UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ghrelin, a novel growth hormone (GH)-releasing peptide, was recently isolated from the rat stomach as an endogenous ligand to growth hormone secretagogue receptor (GHS-R). Ghrelin specifically stimulates the release of GH from the rat anterior pituitary gland, but the regulational effect of ghrelin on GH secretion has not yet been clarified. We used a perifusion system to examine the single effect and combined effects of ghrelin with growth hormone-releasing hormone (GHRH) and somatostatin on GH secretion from rat anterior pituitary cells. The increase in GH concentration due to ghrelin stimulation showed a transitory peak that was almost the same as that previously reported for GHS, but apparently distinct from that of GHRH. Ghrelin (10(-10) M to 10(-8) M) stimulated GH secretion from the rat anterior pituitary cells in a dose-dependent manner. Serial ghrelin stimulation of the dispersed cells at 1-h intervals decreased the GH response, but the response recovered with stimulation at 3-h intervals, indicating that ghrelin strongly desensitized cells. Costimulation with ghrelin and GHRH elicited neither a synergistic nor an additive GH response from the rat pituitary cells. Furthermore, pretreatment to anterior pituitary cells with somatostatin strongly abolished ghrelin- and/or GHRH-stimulated GH secretion. In this study, we demonstrated that ghrelin caused weaker GH secretion than that caused by GHRH, and we also showed that costimulation with GHRH had no additive or synergistic effect on GH secretion, suggesting that ghrelin indirectly affects coordinated GH release from pituitary gland, as found in vivo.
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PMID:Regulational effect of ghrelin on growth hormone secretion from perifused rat anterior pituitary cells. 1184 75

We examined the possible central and peripheral effects of synthetic growth hormone secretagogues (GHS), hexarelin (Hexa) and EP 40737 (D-Thr-D-Trp (2-Me)-Ala- Trp-D-Phe-Lys-NH2), and of their endogenous counterpart, ghrelin, on gastric acid secretion. The compounds were administered intracerebroventricularly (i.c.v.) or subcutaneously (s.c.) in conscious male rats and the volume of gastric secretion and gastric acid output were examined 3 h after pylorus ligation (Shay-test). Central Hexa, EP 40737 and ghrelin administration (from 0.1 pmol to 1 nmol/rat, i.c.v.) significantly inhibited gastric acid secretion. The maximum inhibitory effect on gastric acid output was detected at the dose of 10 pmol/rat, i.c.v. for Hexa (-51.3%), of 100 pmol/rat, i.c.v. for EP 40737 (-70%) and of 1 pmol/rat, i.c.v. for ghrelin (-60%). All peptides were less effective at the highest dose used (1 nmol/rat, i.c.v.). Hexa, EP 40737 and ghrelin injected s.c. did not modify gastric acid secretion. The inhibitory action of Hexa on gastric acid secretion seems to involve brain somatostatinergic system since Hexa (10 pmol/rat, i.c.v.) did not inhibit gastric acid secretion in rats pretreated (4 h before) with cysteamine (300 mg/kg, s.c.), a depletor of endogenous somatostatin. These results show that synthetic GHS and ghrelin exert a central long-lasting inhibitory effect on gastric acid secretion in conscious pylorus-ligated rats. The fact that very low doses of ghrelin and GHS inhibit gastric secretion, provide evidence for a tonic inhibitory role of the peptides in the central control of gastric secretory function.
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PMID:Evidence for a central inhibitory role of growth hormone secretagogues and ghrelin on gastric acid secretion in conscious rats. 1186 37

Growth hormone (GH) secretion is regulated by GH-releasing hormone (GHRH), somatostatin, and possibly ghrelin, but uncertainty remains about the relative contributions of these hypophysiotropic factors to GH pulsatility. Patients with genetic GHRH receptor (GHRH-R) deficiency present an opportunity to examine GH secretory dynamics in the selective absence of GHRH input. We studied circadian GH profiles in four young men homozygous for a null mutation in the GHRH-R gene by use of an ultrasensitive GH assay. Residual GH secretion was pulsatile, with normal pulse frequency, but severely reduced amplitude (<1% normal) and greater than normal process disorder (as assessed by approximate entropy). Nocturnal GH secretion, both basal and pulsatile, was enhanced compared with daytime. We conclude that rhythmic GH secretion persists in an amplitude-miniaturized version in the absence of a GHRH-R signal. The nocturnal enhancement of GH secretion is likely mediated by decreased somatostatin tone. Pulsatility of residual GH secretion may be caused by oscillations in somatostatin and/or ghrelin; it may also reflect intrinsic oscillations in somatotropes.
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PMID:Pulsatile growth hormone secretion persists in genetic growth hormone-releasing hormone resistance. 1188 17

Growth hormone segretagogues (GHS) are artificial molecules able to stimulate growth hormone (GH) secretion. They were discovered before the hypothalamic growth hormone-releasing hormone (GHRH). These molecules had a structure devoid of opiate activity, and GHRP-6 is the most representative compound. These compounds identified a new physiological system involved in GH regulation, and their action is independent of GHRH or somatostatin. Recently an endogenous ligand for the GHS receptor, ghrelin, was discovered, suggesting that this may be the third factor in the control of GH secretion. This peptide was isolated from the stomach and is characterized by the presence of an acylated group representing a new type of molecular hormonal structure; it is able to stimulate GH secretion in vitro and in vivo in the rat. As observed for the majority of GHS, ghrelin's action is not fully specific for GH release; the acute administration of ghrelin stimulates the release of significant amounts of PRL, ACTH and cortisol. Moreover, the presence of ghrelin in rat and human placenta has been reported, suggesting a possible role of this peptide in the local modulation of GH release and in maternal and fetal pituitary secretion. Ghrelin stimulates gastric acid secretion, is able to induce adiposity by activating a central mechanism for increasing food intake and decreasing fat utilization, and ghrelin mRNA and peptide are expressed in normal and adenomatous human pituitary tissue. Possible therapeutic applications of ghrelin remain to be assessed.
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PMID:Physiology and possible pathology of growth hormone secretagogues. 1196 14

Ghrelin is a new gastric peptide involved in food intake control and growth hormone release. We aimed to assess its cell localisation in man during adult and fetal life and to clarify present interspecies inconsistencies of gastric endocrine cell types. A specific serum generated against amino acids 13-28 of ghrelin was tested on fetal and adult gastric mucosa and compared with ghrelin in situ hybridisation. Immunogold electron microscopy was performed on normal human, rat and dog adult stomach. Ghrelin cells were detected in developing gut, pancreas and lung from gestational week 10 and in adult human, rat and dog gastric mucosa. By immunogold electron microscopy, gastric ghrelin cells showed distinctive morphology and hormone reactivity in respect to histamine enterochromaffin-like, somatostatin D, glucagon A or serotonin enterochromaffin cells. Ghrelin cells were characterised by round, compact, electron-dense secretory granules of P/D(1) type in man (mean diameter 147+/-30 nm), A-like type in the rat (183+/-37 nm) and X type in the dog (273+/-49 nm). It is concluded that, ghrelin is produced by well-defined cell types, which in the past had been labelled differently in various mammals mostly because of the different size of their secretory granule. In man ghrelin cells develop during early fetal life.
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PMID:Characterisation of gastric ghrelin cells in man and other mammals: studies in adult and fetal tissues. 1210 1

Cortistatin (CST)-14, a neuropeptide with high homology with somatostatin (SS)-14, binds all sst subtypes but, unlike SS, also ghrelin's receptor. In six normal adults, we studied the effects of CST-14 or SS-14 administration (2.0 micro g/kg/h iv) on: 1) GH and insulin secretion; 2) the GH response to GHRH (1.0 microg/kg i.v.); and 3) the GH, prolactin (PRL), ACTH, cortisol, insulin, and glucose responses to ghrelin (1.0 microg/kg i.v.). CST-14 inhibited GH and insulin secretion (P < 0.01) to the same extent of SS-14. The GH response to GHRH was similarly inhibited (P < 0.01) by either CST-14 or SS-14. Ghrelin released more GH than GHRH (P < 0.01); these responses were similarly inhibited (P < 0.05) by either CST-14 or SS-14, that made ghrelin-induced GH rise similar to that after GHRH alone. Neither CST-14 nor SS-14 modified PRL, ACTH, or cortisol responses to ghrelin. The inhibitory effect of CST-14 and SS-14 on insulin was unaffected by ghrelin that, in turn, reduced insulin secretion per se (P < 0.01). Ghrelin increased glucose levels (P < 0.05); CST-14 and SS-14 did not modify this effect. Thus, CST-14 inhibits both basal and stimulated GH secretion in humans to the same extent of SS-14. The GH-releasing activity of ghrelin seems partially resistant to CST-14 as well as SS-14. CST-14 and SS-14 do not affect PRL and ACTH secretion but, like ghrelin, inhibit insulin secretion; the ghrelin-induced inhibition is not additive with that of CST-14 or SS-14, suggesting a common mechanism of action on beta cell secretion.
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PMID:Endocrine activities of cortistatin-14 and its interaction with GHRH and ghrelin in humans. 1216 11

The aim of this study was to investigate whether growth hormone (GH) release during strenuous exercise (EX) is due to complete inhibition of hypothalamic somatostatin (SS) activity. Eight healthy male subjects (age, 22.1 +/- 2.2 years; body mass index [BMI], 22.2 +/- 2.5 kg/m(2); maximum oxygen consumption [Vo(2)max], 52.2 +/- 1.5 mL/min/kg [mean +/- SD]) were exposed to strenuous EX on a cycle ergometer, with and without administration of pyridostigmine (PD), and to administration of PD alone. PD is an acetylcholine-esterase inhibitor that stimulates GH secretion by suppressing hypothalamic SS secretion and unmasking endogenous GH-releasing hormone (GHRH) tone. Serial blood samples in the fasted state were taken immediately before the start of each trial, and at appropriate intervals over 2 hours. GH responses were calculated as area under the response curve (AUC) by trapezoidal integration. The mean peak serum GH level to PD alone was 18.3 microg/L (range, 0.3 to 40.9), which was significantly lower than to EX alone: 64.1 microg/L (range, 30.5 to 90.5), and to the combined administration of PD and EX (PD+EX): 79.8 microg/L (range, 37.7 to 98.2) (P <.05). The arithmetic sum of the individual peak levels of 82.4 microg/L was not different from the mean peak level to PD+EX: 79.8 microg/L. AUC (mean +/- SEM) to PD alone (1,721 +/- 358 microg/L x 180 min) was not significantly different from that to EX alone (2,472 +/- 408 microg/L x 120 min), but was significantly lower than that to PD+EX: 3,526 +/- 752 (P <.05). Although the latter AUC was 6% smaller than the AUC obtained by arithmetic addition (3,747 +/- 706), this difference was not statistically significant. In conclusion, the additive effect between PD and EX indicates that PD and EX act independently in evoking GH responses to strenuous EX. Therefore, GH responses to strenuous EX are only partially due to complete inhibition of hypothalamic SS. Additional potentiating factors, such as activation of endogenous GHRH and ghrelin must be operative.
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PMID:Complete inhibition of hypothalamic somatostatin activity is only partially responsible for the growth hormone response to strenuous exercise. 1220 Jul 51

Ghrelin possesses endocrine and non-endocrine actions mediated by the GH Secretagogue (GHS)-Receptors (GHS-R). The regulation of ghrelin secretion is still largely unknown. Somatostatin (SRIF) modulates central and gastroenteropancreatic hormonal secretions and functions. SRIF actions are partially shared by cortistatin (CST), a natural SRIF analogue, that binds all SRIF receptors and also GHS-R. Herein, we studied the effects of SRIF-14 or CST-14 (2.0 micro g/kg/h i.v. over 120 min) and of placebo on ghrelin, GH, insulin, glucagon and glucose levels in 6 normal young men. Placebo unaffected GH, insulin, glucagon, glucose and ghrelin levels. SRIF and CST similarly inhibited (p < 0.05) spontaneous GH secretion of about 90%. After SRIF or CST withdrawal, GH levels recovered to baseline levels. Both SRIF and CST similarly inhibited (p<0.01) insulin secretion of about 45%. In both sessions, after SRIF or CST withdrawal, insulin overrode baseline levels. Both SRIF and CST similarly inhibited (p < 0.01) glucagon levels of about 40%. After SRIF or CST withdrawal, glucagon persisted lower (p < 0.05) than at baseline. Neither SRIF nor CST modified glucose levels. Both SRIF and CST similarly inhibited (p < 0.01) circulating ghrelin levels of about 55%. Ghrelin levels progressively decreased from time +15 min, reaching the nadir at 120 and 105 min for SRIF and CST, respectively. Even 30 min after SRIF or CST withdrawal, ghrelin levels persisted lower (p < 0.05) than those at baseline. In conclusion, this study first shows that SRIF and CST strongly inhibits ghrelin secretion that, differently from GH and insulin secretion, persists inhibited even after stopping the infusion of SRIF or CST.
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PMID:Ghrelin secretion is inhibited by either somatostatin or cortistatin in humans. 1236 82

The role of the somatotropic axis in sleep regulation was studied by using the lit/lit mouse with nonfunctional growth hormone (GH)-releasing hormone (GHRH) receptors (GHRH-Rs) and control heterozygous C57BL/6J mice, which have a normal phenotype. During the light period, the lit/lit mice displayed significantly less spontaneous rapid eye movement sleep (REMS) and non-REMS (NREMS) than the controls. Intraperitoneal injection of GHRH (50 microg/kg) failed to promote sleep in the lit/lit mice, whereas it enhanced NREMS in the heterozygous mice. Subcutaneous infusion of GH replacement stimulated weight gain, increased the concentration of plasma insulin-like growth factor-1 (IGF-1), and normalized REMS, but failed to restore normal NREMS in the lit/lit mice. The NREMS response to a 4-h sleep deprivation was attenuated in the lit/lit mice. In control mice, intraperitoneal injection of ghrelin (400 microg/kg) elicited GH secretion and promoted NREMS, and intraperitoneal administration of the somatostatin analog octretotide (Oct, 200 microg/kg) inhibited sleep. In contrast, these responses were missing in the lit/lit mice. The results suggest that GH promotes REMS whereas GHRH stimulates NREMS via central GHRH-Rs and that GHRH is involved in the mediation of the sleep effects of ghrelin and somatostatin.
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PMID:Sleep in mice with nonfunctional growth hormone-releasing hormone receptors. 1238 30

Growth hormone (GH) secretion declines with aging in mammals, including humans. Defective pituitary function does not play a major role in this event. Rather, age-related changes involving the function of specific hypothalamic peptides for GH regulation, GH-releasing hormone (GHRH) and somatostatin (SS), appear to be the fundamental factors. Experimental evidence indicates that GHRH synthesis is impaired with aging in the rat hypothalamus, and that a relative hyperfunction of the SS-ergic system is present. In the elderly, systemic, short-term administration of GHRH enhances GH secretion and increases the formation of the GH-dependent peptide IGF-1. In old dogs, a combination of GHRH and clonidine (CLO), an alpha(2)-adrenoceptor agonist, reportedly acting via GHRH stimulation and SS inhibition, is the most effective stimulus to rejuvenate the apulsatile GH secretion. Discovery of GH secretagogues (GHSs), a series of peptydil and non-peptydil synthetic molecules endowed with a strong GH-releasing activity, the cloning of a GHS receptor (GHS-R), present in the hypothalamus and the pituitary, the isolation of the endogenous ligand of GHS-R, ghrelin, a 28-amino acid peptide whose main source is the stomach, pose the issue for the physiologic role of the GHS/ghrelin system and forces revision of our current understanding of GH regulation in different GH deficiency (GHD) states, including aging. GHSs are very effective for enhancing GH secretion in old subjects, but long-term studies are needed to assess their safety and the real biological impact of GHS replacement therapy in aging. Therapeutic use of GHSs can also be envisaged to restore, via GH-independent mechanisms, functional, and structural age-related alterations, such as anorexia, sexual dysfunction, cardiovascular damage, bone loss.
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PMID:GH-related and extra-endocrine actions of GH secretagogues in aging. 1239 95

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