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)

Ghrelin is a peptidic hormone composed of 28 aminoacid residues. It is produced by enteroendocrine cells of stomach and intestine. It is also produced in pancreas, kidney, placental tissue, thyroid gland, hypothalamus, and hypophysis. Gastrectomy leads to 65-80% decrease of plasma levels of ghrelin. In human organism, ghrelin stimulates secretion of growth hormone, prolactin, and ACTH. Ghrelin also has orexigenic activity (increases food intake), influences the sleep/wake cycle, gastric motility and secretion, cardiovascular functions, regulates endocrine function of pancreas and metabolism of glucose and shows an antiproliferative effect. Ghrelin is an important regulatory part of the homeostasis of the organism, and iterconnects neuroendocrine and metabolic response of the organism to starvation, and it is considered as a counterpart to leptin. Ghrelin was discovered by Japanese scientists in 1999 as a natural ligand of an "orphan" receptor GHS1a, which is specific for a group of synthetic peptides (growth hormone secretagogues--GHS) stimulating secretion of growth hormone. Plasma levels of ghrelin reflect short-time changes of food intake, as well as long-time changes of the nutritional state of the organism. Plasma levels of ghrelin are decreased after food intake and in obese humans, and they are increased during starvation and in patients with mental anorexia. Plasma levels of ghrelin in humans correlate negatively with body mass index, amount of body fat, size of adipocytes, and plasma levels of insulin, glucose, and leptin. Thus, ghrelin probably plays a role as a metabolic signal of hunger.
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PMID:[Ghrelin--structure, function and clinical applications]. 1570 43

The oxyntic mucosa of rat and mouse stomach harbors histamine-producing ECL cells and ghrelin-producing A-like cells. The ECL cells are known to be active when the circulating gastrin levels are elevated in response to food intake. The A-like cells are the main source of circulating ghrelin. In response to starvation, the circulating ghrelin is elevated as a hunger signal. The aim of the present work was to study the correlation between the immunoreactivities and cellular activities of the ECL cells and A-like cells. Rats were either fed or fasted for 48 h and mice for 24 h. Immunohistochemical examination with antiserum against chromogranin A-derived fragment pancreastatin revealed both the ECL cells and the A-like cells without a difference between fasted and fed animals. Histamine was limited to the ECL cells with no significant difference between fasted and fed animals. Histidine decarboxylase (HDC) immunoreactivity occurred predominately in the ECL cells of the fed, but not fasted, animals in which the HDC enzymatic activity in the oxyntic mucosa was higher than in fasted animals. Ghrelin immunoreactivity was increased in terms of intensity, but not cell density in fasted animals. Thus, the immunoreactivities of ECL cells and A-like cells might be affected by starvation.
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PMID:Immunoreactivity of gastric ECL and A-like cells in fasted and fed rats and mice. 1580 23

Ghrelin and cholecystokinin (CCK) are gastrointestinal hormones regulating feeding. Both transmitted via the vagal afferent, ghrelin elicits starvation signals, whereas CCK induces satiety signals. We investigated the interaction between ghrelin and CCK functioning in short-term regulation of feeding in Otsuka Long-Evans Tokushima fatty (OLETF) rats, which have a disrupted CCK type A receptor (CCK-AR), and their lean littermates, Long-Evans Tokushima Otsuka (LETO) rats. Intravenous administration of ghrelin increased 2-h food intake in both OLETF and LETO rats. Because OLETF rats are CCK insensitive, iv-administered CCK decreased 2-h food intake in LETO, but not in OLETF, rats. Although preadministration of CCK to LETO rats blocked food intake induced by ghrelin, CCK preadministration to OLETF rats did not affect ghrelin-induced food intake. Conversely, preadministration of ghrelin to LETO rats blocked feeding reductions induced by CCK. In electrophysiological studies, once gastric vagal afferent discharges were altered by ghrelin or CCK administration, they could not be additionally affected by serial administrations of either CCK or ghrelin, respectively. The induction of Fos expression in the hypothalamic arcuate nucleus by ghrelin was also attenuated by CCK preadministration. Using immunohistochemistry, we also demonstrated the colocalization of GH secretagogue receptor (GHS-R), the cellular receptor for ghrelin, with CCK-AR in vagal afferent neurons. These results indicate that the vagus nerve plays a crucial role in determining peripheral energy balance. The efficiency of ghrelin and CCK signal transduction may depend on the balance of their respective plasma concentration and/or on interactions between GHS-R and CCK-AR.
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PMID:Peripheral interaction of ghrelin with cholecystokinin on feeding regulation. 1589 Jul 76

Ghrelin, a 28 amino acid-acylated peptide predominantly produced by the stomach, displays strong growth hormone (GH)-releasing activity. It is mediated by the hypothalamic-pituitary GH secretagogue (GHS) receptors, which are specific to a family of synthetic, orally active molecules known as GHSs. However, despite their potent and reproducible GH-releasing activity, the potential clinical use of GHSs as orally active growth-promoting agents or anabolic anti-aging drugs has not been confirmed. Ghrelin and GHSs also exert other actions mediated through central and peripheral receptors, including stimulation of adrenocorticotrophic hormone and prolactin secretion, influence on insulin secretion and glucose metabolism, orexigenic effects and modulatory activity on the neuroendocrine and metabolic response to starvation, influence on exocrine gastro-entero-pancreatic functions, cardiovascular effects and modulation of cell proliferation and apoptosis. The discovery of ghrelin and the characterization of these GH-independent biological activities has widened the knowledge of some critical aspects of neuroendocrinology and suggests possible roles for GHSs and ghrelin in the treatment of pathophysiological conditions, including those unrelated to disorders of GH secretion.
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PMID:Natural and synthetic growth hormone secretagogues: do they have therapeutic potential? 1596 64

The growth hormone secretagogue ghrelin is in the centre of interest since its discovery in 1999. It stimulates growth hormone, corticotropic hormone and prolactin secretion, but also plays an important role in the regulation of appetite, carbohydrate- and lipid metabolism and possibly on gastric acid secretion, gastric motility, heart function and as well as immune functions and cell proliferation. Ghrelin was originally identified from the stomach but it is also present in all tissue among others in: hypothalamus, pituitary, pancreas, lung, immune cells, placenta, ovary, testis, kidney and in different tumours including pituitary adenoma, neuroendocrine tumours, thyroid carcinomas, endocrine tumours of the pancreas and lung. The gene structure and its receptor are similar to motilin, they are both synthesized in the upper gastrointestinal tract and both have prokinetic activity on gut motility. The ghrelin receptor (growth hormone secretagogue receptor) is a member of G protein-coupled seven transmembrane domain receptor. The receptor is localised in the central nervous system, kidney, thyroid, pancreas, myocardium and spleen. Starvation and low body mass index decrease, while food intake, hyperglycaemia, elevated insulin levels and high body mass index increase the endogenous ghrelin levels. Although we know much about the ghrelin, number of questions remain unanswered, such as the effects of the locally-produced ghrelin or its role in the cell metabolism.
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PMID:[Ghrelin--a hormone with multiple functions]. 1610 57

Ghrelin is a peripheral circulating hormone, mainly released from the stomach, which can stimulate food intake. We studied fed, fasted and fasted-refed prepuberal gilts in order to outline possible changes in gastric mucosal ghrelin cells and in plasma ghrelin profiles in response to food deprivation. Acyl-ghrelin-immunoreactive cells were numerous in oxyntic glands, less abundant in cardiac glands and least frequent in pyloric glands, with the addition of a minor population of labelled cells in the gastric pit mucosa. When fed and fasted animals were compared (72-h fast versus fed; n = 4 each), no clear-cut differences were revealed in labelled cell numbers, nor in their staining intensity. An RIA for plasma porcine acyl-ghrelin (n-octanoylated at Ser-3), not recognizing des-acyl-ghrelin, was validated. Plasma acyl-ghrelin progressively increased upon fasting (over 6, 12, 24 and 48 h); ghrelin levels significantly (P<0.05) higher than those prefast were reached at 72 h. After refeeding, plasma ghrelin was rapidly restored to basal values by 6 h. In the same animals, plasma insulin was significantly reduced throughout the fasting period (6-72 h), while rapidly increasing after refeeding. Non-esterified fatty acid levels increased during fasting (12-72 h) and rapidly returned to low values after refeeding. In conclusion, the present study demonstrates that starvation and refeeding influence ghrelin plasma level in prepuberal gilts. The absence of detectable changes in ghrelin cells, as seen in immunohistochemistry, could be due to a large intracellular storage of potentially releasable acylghrelin.
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PMID:Gastric immunolocalization and plasma profiles of acyl-ghrelin in fasted and fasted-refed prepuberal gilts. 1613 70

The aim of this study was to investigate the endocrine response to wintertime starvation in the male American mink (Mustela vison) fasted for 16 hrs, 2 days, 3 days, 5 days, or 7 days (n =10 per group). After 2 days of fasting, the plasma leptin concentrations decreased, along with the triiodothyronine, testosterone, and progesterone levels, and the blood monocyte counts. Leptin also seems to trigger the response to fasting in mustelids by inducing immunosuppression and downregulation of the reproductive and thyroid axes. The dramatic increase in the peptide YY concentrations after 3 days of fasting may be required to suppress gastrointestinal processes during food scarcity. The plasma insulin levels decreased, and those of glucagon increased after 5 days of fasting in association with efficient glucose sparing and lipid mobilization. Body energy stores cannot be wasted for growth during nutritional scarcity and, thus, the growth hormone levels of the minks decreased after 5 days of fasting. The plasma noradrenaline and cortisol concentrations also decreased after 3 and 7 days without food, respectively. The plasma ghrelin, adiponectin, resistin, thyroxine, adrenaline, or estradiol levels did not respond to fasting. The endocrine response to food deprivation is remarkably similar in divergent mammalian orders, indicating that the hormonal signals enhancing survival during nutritional scarcity must be evolutionarily old and well conserved.
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PMID:Endocrinologic adaptations to wintertime fasting in the male American mink (Mustela vison). 1617 29

Ghrelin, the new and recently discovered hormone, is a 28 amino-acid acylated peptide predominantly produced by the stomach, characterized by a strong GH-releasing activity mediated by the hypothalamic-pituitary GH Secretagogues (GHSs) receptors. Ghrelin and GHSs, acting on central and peripheral receptors, exert other actions such as: stimulation of ACTH and prolactin secretion; influence insulin secretion and glucose metabolism; have an orexigenic effect and modulatory activity on the neuroendocrine and metabolic response to starvation; influencing exocrine gastro-entero-pancreatic functions; influencing cardiovascular activities and modulation of cell proliferation and apoptosis. With the discovery of ghrelin and the characterization of these GH-independent biological activities, we have to pay more attention to these molecules as candidate drugs for the treatment of pathophysiological conditions including those unrelated to GH secretion disorders.
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PMID:Ghrelin: a new hormone with endocrine and non-endocrine activities. 1642 99

Ghrelin, the new recently discovered hormone, is a 28 amino-acid acylated peptide predominantly produced by the stomach characterized by a strong GH-releasing activity mediated by the hypothalamic-pituitary GH secretagogues (GHSs) receptors. Ghrelin and GHSs, acting on central and peripheral receptors, exert other actions such as stimulation of ACTH and prolactin secretion, influence on insulin secretion and glucose metabolism, orexigenic effect and modulatory activity on the neuroendocrine and metabolic response to starvation, influence on exocrine gastro-entero-pancreatic functions, cardiovascular activities and modulation of cell proliferation and apoptosis. The wide spectrum of ghrelin action requires further studies to provide critical information on the role of ghrelin and the potential perspectives of its analogues in the clinical practice. This point is of particular interest in the field of pediatric endocrinology and metabolism because the ghrelin story started focusing on GH deficiency and is now extending to aspects that once again are of major relevance such as obesity and eating disorders, regulation of the hypothalamus-pituitary-adrenal and gonadal axis. More studies are needed to evaluate the real impact of ghrelin in different non endocrine processes and the possible use of ghrelin analogues in different diseases condition.
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PMID:Role of ghrelin in the regulation of appetite in children. 1654 Oct 4

Ghrelin, identified as an endogenous ligand for the growth hormone secretagogue receptor, functions as a somatotrophic and orexigenic signal from the stomach. Ghrelin has a unique post-translational modification: the hydroxyl group of the third amino acid, usually a serine but in some species a threonine, is esterified by octanoic acid and is essential for ghrelin's biological activities. The secretion of ghrelin increases under conditions of negative energy-balance, such as starvation, cachexia, and anorexia nervosa, whereas its expression decreases under conditions of positive energy-balance such as feeding, hyperglycemia, and obesity. In addition to having a powerful effect on the secretion of growth hormone, ghrelin stimulates food intake and transduces signals to hypothalamic regulatory nuclei that control energy homeostasis. Thus, it is interesting to note that the stomach may play an important role in not only digestion but also pituitary growth hormone release and central feeding regulation. We summarized recent findings on the integration of ghrelin into neuroendocrine networks that regulate food intake, energy balance, gastrointestinal function and growth.
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PMID:Biological, physiological, and pharmacological aspects of ghrelin. 1661 45


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