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Target Concepts:
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Query: UMLS:C0020505 (
hyperphagia
)
6,116
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ghrelin is a novel gastrointestinal peptide that stimulates growth hormone secretion, food intake, and body weight gain. Increased ghrelin secretion has been reported in such negative energy states as starvation and low body weight. We investigated the dynamics of ghrelin in rats with streptozotocin-induced diabetes, because they present reduced body weight and
hyperphagia
. The plasma ghrelin levels and gastric
preproghrelin
mRNA expression levels of the diabetic rats increased significantly and their gastric ghrelin levels decreased significantly. Negative energy balance may enhance
preproghrelin
mRNA expression and ghrelin secretion into the bloodstream.
...
PMID:Enhanced plasma ghrelin levels in rats with streptozotocin-induced diabetes. 1270 20
Obestatin
has recently been discovered in the rat stomach. It is encoded by the ghrelin gene and has been claimed to be a functional opponent of ghrelin and to be the natural ligand of the GPR39 receptor. The latter could not be confirmed by Holst et al. (Endocrinology, 2006). Yet, in GPR39 knockout mice, gastric emptying is accelerated. We verified the effects of
obestatin
on gastric emptying and intestinal contractility in rodents. Gastric emptying was measured with the (14)C octanoic breath test in mice. In vitro, the effect of
obestatin
was studied on electrically stimulated and non-stimulated strips from the fundus and small intestine of mice and rats.
Obestatin
(60, 125, 250 nmol kg(-1)) did not affect gastric emptying parameters (T(half) and T(lag)) and did not inhibit the prokinetic effects of ghrelin. Mouse and rat intestinal and fundic smooth muscle strips did not respond to
obestatin
either in the absence or in the presence of electrical field stimulation.
Obestatin
(125 nmol kg(-1)) did not inhibit fasting-induced
hyperphagia
. Our results suggest that peripheral
obestatin
is not a satiety signal that plays a role in the regulation of gastric emptying and do not support the concept that
obestatin
is a physiological opponent of ghrelin.
...
PMID:Effect of peripheral obestatin on gastric emptying and intestinal contractility in rodents. 1730 Feb 84
Obestatin
is a 23-amino acid peptide hormone released from the stomach and is present not only in the gastrointestinal tract, but also in the spleen, mammary gland, breast milk and plasma.
Obestatin
appears to function as part of a complex gut-brain network whereby hormones and substances from the stomach and intestines signal the brain about satiety or hunger. In contrast to ghrelin, which causes
hyperphagia
and obesity,
obestatin
appears to act as an anorectic hormone, decreasing food intake and reducing body weight gain. Further studies have shown that
obestatin
is also involved in improving memory, regulating sleep, affecting cell proliferation, increasing the secretion of pancreatic juice enzymes and inhibiting glucose-induced insulin secretion. This hormone has not only been studied in the field of physiology but also in the fields of obesity and diabetes mellitus, and in patients with psychogenic eating disorders.
Obestatin
has a role in regulating the cell cycle by exerting proliferative effects that may be seen in cell physiology and oncology. Given the current controversy regarding the effects of
obestatin
and its cognate ligand, this article provides the latest review of the physiological and pathological characteristics of this hormone.
...
PMID:Obestatin: an interesting but controversial gut hormone. 2215 52
Growth hormone secretagogue
receptors (GHSRs) in the central nervous system (CNS) mediate
hyperphagia
and adiposity induced by acyl ghrelin (AG). Evidence suggests that des-AG (dAG) has biological activity through GHSR-independent mechanisms. We combined in vitro and in vivo approaches to test possible GHSR-mediated biological activity of dAG. Both AG (100 nmol/L) and dAG (100 nmol/L) significantly increased inositol triphosphate formation in human embryonic kidney-293 cells transfected with human GHSR. As expected, intracerebroventricular infusion of AG in mice increased fat mass (FM), in comparison with the saline-infused controls. Intracerebroventricular dAG also increased FM at the highest dose tested (5 nmol/day). Chronic intracerebroventricular infusion of AG or dAG increased glucose-stimulated insulin secretion (GSIS). Subcutaneously infused AG regulated FM and GSIS in comparison with saline-infused control mice, whereas dAG failed to regulate these parameters even with doses that were efficacious when delivered intracerebroventricularly. Furthermore, intracerebroventricular dAG failed to regulate FM and induce hyperinsulinemia in GHSR-deficient (Ghsr(-/-)) mice. In addition, a hyperinsulinemic-euglycemic clamp suggests that intracerebroventricular dAG impairs glucose clearance without affecting endogenous glucose production. Together, these data demonstrate that dAG is an agonist of GHSR and regulates body adiposity and peripheral glucose metabolism through a CNS GHSR-dependent mechanism.
...
PMID:Both acyl and des-acyl ghrelin regulate adiposity and glucose metabolism via central nervous system ghrelin receptors. 2406 49
