UNIPROT:P61278 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Recombinant IGF-I was administered as an iv bolus of 75 micrograms/kg to 10 patients with Laron type dwarfism (3 children aged 9, 11 and 12 years and 7 adults aged 30.6 +/- 3.5 years) and to 8 healthy subjects (mean age 19.9 +/- 12.1 years) and determinations of IGF-I, GHRH, hGH, TSH, and glucose were made before and at 2, 5, 15, 30, 60, 90, and 120 min. The following effects were observed: a. an immediate, marked and sustained drop in blood glucose (p less than 0.001), more prolonged in the patients; b. in both groups, a dramatic rise in plasma hGH (p less than 0.01) which peaked at 60-90 min; in the patients this occurred after an initial immediate fall in plasma hGH (p less than 0.01); c. a progressive decrease of plasma GHRH and TSH (p less than 0.05, 0.02) in both patients and healthy controls. An hypothesis is put forward that acute and time-limited release of somatostatin by IGF-I is the main cause of the hormonal changes registered. As the IGF-I bolus also suppressed circulating insulin levels, the hypoglycemia is considered to be a direct effect of IGF-I.
...
PMID:Intravenous administration of recombinant IGF-I lowers serum GHRH and TSH. 223 85

Growth hormone (GH) is secreted in a pulsatile way during the whole life under the reciprocal influence of somatostatin and GH-releasing hormone (GHRH). It mediates many effects by stimulating production of insulin like growth factor I (IGF I) in liver and other tissues, but IGF I is also regulated by the nutritional state. Women secrete more GH than men, and older men and women less than young women. This suggests importance of estradiol in regulating secretion. Sex hormone effects are also demonstrated by the increment of GH and IGF I at puberty, which is an amplitude-modulated phenomenon. Classic metabolic studies have shown that patients with GH-deficiency retain more nitrogen in response to a given dose of exogenous hGH than normal subjects. The use of the stable isotope 15N has simplified such studies. In GH-deficient patients, there was with this technique a marked positive hGH-induced balance change. In girls with Turner syndrome (as example of subjects with normal GH-secretion), balance change was less marked with the same dose. Girls with Turner syndrome, who were given a double hGH-dose showed a response in the same range as that in the GH-deficient patients with the lower dose. A conclusion from this is that patients with normal GH-secretion need higher doses to obtain a similar response, than patients with GH-deficiency. The dosage in such patients will have to be selected individually, and needs to be about twice or three times as high as in GH-deficient patients.
...
PMID:Assessment of growth hormone secretion in children. 225 28

Serum GH concentrations in the ovine fetus are much higher than those in the neonate, and the maximal GH response induced by GRF is 5-fold greater in the fetus than in the neonate. To clarify these in vivo observations further, we studied the effects of GRF, somatostatin (SRIF), and insulin-like growth factor I (IGF-I) on primary cultures of fetal and neonatal ovine pituitary cells. GH secretion from fetal ovine pituitary cells increased from 148 +/- 34 to 950 +/- 130 ng/10(5) cells.3 h in response to 1 nM GRF, whereas GH secretion from neonatal pituitary cells rose from 113 +/- 26 to 1221 +/- 129 ng/10(5) cells.3 h, a significantly greater response (P less than 0.001). This greater GRF-induced GH response in neonatal than fetal cells differs from the response in vivo and suggests that the increased in vivo response in the fetus is not due to inherently increased sensitivity of pituitary cells to GRF. SRIF (10 nM) decreased maximal GRF-induced GH secretion by 37 +/- 3% in fetal cells compared with 59 +/- 8% in neonatal cells (P less than 0.01). This may explain in part the decreased in vivo sensitivity to SRIF in the ovine fetus compared to that in the neonatal lamb. In fetal pituitary cells, 10 nM GRF increased ovine (o) GH mRNA from 100 +/- 14% to 145 +/- 40%, SRIF decreased oGH mRNA to 84 +/- 3%, and GRF and SRIF in combination increased fetal oGH mRNA to 126 +/- 24%. Values in neonatal pituitary cell cultures were similar (control, 100 +/- 17%; GRF, 132 +/- 6%, SRIF, 85 +/- 15%; GRF plus SRIF, 105 +/- 26%). Pretreating fetal cells with 100 nM IGF-I for 3 days reduced GRF-stimulated GH secretion from 1049 +/- 38 to 232 +/- 8 ng/10(5) cells.3 h (P less than 0.001). Similarly, IGF-I pretreatment of neonatal cells reduced GRF-stimulated GH secretion from 810 +/- 18 to 419 +/- 16 ng/10(5) cells.3 h (P less than 0.001). The mean secreted IGF-I was 0.58 U/ml (36 nM) in culture medium from neonatal cells and was unchanged by incubation for 3 days with 5 micrograms/ml hGH. Secreted IGF-I in medium from fetal cells was 0.87 U/ml (54 nM) without GH and 0.81 U/ml (51 nM) after incubation with human GH. IGF-I mRNA was present in neonatal pituitary and brain.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Regulation of growth hormone (GH) secretion by GH-releasing factor, somatostatin, and insulin-like growth factor I in ovine fetal and neonatal pituitary cells in vitro. 256 28

In mammals including human, it is generally accepted that growth hormone (GH) can regulate its own secretion through an autofeedback mechanism in which somatostatin (SRIF) may be involved. To explore a physiological role of SRIF-mediated GH autoregulation, the effect of exogenous human GH administration on plasma rat GH response to [D-Ala2, Nle27]-human GH-releasing hormone-(1-28)-agmatine (hGHRH-analog), which does not crossreact with anti-rat GH-releasing hormone gamma-globulin (GHRH-Ab), was examined in conscious male rats treated with GHRH-Ab in the absence and presence of anti-SRIF gamma-globulin (SRIF-Ab). Enhanced SRIF release during a trough period of natural pulsatile GH secretion, suggested by the blunted GH response to exogenous hGHRH-analog, no longer occurred when major GH secretory bursts were abolished by GHRH-Ab treatment. On the other hand, when hGH was administered in GHRH-Ab-treated rats so as to simulate the quantity and dynamic change of GH in hypophysial portal circulation in rats exhibiting pulsatile GH secretion, hGHRH-analog-induced GH rises were significantly suppressed during the period corresponding to a GH trough. This suppression was completely prevented by simultaneous treatment with SRIF-Ab. Furthermore, administration of bovine GH, but not ovine prolactin, resulted in significant suppression of hGHRH-analog-provoked GH rises. These findings suggest that enhanced SRIF release during a trough period of spontaneous GH secretory rhythm is induced by the preceding GH secretory burst, and also suggest a possible role for SRIF-mediated GH autoregulation in a physiological state.
...
PMID:Physiological role of somatostatin-mediated autofeedback regulation for growth hormone: importance of growth hormone in triggering somatostatin release during a trough period of pulsatile growth hormone release in conscious male rats. 257 Oct 99

Acute effects of somatostatin analog (SMS 201-995) on pancreatic hormones were studied in two patients with malignant islet-cell carcinoma. Before and after subcutaneous injection of somatostatin with a doses of 50 micrograms, blood glucose (BG), serum growth hormone (hGH), C-peptide immunoreactivity (CPR), plasma immunoreactive glucagon (IRG) and gastrin were assayed, and changes in elution patterns of IRG and gastrin were also analyzed on Bio-Gel P-30 column chromatography. In Patient 1 with glucagonoma syndrome and hypergastrinemia, a prompt and remarkable decrease in plasma IRG and gastrin was observed after the injection of SMS 201-995 in association with a decrease in blood glucose, and then IRG and gastrin increased gradually. The suppressive effect continued for at least 6 hours. On gel filtration of the plasma obtained before the injection of the analog, three major peaks, greater than 20000, 9000 and 3500 molecular-weight (mol wt) fractions, were seen in IRG fraction. The decrease in plasma IRG observed at 1 hour after the injection was mainly due to a marked decrease in the 3500 molecular weight fraction. In addition, a slight decrease in the 9000 mol wt fraction was seen. At 4 hours after the injection, the 3500 mol wt peak returned to the previous level, while the 9000 mol wt peak decreased further. On the other hand, the gastrin elution pattern of plasma obtained before the injection revealed three major gastrin peaks, greater than 20000, 7000 and 5000 mol wt fraction. The changes in the gastrin elution pattern after the injection were similar to those of the IRG elution pattern. In Patient 2 with Zollinger-Ellison's syndrome, the plasma gastrin level decreased gradually for 5 hours after the injection. On gel filtration of the plasma obtained before the injection, two major gastrin peaks, 7000 and 5000 mol wt fraction, of which the large-molecular fraction was more prominent than the small-molecular fraction, were observed. After the injection, a marked decrease in the small-molecular fraction and a gradual decrease in the large-molecular fraction were observed for 4 hours, accompanied by a decrease in plasma gastrin. At 7 hours after the injection, the smaller fraction was augmented again. The serum CPR and hGH was slightly suppressed after the injection in both patients. The adverse effects of slight nausea and vomiting were noticed only in Patient 1.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:[Inhibitory effects of somatostatin analog (SMS 201-995) on pancreatic hormones in patients with malignant islet-cell carcinoma]. 285 26

After a 0100-0300 h nadir, the insulin requirements to maintain blood glucose at 90-110 mg/dl increase substantially in the prebreakfast (0600-0800 h) period in some insulin-dependent diabetic patients (IDDMs). Early insulin-like and delayed insulin-antagonistic effects of physiologic early morning increases in growth hormone (hGH) secretion may account for this variability of overnight insulin requirements. To assess the role of hGH, we studied five IDDMs using a closed-loop insulin infusion device (Biostator, GCIIS). Either saline (C) or somatostatin plus glucagon (SRIF + G) was infused during separate overnight (2400-0800 h) study periods. An infusion of hGH from 2400 to 0130 h was added to SRIF + G infusion during an additional study period (SRIF + G + hGH). In comparison to 0100-0300 h, mean insulin infusion rates required to maintain blood glucose values between 105 and 120 mg/dl during the prebreakfast period increased by 66 +/- 25% during C, and 42 +/- 12% during SRIF + G when serum growth hormone was suppressed to less than or equal to 0.75 ng/ml. During SRIF + G + hGH, the mean prebreakfast insulin infusion rate increased by 42 +/- 11% with a mean peak hGH level of 14.7 +/- 5.4 ng/ml at 0130 h. Mean plasma free insulin levels remained constant during the night despite the significantly higher insulin infusion rates between 0600 and 0800 h. During SRIF + G, insulin requirements remained constant overnight before 0600 h, whereas during both C and SRIF + G + hGH conditions, a nadir was noted between 0100 and 0300 h.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Influence of growth hormone on overnight insulin requirements in insulin-dependent diabetes. 285 43

We have studied the effect of increased cholinergic tone on the GH response to growth hormone-releasing hormone (GHRH) and on GH feedback, using pyridostigmine, an acetylcholinesterase inhibitor. In six healthy male adult volunteers 120 mg oral pyridostigmine increased basal GH secretion compared to placebo and augmented the GH response to 100 micrograms i.v. GHRH (1-29) NH2; the effect was more than the additive effect of pyridostigmine and GHRH when each was given alone. Pretreatment with 2 IU methionyl-hGH given i.v. abolished the serum GH response to GHRH given 3 h later, demonstrating a negative feedback loop of GH on the response to GHRH; this inhibited response to GHRH was restored in subjects given pyridostigmine as well as methionyl-hGH. The data demonstrate that enhanced cholinergic tone releases GH, augments the serum GH response to GHRH and unblocks the negative feedback effect of methionyl-hGH pretreatment on the GH response to GHRH. These results suggest that GH negative feedback effects on its own secretion occur predominantly through increased hypothalamic somatostatin secretion; this somatostatin secretion is under inhibitory cholinergic control.
...
PMID:GH feedback occurs through modulation of hypothalamic somatostatin under cholinergic control: studies with pyridostigmine and GHRH. 290 2

The negative-feedback effects of GH on its own secretion were studied in conscious male and female rats bearing indwelling double-bore venous cannulae. Intravenous infusions of human GH (hGH; 20-60 micrograms/h) or somatostatin (SS; 10 micrograms/h) were given while frequent serial microsamples of blood were withdrawn using an automatic blood-sampling system. In both sexes, i.v. infusions of hGH for 6 h inhibited endogenous GH secretory pulses, with a slow onset of the inhibition. There was no rebound GH secretion immediately following the removal of the hGH infusion, but spontaneous GH secretion gradually returned to normal. Infusions of hGH did not inhibit the pituitary GH response to repeated GH-releasing factor (GRF) injections (1 microgram) given i.v. every 40 min to female rats. By contrast, infusions of SS, which also blocked spontaneous GH release, dramatically reduced the GH responses to serial GRF injections. When SS Infusions were stopped, the subsequent GRF-induced GH secretory responses were enhanced. These results show that GH can inhibit its own release when given by i.v. infusion to conscious male and female rats. Since GH responses to GRF are maintained during a GH infusion, the feedback effect of GH is unlikely to be exerted directly on the pituitary or by increasing SS release. Our results are consistent with the idea that GH feedback in the conscious rat involves an inhibition of GRF release.
...
PMID:Growth hormone (GH) secretion in the conscious rat: negative feedback of GH on its own release. 290 75

The effect of acute and chronic administration of GH on plasma GH responses to GHRH were studied in patients with idiopathic GH deficiency (GHD). Nine untreated GHD patients, 1 untreated patient with postoperative craniopharyngioma, and 7 normal short children were given synthetic human GHRH-44 (100 micrograms, iv) injection before and 2 days after being given a single dose of 4 IU biosynthetic methionyl human GH (mGH), im. Twelve GHD patients, who had been treated with 0.31-0.48 IU/kg.week pituitary-derived hGH (pdGH), im, for 8-79 months, were given GHRH 2 and 14 days after a final injection of 4 IU pdGH. Three other GHD patients were given GHRH before and after 2 yr of pdGH therapy (0.35-0.39 IU/kg.week). The GHRH-induced GH response (max delta GH) was significantly inhibited after mGH administration in the 9 untreated GHD patients [2.7 +/- 0.3 (+/- SE) vs. 4.7 +/- 0.6 micrograms/L; P less than 0.01]. The patient with secondary GH deficiency also had a marked reduction in her peak plasma GH value after mGH administration (from 32.0 to 11.7 micrograms/L). Similarly, the mean max delta GH response in the 7 normal short children was significantly inhibited by prior mGH injection (max delta GH, 12.7 +/- 2.0 vs. 28.8 +/- 4.8 micrograms/L; P less than 0.01). In the 12 treated GHD patients the GHRH-induced GH response on the 2nd day after discontinuation of pdGH therapy was significantly lower than that on the 14th day (max delta GH, 3.4 +/- 1.2 vs. 6.9 +/- 1.6 micrograms/L; P less than 0.02). In the 3 GHD patients who were studied before and after 2 yrs of pdGH therapy, the plasma GH responses were similar. In each group, plasma somatomedin-C levels on the second day after GH administration were slightly but not significantly higher than those before or 14 days after the administration. The GH responses to GHRH given on 2 occasions at 7- to 14-day intervals in individuals not receiving GH were similar in both 9 normal children and 10 GHD patients. These results indicate that acute GH administration inhibits somatotroph function in GHD patients, but chronic GH therapy does not cause irreversible damage to the somatotrophs. The acute inhibition of GHRH-induced GH release after GH administration is more likely due to direct and indirect pituitary inhibition by somatomedin-C and/or somatostatin than decreased GHRH secretion.
...
PMID:The effects of acute and chronic growth hormone (GH) administration on GH secretion in patients with idiopathic GH deficiency. 312 13

Five women with Graves' disease, 26-52 years of age, with serum concentrations of triiodothyronine (T3) 4.8-9.2 nmol/l and thyroxine (T4) 200-320 nmol/l were studied. A 26 h infusion of cyclic somatostatin (Bachem), 6 mg in isotonic saline solution was administered. Radioactive iodine i.v. (125I or 131I) was given immediately after the start of this infusion. Serum T3, T4 and conversion rate (CR% = PBRI: total RI X 100) were determined four times during the infusion, then daily for a week. The same studies, related to an injection of radioiodine, were performed during a control week when no somatostatin was administered. Arginine-stimulated insulin and growth hormone (hGH) concentrations were considerably lowered by the somatostatin infusion. No difference in serum T3, T4 or CR between the week that started with somatostatin infusion and the control week was observed. Twelve-26 h after the somatostatin infusion started, all patients experienced gastrointestinal symptoms, which lasted 2-6 h after somatostatin withdrawal. Somatostatin in the dose given does not inhibit thyroid gland function in Graves' disease.
...
PMID:Lack of effect of somatostatin on thyroid gland function in Graves' disease. 610 71

<< Previous 1 2 3 4 Next >>