuropeptide Y mRNA and serotonin innervation in the arcuate nucleus of anorexia mutant mice. 959 28

This article reviews data that have accumulated since the early 1970s on the role of the dorsomedial hypothalamic nucleus (DMN) in neuroendocrine and autonomic homeostasis. Both the ventromedial hypothalamic nucleus (VMN) and the lateral hypothalamic area (LHA) project to the DMN, which in turn projects to the paraventricular nucleus of the hypothalamus (PVN), thus placing the DMN at an important nodal point of neuroendocrine/autonomic circuitries. The DMN is composed of cells and fibers containing neuropeptide Y (NPY), and the nutritional status (starvation-refeeding) is reflected in NPY levels of both VMN and DMN in Sprague-Dawley, Zucker (fa/fa), and corpulent rats (cp/cp JCR:LA). The DMN is involved in the final common pathway of corticotrophin-releasing hormone (CRH) secretion by the PVN, sympathetic nervous system outflow to the adrenal gland, and brown adipose tissue (BAT) thermogenesis. The DMN is also part of a "fear circuitry" regulating cardiovascular responses to stress such as myocardial blood flow and the tachycardia associated with the defense reaction. This appears to be mediated by a gamma amino butyric acid (GABA) mechanism. Although exhibiting reduced ponderal and linear growth and hypophagia and hypodipsia, the rat with DMN lesions (DMNL rat) has normal body composition, anabolic hormone levels, and intermediary metabolism, and it responds normally to numerous endocrine, nutritional, intra- and extracellular thirst and body weight-regulatory challenges. The DMNL rat shows normal efficiency of food utilization, but shows an attenuated response to the feeding-stimulatory effect of insulin. The only other lesion-induced abnormalities are hyperprolactinemia and a disrupted circadian corticosterone rhythm. The hyperprolactinemia in DMNL rats appears to be related to an attenuation of dopamine (DA). Rats with DMNL are capable of mating and can bear offspring, but there is a dramatic effect on litter size and other litter parameters that only improves when one parent is a DMNL rat. Antiaging effects produced by DMNL are evident in the prevention of age-associated microalbuminuria and kidney lesions, as well as, in prevention of the age-related decline in circulating insulin-like growth factor I (IGF-I). Recent evidence suggests that DMN, together with the VMN and the arcuate nucleus (ARC) of the hypothalamus, may be part of the circuitry that is responsive to the feedback signal from adipose tissue by the hormone leptin. The above findings and others suggest that the DMN plays a diverse role in physiological regulatory processes.
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PMID:The dorsomedial hypothalamic nucleus revisited: 1998 update. 971 72


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