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)

The effects of the somatostatin analog octreotide on plasma GH, TSH, and immunoreactive GH-releasing hormone (IR-GHRH) were studied in 10 normal men. After morning sc administration of 50 or 100 micrograms octreotide or placebo, plasma GH, TSH and GHRH were measured frequently for 6 h. Plasma GH or IR-GHRH concentrations did not change after placebo injection, but plasma TSH levels gradually decreased, in conformity with a circadian rhythm during the morning. The mean plasma GH levels after sc injection of 50 or 100 micrograms octreotide declined, and no spontaneous GH pulses occurred for 5 h. Plasma TSH decreased rapidly after both doses of octreotide and was significantly lower than the level after placebo treatment from 90-315 min (P less than 0.05) and 60-360 min (P less than 0.05 or P less than 0.01), respectively. Plasma IR-GHRH levels also were significantly lower from 30-360 min (P less than 0.05) in the group given 100 micrograms octreotide compared with the value in the placebo group. We conclude that octreotide inhibits not only GH and TSH secretion from the pituitary, but also GHRH release from the hypothalamus and/or peripheral tissues. These findings suggest that somatostatin controls GH secretion not only by suppressing pituitary secretion of GH but also by suppressing GHRH release from the hypothalamus.
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PMID:The somatostatin analog octreotide inhibits the secretion of growth hormone (GH)-releasing hormone, thyrotropin, and GH in man. 250 17

FRTL-5 rat thyroid cells grown in culture medium supplemented with serum and 6H (TSH, insulin, hydrocortisone, transferrin, glycylhistidyllysine, and somatostatin) showed a significant increase in TSH-dependent cAMP accumulation and I- efflux after prolonged incubation (5 to 10 days) of the cells in culture medium containing 5H (6H - TSH) or serum. The induction of the cAMP response was at least partly reproduced when both serum and 5H were omitted from the medium. However the I- efflux response was completely abolished under such conditions and regenerated when serum or 5H was present. The serum or 5H effect on I- efflux response was mimicked by 2H (insulin + hydrocortisone). Insulin was replaced by 1/1000 less insulin-like growth factor-I than insulin. TSH-dependent Ca2+ mobilization of the cells was similarly affected by the presence of serum or 2H. However, the I- efflux and Ca2+ responses to an agonist other than TSH (extracellular ATP) were not substantially influenced by serum and/or 2H as well as TSH in the medium. The results indicate that serum or insulin-like growth factor-I plus hydrocortisone are required rather specifically for the regeneration of the TSH-receptor mechanism coupled with I- efflux and/or Ca2+ mobilization mechanism.
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PMID:Requirement of insulin growth factor I plus hydrocortisone for the regeneration of thyrotropin (TSH)-dependent mechanism of I-efflux and Ca2+ mobilization in FRTL-5 cells during TSH depletion. 253 14

Acute and chronic hypopituitarism is associated with severe envenoming by the Burmese Russell's viper. We have demonstrated that in vitro, Burmese Russell's viper venom (0.1-10 micrograms/ml) causes a dose-dependent release of GH, TSH and ACTH from dispersed rat anterior pituitary cells in culture. At 10 micrograms/ml, venom causes a significant increase in the release of GH (344%, P less than 0.001), TSH (168%, P less than 0.005) and ACTH (greater than 700%, P less than 0.001). We have also shown that the component (or components) responsible for this stimulatory effect is stable to heat (60 degrees C, 1 h) and mild trypsinization. Repeated addition of venom (1 microgram/ml) to pituitary cells in a perifusion column system demonstrated attenuation of GH release. This reduced response was not due to depletion of the GH pool since the pituitary cells were subsequently able to respond to both GH-releasing factor (GRF) stimulation and KCl depolarization. Somatostatin in a dose which abolished GRF-stimulated GH release failed to affect venom-stimulated GH release, implying that venom acts in a cyclic AMP-independent manner. We conclude that Burmese Russell's viper venom has direct effects on pituitary hormone release in vitro. Whether these effects contribute to its known actions in vivo on the function of the pituitary remains to be established.
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PMID:Burmese Russell's viper venom causes hormone release from rat pituitary cells in vitro. 254 60

The present review is dealing with the five major hypothalamic hypophysiotropic neuropeptides (H.H.N.P.) purified and synthesized so far. Four of them specifically stimulate the secretion of one or several anterior pituitary (A.P.) hormones, i.e. thyroliberin (TRH) on TSH and prolactin, gonadoliberin (GnRH) on LH and FSH, corticoliberin (CRF) on ACTH and precursor peptides and somatocrinine (GRF) on GH. The fifth one, somatostatin (SRIF), inhibits the secretion of all A.P. hormones, excepted LH and FSH. All H.H.N.P. affect, positively or negatively, in a dose- and time-dependent manner, the release of stored hormones and their neosynthesis. These responses are submitted to multihormonal modulations. They are initiated by the occupancy of high affinity specific binding sites which have been extensively characterized and morphologically localized. Informations concerning molecular characterization and cloning of receptors for any H.H.N.P. are still awaited. By contrast, the transduction mechanisms which are activated by the occupation of receptors have been extensively studied. They vary depending on H.H.N.P.: TRH and GnRH activate the catabolism of polyphosphoinositides and ensuing pathways, CRF and GRF activate and SRIF inhibits adenylate cyclase dependent pathways. In addition, Ca2+, from extracellular and intracellular sources, play a pivotal role in all cases. The intracellular mechanisms responsible for the last steps of H.H.N.P. action, i.e. exocytosis of secretory granules and transcription of target genes, are however still unknown.
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PMID:[Hypothalamic hypophysiotropic neuropeptide receptors]. 255 5

Interleukin-1 (IL-1), a secretory product of activated macrophages and many other cell types, is an important mediator of the acute phase reaction to infection and to endotoxin administration. Previous reports that GH and TSH secretion are decreased following injection of endotoxin or IL-1 led us to test the hypothesis that IL-1 acts by releasing increased amounts of somatostatin (SS), a hypothalamic factor inhibitory of both GH and TSH release. Primary cultures of dispersed fetal rat diencephalic cells were found to contain increasing amounts of immunoreactive SS in both cells and media after addition of recombinant human IL-1 beta. This increase was detectable at 24 hours and continued for up to 6 days, the longest time interval tested. Increased content of SS peptide was accompanied by marked increases in SS mRNA. These changes were dose-related, the lowest effective dose being 10(-10) M. In contrast to the long term response, exposure of the cells to IL-1 beta for one hour had only minimal stimulating effects on somatostatin release. These data indicate that IL-1 beta is neurotrophic for the somatostatinergic neuron, an action that may be responsible at least in part, for the neuroendocrine response to infection.
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PMID:Interleukin-1 beta stimulates somatostatin biosynthesis in primary cultures of fetal rat brain. 256 27

BIM 23014 (BIM) is a long-acting octapeptide somatostatin analog. We studied the effects of this analog on the secretion of GH, TSH, and gastroenteropancreatic hormones [secretin, motilin, and pancreatic polypeptide (PP)] in normal men. In the first protocol three BIM doses (125, 250, and 500 micrograms) and vehicle were administered sc in random order at 2000 h to eight normal young men. Plasma GH concentrations decreased during the first part of the night only after the highest dose (P less than 0.05). Plasma secretin levels did not change, while plasma motilin decreased after the 250- and 500-micrograms doses (P = 0.05 and P = 0.02, respectively), and plasma PP decreased after all three doses (P less than 0.05, P less than 0.01, and P less than 0.01, respectively) during the first part of the night. In the second protocol, eight men received BIM, administered by constant sc infusion during the night in a dose of 2 mg/12 h, or vehicle, either alone or in association with a 10 ng/kg.min iv GHRH or vehicle infusion. Nocturnal GH secretion was suppressed by the BIM infusion (P less than 0.001). GH secretion, stimulated by GHRH infusion (P less than 0.001), was reduced by concomitant BIM infusion (P less than 0.001) and was pulsatile during the combined infusions. BIM infusion suppressed the physiological nighttime rise in plasma TSH levels. Plasma motilin and PP levels were reduced by BIM, when administered either alone or in combination with GHRH. We conclude that: 1) BIM is capable of reducing GH secretion when administered sc in a dose of 500 micrograms and of abolishing nocturnal GH secretion when constantly infused at a dose of 2 mg/12 h; 2) BIM, constantly infused, reduces the nocturnal rise in TSH secretion; and 3) motilin and PP secretion are more sensitive than that of GH to BIM, as they are reduced by a lower dose.
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PMID:Effects of the somatostatin analog BIM 23014 on the secretion of growth hormone, thyrotropin, and digestive peptides in normal men. 256 30

Ingestion of glucose is known to induce suppression of GH secretion in normal subjects and this phenomenon is often absent in acromegalic patients. To clarify the mechanism of GH suppression in acute hyperglycemia in normal subjects and disturbed GH response in acromegalic patients, the effects of acute hyperglycemia on plasma GH and TSH levels were examined in normal subjects and acromegalic patients. Plasma GH levels were significantly lowered 45-60 min after ingestion of 75 g glucose and elevated at 210 and 240 min in nine normal subjects. Plasma TSH levels were also significantly lowered between 45 and 120 min after ingestion; levels then gradually rose. Subcutaneous administration of 50 micrograms SMS 201-995, a long acting somatostatin analog, lowered plasma TSH levels in both normal subjects and acromegalic patients, and there was no significant difference in the degree of decrease in plasma TSH levels between the normal subjects and patients. These results, taken together with several reports that somatostatin suppresses TSH secretion as well as GH secretion, suggest that acute hyperglycemia stimulates somatostatin release from the hypothalamus, thus causing inhibition of GH and TSH secretion. However, in ten acromegalic patients, only two showed suppression of plasma GH levels to below 50% of basal level and the degree of suppression of TSH secretion was significantly less than in normal subjects in the glucose tolerance test. It is, therefore, suggested that somatostatin release in response to acute hyperglycemia is impaired in most acromegalic patients and that this abnormality may be one of causes for the absence of the normal GH response to acute hyperglycemia in this disorder.
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PMID:Effects of ingestion of glucose on GH and TSH secretion: evidence for stimulation of somatostatin release from the hypothalamus by acute hyperglycemia in normal man and its impairment in acromegalic patients. 256 93

Cachectin (tumor necrosis factor) is a powerful macrophage hormone released during infection, which circulates in blood to produce diverse effects in the organism. We examined the effect of cachectin on release of anterior pituitary hormones from either hemipituitaries or dispersed pituitary cells incubated in vitro. The action of cachectin on dispersed cells was demonstrable only after 2 hr of incubation. With this incubation time, the protein produced a dose-related stimulation of release of adrenocorticotropin (ACTH), growth hormone (GH), and thyrotropin (TSH), but not of prolactin (Prl), from both hemipituitaries and dispersed cells. The doses required for stimulation were low in the case of hemipituitaries, usually of the order of 10(-12) M, whereas they were higher by one or two orders of magnitude with the dispersed pituitary cells. This may be related either to loss of receptors for the protein during the dispersion procedure or to the fact that in the hemipituitary system cell interactions are facilitated because the cells are close to each other. In the dispersed cell system cachectin evoked a dose-related decrease in cyclic AMP content. Incubation with somatostatin lowered the cyclic AMP content of the cells and depressed GH output without altering output of TSH or Prl. When somatostatin and cachectin were incubated together with the cells, the suppression of cyclic AMP production was abolished; TSH and Prl release were stimulated, but the action of cachectin to stimulate GH release was blocked. The stimulation of Prl release by cachectin in the presence of somatostatin may be related to the elevation of cyclic AMP, a known stimulator of Prl release. The cyclooxygenase inhibitor indomethacin nearly completely blocked the stimulatory effect of cachectin on release of GH and TSH from dispersed pituitary cells but had only a slight and nonsignificant attenuating effect on its ACTH-releasing action. These results suggest that at least part of the stimulatory action of the peptide on pituitary hormone release is brought about by prostaglandins. The failure of indomethacin to block the release of ACTH induced by cachectin suggests that other mechanisms may be involved in the release of ACTH induced by this peptide. Since the concentrations of cachectin required to stimulate pituitary hormone release are similar to those that are encountered in plasma during infection, it is likely that this direct pituitary action has pathophysiological significance.
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PMID:Cachectin alters anterior pituitary hormone release by a direct action in vitro. 256 80

To determine whether GH feedback affects both induced and spontaneous GH secretion and to explore its neurotransmitter mediation, we assessed the effects of 6-h GH infusions (0.55-5.5 micrograms/m2/min) on sleep-associated and GH-releasing hormone (GHRH)-, insulin hypoglycemia-, and arginine-stimulated GH secretion and their modulation by beta-adrenergic blockade in normal men. GH infusions initiated 2 h before the expected onset of sleep produced a dose-dependent inhibition of GH secretion. GH infusions (0.55 micrograms/m2/min) initiated 4 h before the stimuli inhibited the GH response to each, but did not alter the TSH response to TRH. Propranolol infusion (80 micrograms/min) started 2 h before the onset of sleep or the stimulus enhanced GH responses to GHRH and insulin alone and in the presence of GH. In contrast, propranolol neither enhanced the GH responses to arginine or sleep nor reversed the inhibitory effects of GH. The negative feedback effect of GH to both physiological and pharmacological stimuli of GH secretion indicates that it is most likely mediated by both stimulation of somatostatin and inhibition of GHRH release. The effects of beta-adrenergic blockade suggest an inhibition of somatostatin release, although the complex interaction of GH and propranolol implies that they act through dissimilar mechanisms.
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PMID:Beta-adrenergic modulation of growth hormone (GH) autofeedback on sleep-associated and pharmacologically induced GH secretion. 257 14

Thyrotropin-releasing hormone (TRH) and thyrotropin (TSH) elevated plasma thyroxine (T4) and triiodothyronine (T3) concentrations in a (euthyroid) control line of chickens and in an autosomal dwarf strain. These agents were ineffective in sex-linked dwarf (SLD) chickens. Similarly, while somatostatin (SRIF) lowered plasma T4 and T3 concentrations in autosomal dwarf (ADW) chickens and controls, it had no inhibitory effect in the SLD strain. These results suggest that an impairment in the hypothalamus-pituitary-thyroid axis is at least partly responsible for hypothyroidism in the SLD strain.
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PMID:Thyroid function in sex-linked and autosomal dwarf chickens. 257 26

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