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)

Bovine and human GH releasing factors (GHRF), in concentrations ranging from 10 pM to 10 nM, stimulated GH release from cultured bovine and porcine anterior pituitary cells. Agents that increase intracellular cAMP levels (e.g. isobutylmethylxanthine and 8-bromo-cAMP) also stimulated bovine and porcine GH release. Somatostatin, in doses ranging from 1-100 nM, inhibited both basal and GHRF-stimulated GH release from the bovine pituitary cultures, and 100 nM somatostatin inhibited GHRF-stimulated release of porcine GH. Addition of exogenous bovine GH suppressed basal, but not GHRF-stimulated, release of bovine GH. Human insulin-like growth factor I did not suppress basal or GHRF-stimulated release of bovine GH from bovine pituitary cells, although it has been confirmed in this report that insulin-like growth factor I suppresses stimulated release of GH from rat cells. Furthermore, the GH release peptides described by Momany et al. stimulated little or no GH release from bovine or porcine pituitary cell cultures, in contrast to their activity in rat cells. The results show that whereas some regulatory features of GH release from bovine, porcine, and rat pituitary cell cultures are similar, others differ significantly.
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PMID:Regulation of release of somatotropin from in vitro cultures of bovine and porcine pituitary cells. 242 21

In vitro and in vivo studies of somatotroph responsivity to GHRH stimulation indicate that partial loss of GH responsiveness occurs during constant GHRH stimulation. To determine if these observations reflect either a short term effect of GHRH or if the absence of somatostatin effects somatotroph desensitization (as occurred in in vitro studies), we administered GHRH-40 (10 ng/kg.min) by continuous iv infusion for 14 days to five normal men and one GH-deficient boy. Serum insulin-like growth factor I (IGF-I) concentrations were measured at frequent intervals to assess the biological effect of GHRH on GH secretion. The GH secretory profiles were assessed by measuring serum GH levels every 20 min for 24 h before (day 0), on the 14th GHRH infusion day, and 14 days after discontinuation of the GHRH infusion in the normal men. The GH-deficient boy was studied before and during the 14th GHRH infusion day. A supramaximal iv GHRH dose was administered at the end of the 24-h sampling period, and the GH responses were compared. Serum IGF-I concentrations increased on the 14th day of GHRH infusion in the normal men [day 0 mean, 0.84 +/- 0.14 (+/- SE) X 10(3); day 14, 1.74 +/- 0.20 X 10(3) U/L; P less than 0.05] and from 0.20 X 10(3) on day 0 to a maximum of 0.67 X 10(3) U/L on day 3 in the GH-deficient boy; they declined to pretreatment levels after discontinuation of GDRH. The mean integrated serum GH concentrations in the normal men were 1.44 +/- 0.10 micrograms/L.h on day 0 and 3.11 +/- 0.95 on day 14 of GHRH infusion. The integrated GH concentration in the GH-deficient boy was 1.53 micrograms/L.h on day 0 and 4.23 on day 14 of GHRH infusion. Pulsatile GH secretion, assessed by cluster analysis, was preserved in the normal men and occurred de novo in the GH-deficient boy on the 14th GHRH infusion day. The GH response to bolus GHRH administration was also preserved; no attenuation of the response occurred in the normal men or the GH-deficient boy after 14 days of GHRH infusion. The increase in IGF-I concentrations during 14 days of continuous GHRH administration, the persistence of pulsatile GH release in normal men, the de novo appearance of GH pulses in the GH-deficient boy, and the preservation of the response to a supramaximal GHRH dose indicates that the somatotrophs remain responsive to prolonged constant stimulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Lack of in vivo somatotroph desensitization or depletion after 14 days of continuous growth hormone (GH)-releasing hormone administration in normal men and a GH-deficient boy. 249 64

Both insulin-like growth factor I (IGF-I) and somatostatin (SRIH) have been shown to directly inhibit GH release and the total GH content of cultured pituitary cells. In the present study we evaluated the interrelationship between the effects of a recombinant human IGF-I analog ([Thr59]IGF-I) and SRIH on GH release by cultured normal rat pituitary cells together with the effects of glucocorticoids. In all experiments anterior pituitary cells were preincubated for 24 h without or with IGF-I, SRIH, and/or dexamethasone. Thereafter, 24-h incubations without or with IGF-I, dexamethasone, SRIH, and GHRH were performed. Both IGF-I and SRIH inhibited basal and GHRH-stimulated GH release in a dose-dependent manner; the maximal inhibitory concentrations were 5 nM IGF-I and 10 nM SRIH. These concentrations inhibited basal and GHRH-stimulated GH release by 23% and 40% (IGF-I) and 80% and 85% (SRIH), respectively. The combination of IGF-I and low concentrations of SRIH exerted an additive inhibitory effect on GHRH-stimulated GH release; IGF-I (1 nM) and SRIH (10 pM) together inhibited GH release by 50%, while the maximal inhibitory concentrations of 5 nM IGF-I and 10 nM SRIH virtually completely inhibited GH release (by 93%). Preincubation with 5 and 100 nM dexamethasone attenuated the sensitivity of somatotrophs to SRIH and completely abolished the inhibitory effects of IGF-I. This effect of dexamethasone could be reversed by coincubation with the glucocorticoid receptor antagonist RU 38486. High concentrations of 5-10 nM of the recombinant human IGF-I analog stimulated PRL cell content (5 and 10 nM) and release (10 nM), while a purified IGF-I preparation extracted from human blood exerted a parallel inhibitory effect on GH and PRL release. We conclude that 1) IGF-I and SRIH exert an additive direct inhibitory effect on basal and GHRH-stimulated GH secretion by normal cultured pituitary cells; 2) glucocorticoids directly attenuate the sensitivity of somatotrophs to SRIH, but completely prevent the inhibitory effects of IGF-I on GH secretion; and 3) in contrast to a purified IGF-I preparation extracted from human blood (which inhibits GH and PRL release) high concentrations of the recombinant IGF-I preparation (which inhibit GH release) stimulate PRL production.
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PMID:The interrelationship between the effects of insulin-like growth factor I and somatostatin on growth hormone secretion by normal rat pituitary cells: the role of glucocorticoids. 249 19

Two patients with acromegaly secondary to ectopic GHRH secretion by metastatic carcinoid tumors were studied before and during therapy with the somatostatin analog octreotide (SMS 201-995). GH and GHRH secretory patterns were assessed during intermittent sc administration, continuous sc infusion (CSI), and continuous iv infusion of octreotide. Octreotide reduced serum GH and plasma GHRH levels in the two patients, although there was differential sensitivity of GH and GHRH. Intermittent sc therapy transiently lowered serum GH in both patients. A higher iv dose was required to reduce plasma GHRH by 50% than to reduce serum GH by 50% (2.0 vs. 0.05 micrograms/kg.h, respectively; patient 1). A similar pattern was found during CSI octreotide administration in the same patient. Chronic therapy with intermittent sc and CSI octreotide was assessed by serial 24-h profiles of GH and GHRH secretion in patient 2. Mean hourly serum GH levels decreased from a pretreatment level of 31.5 +/- 3.5 (+/- SE) to 9.5 +/- 1.5 micrograms/L during CSI therapy (1000 micrograms/day or 0.40 micrograms/kg.h). In contrast, plasma GHRH levels were less effectively suppressed. The mean serum GH levels and the variation in hourly GH values were reduced to a greater extent with CSI than with intermittent sc therapy. Serum insulin-like growth factor I also declined from 5.9 x 10(3) to 2.5 x 10(3) U/L during chronic CSI therapy (patient 2). CSI therapy with octreotide can be more effective than intermittent sc therapy in controlling GH excess in the rare syndrome of ectopic GHRH secretion, although serum GH may not decline to normal.
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PMID:Octreotide suppresses both growth hormone (GH) and GH-releasing hormone (GHRH) in acromegaly due to ectopic GHRH secretion. 249 33

We previously reported that GH secretion evoked by GHRH is inhibited after 5 days of treatment with im GH. This impaired pituitary response was associated with a significant increase in the serum concentration of insulin-like growth factor I (IGF-I). To dissociate the possible effects of circulating IGF-I from other effects of GH on the pituitary response to GHRH, we carried out the following study in eight normal men. A bolus injection of GHRH (1 microgram/kg, iv) was administered 2 h after the start of a 4-h continuous iv infusion of GH (180-micrograms bolus dose, then 3 micrograms/min in 150 mmol/L NaCl) or placebo (150 mmol/L NaCl). In addition, a similar injection of GHRH was given 4 h after the start of a 6-h continuous iv GH infusion (180-micrograms bolus dose, then 3 micrograms/min). During the GH infusions, plasma GH levels reached steady state concentrations in the 9-13 micrograms/L range. The mean GHRH-induced GH response was not significantly blunted during the 4-h infusions of GH [724 +/- 163 (+/- SE) vs. 1184 +/- 373 micrograms.min/L during placebo; P = 0.29], but was significantly inhibited during the 6-h GH infusions (226 +/- 105 micrograms.min/L; P = 0.04 vs. control). Serum IGF-I or plasma glucose did not change significantly throughout the GH infusions. During the 6-h GH infusions, plasma FFA increased to levels significantly above basal values during the last 3 h of the 6-h infusion. These results indicate that short term GH infusion inhibits the plasma GH response to GHRH in a time-dependent manner. The inhibition is not due to changes in circulating IGF-I and glucose concentrations. Fluctuations in hypothalamic somatostatin secretion, changes in lipid or other GH-dependent metabolites, paracrine effects of IGF-I, or a direct effect of GH itself may cause the impaired pituitary responsiveness during short term iv GH infusion.
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PMID:Short term continuous intravenous infusion of growth hormone (GH) inhibits GH-releasing hormone-induced GH secretion: a time-dependent effect. 249 83

Acromegaly and hyperprolactinemia have been reported in association with the McCune-Albright syndrome, but the pathophysiology of the GH and PRL hypersecretion that occurs in patients with this disorder has not been defined. We studied GH and PRL secretory dynamics in three patients with McCune-Albright syndrome and hypersecretion of these hormones. Each patient had excessive linear growth, glucose-non-suppressible plasma GH concentration, and GH responsiveness to TRH and GHRH. In response to exogenous GHRH, plasma GH concentrations rose approximately 2-fold in all three patients. Plasma GHRH levels were 20-40 ng/L (normal, less than 30). Study of the spontaneous GH secretory pattern in two patients indicated nocturnal augmentation of GH release. Bromocriptine therapy failed to reduce plasma GH in all patients; in one patient treatment with octreotide, a long-acting somatostatin analog, partially suppressed plasma GH and insulin-like growth factor I levels. These results suggest that hypersecretion of GH in the McCune-Albright syndrome is not due to ectopic GHRH production or autonomous somatotroph function. The results are similar to those described in classic acromegaly due to GH-secreting pituitary tumors. However, the lack of radiographic pituitary enlargement, the variable pituitary pathology reported in similar patients, and frequent concordance of GH and PRL excess suggest that the pathogenesis of this disorder may differ fundamentally from other forms of acromegaly or gigantism. The pathophysiology may reflect abnormal hypothalamic regulation and/or an embryological defect in pituitary cellular differentiation and function.
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PMID:Hypersecretion of growth hormone and prolactin in McCune-Albright syndrome. 249 85

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)
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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

Twelve acromegalic patients in whom standard therapy was unsuccessful were evaluated with 24-h serum GH profiles (hourly sampling) and oral glucose tests (oGTT) while being treated with octreotide, a long-acting somatostatin analog. During a dose-response study (300, 600, and 1500 micrograms/day sc, for 4 weeks), serum GH decreased significantly after 300 micrograms/day in 8 of 12 patients [from 14.5 +/- 6.2 (+/- SE) to 4.9 +/- 1.9 micrograms/L]. Higher doses further reduced serum GH concentrations in 3 (600 micrograms/day) and 1 (1500 micrograms/day) patients, respectively. Four patients did not respond to any dose. Serum GH concentrations declined normally (GH nadir, less than 2 micrograms/L) after glucose ingestion in 4 of the 10 nondiabetic acromegalic patients. In 4 patients, including 2 of the initial nonresponders, serum GH further declined during long term treatment (12 and 18 months). In the latter 2 patients, serum insulin-like growth factor I (IGF-I) concentrations had decreased during the dose-response study despite the absence of measurable GH suppression. Eight patients attained normal serum IGF-I concentrations during treatment. Serum IGF-I and GH correlated significantly before, but not during, treatment. Retrospective comparison suggested that in 5 of 6 patients, serum GH was more effectively suppressed by octreotide than by bromocriptine. The 24-h serum octreotide concentration varied greatly among the patients. Although the 24-h serum octreotide and GH concentrations did not correlate with one another, the serum octreotide and IGF-I concentrations when the patients were receiving 300 micrograms/day tended to be negatively correlated (r = -0.496; P = 0.118). The 24-h serum insulin values decreased and those of glucose increased during treatment; after oral glucose, serum insulin was lower and glucose was higher. However, after 12 months of treatment, the 8-h serum insulin profile and peak serum insulin after oral glucose administration had returned to pretreatment values, while serum glucose remained abnormal. We conclude that 1) octreotide lowers serum GH in many, but not all, acromegalic patients resistant to other forms of treatment; 2) doses in excess of 300 micrograms/day should be tested in those patients in whom lower doses are ineffective; 3) serum IGF-I measurement may be a better indicator of treatment success than GH measurement; 4) octreotide concentrations do not correlate with GH suppression; and 5) deterioration of carbohydrate tolerance does occur but tends to improve during chronic treatment.
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PMID:Dose-response study and long term effect of the somatostatin analog octreotide in patients with therapy-resistant acromegaly. 256 12

The marked pituitary tumor shrinkage achieved by continuous sc infusion (CSI) of the long-acting somatostatin analog octreotide in one acromegalic patient led us to treat 16 other acromegalic patients for up to 24 months by CSI. This therapy, given in doses ranging from 100-600 micrograms/day, resulted in normalization of the mean daily serum GH (mGH) and insulin-like growth factor I levels in 9 of the 17 patients (53%). In 7 patients, mean daily serum GH decreased but not to normal; 3 of these patients had hyperprolactinemia which was not influenced by octreotide. One patient was completely unresponsive. In contrast to the biochemical results, 80% of the patients had marked clinical improvement. Side-effects consisted of slightly impaired carbohydrate tolerance in 2 patients and cholelithiasis in 2 patients. Pituitary tumor size decreased in only 3 patients; in 1 of them visual field defects disappeared rapidly. These results suggest that octreotide treatment may prove beneficial before surgery in patients with macroadenomas, although its efficacy varies widely. Potential responsivity can usually be determined by a short course (24 h) of CSI of octreotide.
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PMID:Long term effects of continuous subcutaneous infusion of the somatostatin analog octreotide in the treatment of acromegaly. 256 13

GH release is controlled by hypothalamic hormones and insulin-like growth factor I, synthesized under the influence of GH, and perhaps also by GH itself. The availability of recombinant Met-GH was the basis for studies aimed at 1) obtaining constant serum GH levels by means of constant Met-GH infusions (40 and 80 ng/kg.min for 6 h), and 2) evaluating the metabolic effects of constant GH levels and, in particular, their effects on the serum GH response to GHRH. In six normal men, both Met-GH infusions increased plasma FFA levels, but did not alter the circulating levels of somatostatin, insulin-like growth factor I, insulin, glucose, cholesterol, and triglycerides. The Met-GH infusions did cause a dose-related inhibition of GHRH-induced GH release. These data indicate that it is possible to maintain constant serum GH levels by means of constant Met-GH infusions at different infusion rates, and that GH inhibits its own release.
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PMID:Inhibition of the growth hormone (GH) response to GH-releasing hormone by constant Met-GH infusions. 256 14

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