Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sex steroids contribute to modulate GH secretion in man. However, both the exact locus and mechanism by which their actions are exerted still remain not clearly understood. We undertook a number of studies designed to ascertain: (1) whether or not sudden or chronic changes in circulating gonadal steroids may affect GH secretion in normal adults; and (2) the reason(s) for gender-related dimorphic pattern of GH release. The pituitary reserve of GH, as evaluated by means of a GHRH challenge, was similar in women with anorexia nervosa and in normally menstruating women. Estrogenic receptor blockade with tamoxifen (TMX) did not significantly change GHRH-induced GH response in these normal women. Therefore, acute or chronic hypoestrogenism apparently had no important effects at level of somatotrophs. In another group of normal women we tested the possibility that changes in circulating estrogens might induce changes in the hypothalamic-somatotroph rhythm (HSR). GHRH challenges were performed throughout a menstrual cycle, and again after having achieved functional ovarian blockade with a GnRH agonist treatment. Short-term ovarian blockade did not significantly affect the parameters of GH response to GHRH, although it was accompanied by an increase in the number of women in a refractory HSR phase at testing. This suggested a low potentiating effect on the basic pattern of somatostatin (SS) release occurring as a consequence of the decrease in circulating estrogens. In normal men, neither the GH response to GHRH nor the HSR were affected by functional testicular blockade (after GnRH agonist treatment). However, the administration of testosterone enanthate (250 mg) to another group of men increased both the GHRH-induced GH release and the number of subjects in a spontaneous secretory HSR phase at testing; these were reversed by estrogenic receptor blockade with TMS. In another group of normal men, the fraction of GH secreted in pulses (FGHP) during a nocturnal sampling period was significantly decreased by testicular blockade. Other parameters of GH secretion,such as the number of GH pulses and their mean amplitude (A), and the mean plasma GH concentration (MCGH), showed a slight, although not significant, decrease following the lack of androgens. The administration of testosterone enanthate (500 mg) reversed these parameters to values similar to those in the basal study. Interestingly, when tamoxifen was given after testosterone enanthate, A, MCGH and FGHP increased to values significantly higher than in any other experimental condition in that study.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The role of sexual steroids in the modulation of growth hormone (GH) secretion in humans. 195 17

The eating disorders, anorexia nervosa and normal weight bulimia, are associated with disturbances of hypothalamic-pituitary-adrenal cortical (HPA) and growth hormone function. Because somatostatin (SRIF) is one of the neuropeptides known to modulate feeding behavior and neuroendocrine systems, we measured cerebrospinal fluid (CSF) concentrations of this peptide in patients with eating disorders. CSF SRIF concentrations in patients with anorexia nervosa, both at low weight and after weight recovery, were similar to those in controls. When normal weight bulimic women stopped binging, they had a modest but significant increase in CSF SRIF. CSF SRIF was not related to plasma growth hormone concentrations but did show relationships to HPA axis hormones. Healthy volunteer women had a significant positive relationship between CSF SRIF and CSF corticotropin releasing hormone (CRH). In underweight anorectics, CSF SRIF was negatively related to both 24-hr urinary free cortisol and plasma cortisol concentrations after dexamethasone, but it was not significantly related to CSF CRH. These relationships more closely resembled those of healthy controls after weight correction. In bulimics, CSF SRIF was positively related to CSF CRH and negatively related to plasma cortisol. Our findings support a previously described relationship between CSF SRIF and HPA axis activity. The differences in SRIF-HPA relationships in anorectics and bulimics may constitute or reflect pathophysiological distinctions between these disorders.
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PMID:CSF somatostatin in anorexia nervosa and bulimia: relationship to the hypothalamic pituitary-adrenal cortical axis. 290 May 33

Immunoreactive somatostatin, bombesin, and cholecystokinin were measured in cerebrospinal fluid of normal subjects and patients with anorexia nervosa, depression, mania, and schizophrenia. Somatostatin-like immunoreactivity was decreased in anorexic and depressed patients. Bombesin-like immunoreactivity tended to be decreased in schizophrenics. Cholecystokinin-like immunoreactivity did not differ between groups. These data suggest a possible function for neuropeptides in regulation of human behavior.
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PMID:Altered neuropeptide concentrations in cerebrospinal fluid of psychiatric patients. 612 76

Pirenzepine, a muscarinic antagonist probably acting via stimulation of hypothalamic somatostatin release, abolishes the growth hormone releasing hormone (GHRH)-stimulated growth hormone (GH) rise in normal subjects but only blunts it in patients with anorexia nervosa (AN). This finding suggested the existence in AN of an alteration of cholinergic system and/or somatostatinergic tone. To further investigate these mechanisms, in 11 AN women patients (age 18.8 +/- 0.9 years; BMI 13.4 +/- 0.4) we studied the GH response alone (1 microgram/Kg IV as a bolus at 0 min) and combined with pyridostigmine (PD, 120 mg orally, 60 min before GHRH administration), a cholinesterase inhibitor, or arginine (ARG 30 g infused over 30 min starting at 0 min), two compounds probably acting via inhibition of hypothalamic somatostatin (SS) release. The GH response to GHRH preceded by a previous (120 min before) neurohormone administration also was studied. All these tests also were performed in 20 normal age-matched women (age 22.0 +/- 1.8 yrs; BMI20.1 +/- 2.4). Basal serum GH levels were higher in AN patients than in normal volunteers (NV) (10.3 +/- 3.4 versus 2.8 +/- 0.3 microgram/L; p < 0.001), whereas plasma IGF-I levels were lower in AN patients than in NV (43.3 +/- 10.6 versus 172.4 +/- 13.9 micrograms/L; p < 0.00001). In AN patients, GHRH administration induced a GH rise higher, though not significantly, than that in NV [delta area under the curve (AUC) 1173.6 +/- 167.6 versus 834.6 +/- 188.1 micrograms/L/h]. The GH response to the second of two consecutive GHRH boluses was lower (p < 0.01) than that of the first one either in AN patients or in NV (67.6 +/- 27.4 and 53.1 +/- 25.7 micrograms/L/h, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Arginine but not pyridostigmine, a cholinesterase inhibitor, enhances the GHRH-induced GH rise in patients with anorexia nervosa. 788 Sep 38

Somatostatin concentrations in plasma were measured before and after a standardized fat and protein-rich fluid test meal in patients with anorexia nervosa, weight-recovered anorectic patients, obese women, and healthy controls. Somatostatin was significantly elevated in all four groups after the test meals. Hormone levels remained elevated for up to 100 min after the test meal. The area under the response curve was significantly higher (p < .01) in the anorectic patients as compared with healthy controls and weight-recovered anorectics. Obese women had blunted somatostatin responses. The findings may explain alterations in insulin secretion and in gastric emptying described earlier in patients with eating disorders.
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PMID:Somatostatin in eating disorders. 790 55

Previous studies have shown that corticotrophin-releasing hormone (CRH) inhibits GH secretion in response to GH-releasing hormone (GHRH) in normal women and men, and animal studies suggest that this effect is mediated by an increased release of somatostatin from the hypothalamus. It has been reported that there are abnormalities in the neuroendocrine regulation of the hypothalamo-pituitary-somatotrophic axis and the hypothalamo-pituitary-adrenocortical axis in patients with eating disorders. The present study therefore investigated the ability of CRH to inhibit the GH response to GHRH in eight young women with anorexia nervosa (AN) and in seven young women with eating disorders which were not otherwise specified (NOS). We also compared the effect of CRH in the patients with the response it caused in ten control women. In contrast to a previous report, combined i.v. administration of 50 micrograms human CRH (hCRH) and 50 micrograms GHRH(1-29) caused a GH response in control women which was higher, although not significantly so, than that induced by GHRH alone (area under the curve (AUC) 988.5 +/- 506.0 compared with 1568.4 +/- 795.6 (S.E.M.) ng/ml per 120 min for GHRH alone and GHRH plus hCRH respectively). Conversely, the administration of hCRH given together with GHRH markedly inhibited the GH response induced by the latter in both AN patients (AUC 2253.0 +/- 385.7 compared with 1224.4 +/- 265.7 ng/ml per 120 min for GHRH and GHRH plus hCRH respectively; P < 0.005 and NOS patients (AUC 2827.4 +/- 281.1 compared with 308.5 +/- 183.4 ng/ml per 120 min for GHRH and GHRH plus hCRH respectively; P < 0.0001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Corticotrophin-releasing hormone does not inhibit growth hormone-releasing hormone-induced release of growth hormone in control subjects but is effective in patients with eating disorders. 816 65

Secretion of growth hormone (GH) is excessive in acromegaly, but also in a number of other pathological states such as anorexia nervosa, insulin-dependent diabetes mellitus (IDDM), liver cirrhosis, depression, renal failure and GH-insensitivity syndrome. Abnormalities in the neuroendocrine control of GH secretion and/or a state of insensitivity to GH contribute to hypersecretion of GH in these states, with the possible exception of acromegaly, which appears to be a primary pituitary disease. GH hypersecretion may also occur in neonates or adolescents with tall stature, thus reflecting particular physiological or paraphysiological conditions. In the cohort of brain neurotransmitters, catecholamines and acetylcholine reportedly play a major role in the control of neurosecretory GH-releasing hormone (GHRH) and somatostatin (SS)-producing neurons, and hence GH secretion. Activation of alpha 2-adrenoceptors or of muscarinic cholinergic receptors in the hypothalamus stimulates GH release, probably through stimulation of GHRH and inhibition of SS release, respectively. Activation of dopamine receptors likewise stimulates GH release, while activation of beta-receptors inhibits GH release through stimulation of hypothalamic SS function. This review discusses the involvement of brain catecholamines and acetylcholine in GH hypersecretory states, including anorexia nervosa, acromegaly, IDDM, liver cirrhosis, depression, renal failure and GH insensitivity syndrome, with a view to providing a fuller understanding of their pathophysiology and, whenever possible, diagnostic and therapeutic implications.
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PMID:Involvement of brain catecholamines and acetylcholine in growth hormone hypersecretory states. Pathophysiological, diagnostic and therapeutic implications. 858 28

A series of studies was devised in both an experimental model of food deprivation, i.e., beagle dogs undergoing a progressive reduction of calorie intake and adolescent females with anorexia nervosa (AN) in the acute and recovery phase, and in patients with atypical eating disorders. The studies were aimed at ascertaining whether the alleged function of the hypothalamic system inhibitory to growth hormone (GH) secretion, i.e., the somatostatinergic, may account for at least some of the abnormalities of GH secretion present in AN patients (e.g., elevated basal GH levels, paradoxical GH rise after glucose or thyrotropin releasing hormone, etc). Caloric restricted dogs or patients with eating disorders were given an intravenous injection of the physiologic GH-releasing peptide GHRH alone or preceded by pirenzepine, a muscarinic cholinergic antagonist reportedly capable of eliciting hypothalamic release of somatostatin (SS), or pyridostigmine, a muscarinic cholinergic agonist which, conversely, would restrain hypothalamic release of SS. In addition, dogs were challenged with acute administration of glucose or thyrotropin-releasing hormone, compounds also thought to act via somatostatinergic influences. Data obtained in dogs under caloric restriction or in AN patients in the acute phase of the disease with drugs affecting cholinergic transmission suggest that the latter is increased in both conditions (only partial suppression of the GHRH-induced GH rise with pirenzepine, failure of pyridostigmine to further enhance the GH response to GHRH). Instead, in the same AN patients in the acute phase tested during recovery, in AN patients during the recovery phase, and in patients with atypical eating disorders, pirenzepine completely suppressed the GH response to GHRH, as it did in controls. Finally, data obtained on basal and GHRH-stimulated GH release in dogs given glucose or thyrotropin-releasing hormone and in AN patients given arginine, another compound thought to act via inhibition of somatostatinergic influences, do not support the view that somatostatinergic function is impaired in states of food deprivation.
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PMID:Aspects of the neuroendocrine control of somatotropic function in calorically restricted dogs and patients with eating disorders: studies with cholinergic drugs. 873 15

Growth hormone-releasing peptides (GHRPs) are synthetic, non-natural peptides endowed with potent stimulatory effects on somatotrope secretion in animals and humans. They have no structural homology with GHRH and act via specific receptors present either at the pituitary or the hypothalamic level both in animals and in humans. The GHRP receptor has recently been cloned and, interestingly, it does not show sequence homology with other G-protein-coupled receptors known so far. This evidence strongly suggests the existence of a natural GHRP-like ligand which, however, has not yet been found. The mechanisms underlying the GHRP effect are still unclear. At present, several data favor the hypothesis that GHRPs could act by counteracting somatostatinergic activity both at the pituitary and the hypothalamic level and/or, at least partially, via a GHRH-mediated mechanism. However, the possibility that GHRPs act via an unknown hypothalamic factor (U factor) is still open. GHRP-6 was the first hexapeptide to be extensively studied in humans. More recently, a heptapeptide, GHRP-1, and two other hexapeptides, GHRP-2 and Hexarelin, have been synthesized and are now available for human studies. Moreover, non-peptidyl GHRP mimetics have been developed which act via GHRP receptors and their effects have been clearly demonstrated in animals and in humans in vivo. Among non-peptidyl GHRPs, MK-0677 seems the most interesting molecule. The GH-releasing activity of GHRPs is marked and dose-related after intravenous, subcutaneous, intranasal and even oral administration. The effect of GHRPs is reproducible and undergoes partial desensitization, more during continuous infusion, less during intermittent administration: in fact, prolonged administration of GHRPs increases IGF-1 levels both in animals and in humans. The GH-releasing effect of GHRPs does not depend on sex but undergoes age-related variations. It increases from birth to puberty, persists at a similar level in adulthood and decreases thereafter. By the sixth decade of life, the activity of GHRPs is reduced but it is still marked and higher than that of GHRH. The GH-releasing activity of GHRPs is synergistic with that of GHRH, is not affected by opioid receptor antagonists, such as naloxone, and is only blunted by inhibitory influences, including neurotransmitters, glucose, free fatty acids, gluco corticoids, recombinant human GH and even exogenous somatostatin, which are known to almost abolish the effect of GHRH. GHRPs maintain their GH-releasing effect in somatotrope hypersecretory states such as in acromegaly, anorexia nervosa and hyperthyroidism. On the other hand, their good GH-releasing activity has been shown in some but not in other somatotrope hyposecretory states. In fact, reduced GH responses after GHRP administration have been reported in idiopathic GH deficiency as well as in idiopathic short stature, in obesity and in hypothyroidism, while in patients with pituitary stalk disconnection or Cushing's syndrome the somatotrope responsiveness to GHRPs is almost absent. In short children an increase in height velocity has also been reported during chronic GHRP treatment. Thus, based on their marked GH-releasing effect even after oral administration, GHRPs offer their own clinical usefulness for treatment of some GH hyposecretory states.
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PMID:Growth hormone-releasing peptides. 918 61

Anorexia nervosa (AN) is a chronic disease in which an enhanced GH response to GHRH, a paradoxic increase after TRH and LHRH, and low IGF1 levels may be present according to the patient's clinical state. It is well known that the GH hypersecretory state commonly found in the "acute phase" of AN is restored with weight gain. The new synthetic hexapeptide, Hexarelin (HEX), which is chemically similar to GH-releasing peptide 6, has recently been shown to possess a stronger GH-releasing activity than GHRH in humans and to share a synergistic effect with GHRH when administered intravenously. Indeed, HEX shows a slight cortisol and PRL-releasing activity. The aim of the study was to evaluate the effect of i.v. administration of old (GHRH) and new (HEX) GH-releasing peptides on GH, PRL and cortisol secretion in 9 AN patients in the "recovery phase" of the disease, after partial but significant weight gain. For controls we studied 7 normal cycling women. No significant difference in GH secretion after GHRH was found between AN and controls. GHRH was not able to release cortisol or PRL either in AN or controls. HEX produced a significantly (p < 0.05) higher GH peak in controls than in AN, while GH AUC was slightly but not significantly higher. Indeed, only in controls, HEX was a stronger GH-releasing peptide than GHRH. These findings could be explained by the fact that, in AN, GH secretion is already stimulated both by reduced IGF1 levels and by increased GHRH/somatostatin ratio. As reported in the literature, the action of HEX action is only slightly influenced by variations in somatostatin tone. It therefore appears likely that the absolute or relative GHRH increase present in AN could partially mimic the unknown hypothalamic factor necessary for HEX action on the hypophisis and that, following a structural modification of pituitary HEX receptors, GHRH would become able to bind to HEX receptors on somatotropic cells. Consequently, the pituitary cells would already be over-activated and so unable to respond maximally to HEX stimulation. Indeed, in AN, GHRH might play a role of negative modulation in the control of HEX action. Finally, in our study HEX was able to produce a persistent PRL release in controls but not in AN, thus suggesting that its action could be partially dependent on the estrogen milieu, while it stimulated cortisol secretion only transiently in the patients studied.
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PMID:Hexarelin is a stronger GH-releasing peptide than GHRH in normal cycling women but not in anorexia nervosa. 925 4


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