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

Effects of various hormonal and pharmacological manipulations on somatostatin distribution were investigated to elucidate the physiological significance of somatostatin in the hypothalamus and the other regions of the rat brain. Immunoreactive somatostatin (IRS) was measured by radioimmunoassay newly developed. Insulin induced an increase of hypothalamic IRS and a decrease of plasma RGH, while glucose administration resulted in the opposite responses, which were not significant. Insulin also increased IRS in the thalamus and the brain stem. The insulin-induced increase of hypothalamic IRS was reduced by hyperglycemia. Glucagon reduced IRS initially and then increased it with an elevation plasma RGH. L-dopa did not affect hypothalamic IRS, although it decreased plasma RPRL. Phentolamine slightly increased plasma RGH and decreased IRS in most regions of the rat brain, while propranolol increased IRS in these regions. Pretreatment with propranolol significantly increased plasma RGH 120 min after insulin administration, and hypothalamic IRS decreased initially by pretreatment with propranolol, and then it increased significantly. When pretreated with propranolol, glucagon markedly increased plasma RGH and decreased IRS significantly. From these findings it is concluded that hypothalamic IRS may participate in the hormonal regulatory system in correlation to plasma RGH, as observed in studies on plasma GH and hypothalamic IRS following insulin, glucose, propranolol or phentolamine administration, but IRS in other regions of the brain may have some other actions as a neurotransmitter or a modulator, because of no significant correlation between plasma GH or PRL and IRS in these regions following various stimuli. In addition, glucose homeostasis and adrenergic mechanism may be important factors in regulating IRS in the rat brain.
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PMID:Immunoreactive somatostatin in the hypothalamus and other regions of the rat brain: effects of insulin, glucose, alpha- or beta-blocker and L-dopa. 3 44

An iv administration of 1 ml sheep antiserum to somatostatin (anti-SS) resulted in marked increases of both serum GH and TSH, with a peak 10--20 min after administration in male rats anesthetized with urethane or pentobarbital. Administration of anti-SS had no effect on serum PRL. Ablation of the basal medial hypothalamus abolished the rises of both serum GH and TSH after anti-SS administration. Intravenous injection of 1 ml rabbit antiserum to TRH (anti-TRH) decreased serum TSH levels 15 min after injection, whereas injection of normal rabbit serum did not affect TSH levels. Serum TSH levels did not rise after injection of anti-SS in rats pretreated with anti-TRH. On the other hand, pretreatment with anti-TRH did not affect the basal serum GH levels nor the anti-SS-induced GH release. The enhanced secretion of GH and TSH after anti-SS injections was not blocked by pretreatment with indomethacin, an inhibitor of prostaglandin synthesis. The following conclusions were made: 1) both GH and TSH responses to anti-SS require an intact basal medial hypothalamus; (2) TSH response to anti-SS is mediated by hypothalamic TRH; and 3) the GH response may be mediated by hypothalamic GH-releasing hormone which is not TRH or prostaglandins.
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PMID:Studies on the mechanism of growth hormone and thyrotropin responses to somatostatin antiserum in anesthetized rats. 10 24

The endocrine glands of the human foetus are active early in gestation, and various foetal and placental hormonal contributions are essential for growth and sexual differentiation. 1. The anterior pituitary gland has the ability to synthesize, store and secrete hormones early in gestation. The patterns of change in plasma concentrations of hGH (Fig. 1), ACTH, LH and FSH (Fig. 2) during gestation indicate that secretion is at a maximum at mid-gestation, followed by a progressive decrease towards term. The high levels at mid-gestation can be interpreted as due simultaneously to a high secretion rate, low peripheral catabolism and absence of feedback mechanism. In contrast, the secretions of PRL (Fig. 1) and TSH are moderate at mid-gestation and only increase in the last trimester of gestation. 2. Effective control by the central nervous system (CNS) of the pituitary secretions is still immature at mid-gestation. The presence in the foetal hypothalamus of releasing factors such as LRF (Fig. 5) and TRF, and of somatostatin (Fig. 6), a growth hormone release inhibiting factor (GIF), has been established. TRF and GIF, but not LRF, are also present in the cerebral cortex. It has been postulated that, early in life, relatively autonomous and unrestrained secretion of hypothalamic hypophysiotropic releasing factors occurs, and that, later in development, there is a maturation of inhibitory or restraining influences mediated via the CNS (feedback mechanisms) that modulates the secretion of the foetal adenohypophyseal hormones (Fig. 3 and 4). 3. Observations made with anencephalic newborn confirm that a functional hypothalamus is necessary during foetal life for the secretion of each of the hormones of the anterior pituitary gland with the exception of PRL, the secretion of which is normal in anencephaly. Although somatostatin probably participates in the regulation of hGH during foetal life, it appears evident from the anencephaly data that this regulation can only be fully understood by postulating the existence of a growth hormone releasing factor (GRF).
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PMID:[Ontogenesis of hypothalamic control of adenohypophyseal secretions in the human foetus (author's transl)]. 11 47

PRL secretion was evaluated in 30 human newborns during the early hours of life. Both levodopa and pyridoxine administration failed to suppress PRL release in all subjects. Synthetic TRH elicited a constant, prompt increase in PRL levels. No significant changes were observed after somatostatin injections. These results demonstrate normal pituitary PRL reserve in newborns. The failure to respond to levodopa and pyridoxine administration might reflect partial immaturity of the pituitary dopaminergic receptors.
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PMID:Dynamic evaluation of prolactin secretion during the early hours of life in human newborns. 12 39

Four-day-old pituitary monolayer cultures were incubated with various hypothalamic releasing hormones. Rat hypothalamic extract stimulated the release of LH, FSH, and PRL by these cultures in a dose-related fashion. Synthetic LH-RH stimulated the release of LH and FSH but not of PRL. Synthetic TRH increased the release of PRL but had no effect on LH or FSH. At 10(-8) M, somatostatin did not affect any of the three adenohypophyseal hormones. Incubation with DBcAMP or theophylline also stimulated PRL release without any detectable effect on LH and FSH release. These data suggest the involvement of cyclic AMP--adenylate cyclase system in the mechanism of PRL release, but their involvement in gonadotropin release requires further studies.
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PMID:Effects of hypothalamic-releasing hormones on LH, FSH, and prolactin in pituitary monolayer cultures. 17 71

The anterior pituitary gland of the human fetus has the ability of synthetizing, storing and secreting hormones early during gestation. The patterns of plasma concentrations of hGH, ACTH, LH and FSH during gestation indicate a maximum of secretion at mid-gestation followed by a progressive decrease of these concentrations until term. In contrast, the secretions of PRL and TSH are moderate at mid-gestation and only increase in the last trimester of gestation. Effective control by the central nervous system (CNS) of the pituitary secretions is still immature at mid-gestation. The presence of releasing factors in the fetal hypothalamus has been established (TRF, LRF, somatostatine) and it was postulated that early in life, relatively autonomous and unrestrained secretion of hypothalamic hypophysiotropic releasing factors occurs and, later in development, there was a maturation of inhibitory or restraining influences mediated via the CNS that modulate the secretion of the fetal adenohypophyseal hormones. Observations made with anencephalic newborns confirm that a functional hypothalamus is necessary for the secretions of each of the hormones of the anterior pituitary gland with the exceptiion of PRL, the secretion of which is normal in anencephaly. Although somatostatin probably participates in the regulation of hGH during fetal life, it appears evident that this regulation can only be fully understood with the existence of a GRF (Growth Hormone Releasing Factor).
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PMID:[Hypothalamic factors in the human fetal brain: their role in the ontogeny of fetal hypophyseal functions]. 20 94

Somatostatin, at concentrations up to 10(-7) M, does not inhibit the basal release of TSH from primary cultures of rat anterior pituitary cells. The TRH-induced TSH release is however 65% reduced by somatostatin, half-maximal inhibition being measured at 2.5 x 10(-10) M somatostatin. The concentration of TRH giving half-maximal stimulation (ED50) of TSH release is only slightly increased from 1 to 3 x 10(-9) M in the presence of 10(-8) M somatostatin. Somatostatin inhibits by 45-65% both the basal and TRH-induced PRL release of pituitary cells prepared from adult female rats, with half-maximal inhibition at approximately 5 x 10(-10) M somatostatin. The TRH ED50 for PRL release was not significantly affected by somatostatin. Somatostatin (200 mug) has no effect on the basal plasma levels of TSH or PRL in anesthetized male rats treated with estradiol benzoate (EB), hypothyroid rats, or hypothyroid animals treated with EB. The plasma TSH response to TRH is, however, reduced by approximately 75% by somatostatin while the plasma PRL response is not affected by injection of the peptide. The interaction between TRH and somatostatin for both TSH and PRL release is non-competitive and is thus likely to occur at a step subsequent to the binding of the peptides to their specific receptors in both thyrotrophs and mammotrophs.
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PMID:Characteristics of the interaction between thyrotropin-releasing hormone and somatostatin for thyrotropin and prolactin release. 81 94

One male rat pituitary placed in a chamber was perifused with cyclic somatostatin (GIF) for 30 min. Either 160 nM or 1.6 muM GIF caused a decrease in the release of GH. The release of TSH was also decreased by 160 nM GIF, and paradoxically increased by 1.6 muM GIF. Increasing the dose of GIF to 16 muM resulted in an abrupt rise in the release of both GH and TSH during the perfusion; then the level of GH decreased to the nadir level followed by an elevation above the base line, while that of TSH promptly fell back toward the base line. The release of PRL was not clearly affected by 16 muM GIF. [Tyr8]-GIF did not have such stimulatory activities. These results indicate that GIF not only inhibits the release of GH and TSH, but also stimulates that of GH and TSH in this system, depending on its dose.
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PMID:Variety of GH and TSH responses to somatostatin in perfused rat pituitaries in vitro. 102 27

We evaluated serum alpha-subunit concentrations in 72 patients bearing pituitary adenomas. We conclude that: 1) alpha-subunit hypersecretion is found in all patients with TSH secreting pituitary adenoma (n = 10). Two patients have a predominant secretion of alpha-subunit as compared to TSH secretion. 2) As concerns gonadotropin secreting pituitary adenomas (n = 3), all patient have elevated serum alpha-subunit levels with increased FSH and LT concentrations in 2 cases and 1 case respectively. 3) In prolactinomas (n = 14), alpha-subunit concentrations are not significantly different from that of normal subjects. 4) In 11 acromegalic patients, alpha-subunit hypersecretion is found in 2 patients only with GH-alpha and GH-PRL-alpha secreting pituitary adenomas. 5) Among 34 patients with nonsecreting adenomas, 8 have elevated alpha-subunit concentrations (24%). Positive immunocytochemical staining is found in 70% most often with gonadotropins (55%). Only a few pituitary tumors with positive alpha-subunit immunocytochemical staining have elevated serum alpha-subunit levels. At least, the measurement of basal circulating alpha-subunit levels is very useful in the follow-up of patients with nonsecreting adenomas. In our study, medical treatments including bromocriptine and somatostatin analogues have been found effective in patients with alpha-subunit hypersecretion. Further investigations are necessary to prove if such treatments could control tumoral growth and could prevent recurrences.
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PMID:[Value of alpha subunit assay in pituitary pathology]. 128 29

The somatostatin (SS) analog octreotide has been successfully used in the treatment of (neuro)endocrine tumors. The mechanism of action of the tumor (growth) inhibitory action by octreotide is not fully understood. We have investigated the effect of octreotide on 7315b rat pituitary tumor cell growth, PRL release, and intracellular PRL concentrations in vitro. When cultured in medium with 10% fetal calf serum, the number of high affinity SS receptors increased with increasing culture time. On days 7, 14, and 21 of culture, the number of SS receptors amounted to 978 +/- 217, 3588 +/- 705, and 5865 +/- 3332 fmol/mg protein, respectively, whereas they were not measurable on day 0. From days 0-7, 7-14, and 14-21 of culture, octreotide (1 pM to 1 microM) inhibited PRL release and the intracellular PRL concentration, with IC50 values in the nanomolar range. However, no inhibition of cell growth was observed by these octreotide concentrations from day 0-7 of culture, while octreotide inhibited cell growth in a dose-dependent fashion from days 7-14 and 14-21 of culture (maximal inhibition by 25% and 26%, respectively). In a series of nine consecutive experiments we found a significant positive correlation between the percent inhibition of cell growth induced by 1 microM octreotide and the number of SS receptors on 7315b cells (r = 0.7865; P = 0.012). Inhibition of PRL release did not correlate with SS receptor numbers. Octreotide (1 microM) inhibited forskolin (0.5 microM)-stimulated cell growth and intracellular PRL concentrations, while in the presence of a high concentration of forskolin (10 microM), octreotide had no effect on forskolin-stimulated cell growth and intracellular PRL concentrations. In addition, its PRL release inhibitory effect was significantly lower in forskolin-stimulated cultures. Pretreatment of the cells with pertussis toxin (10 micrograms/liter) completely prevented the inhibition of cell growth by octreotide and diminished the inhibitory effect of octreotide on PRL release. Finally, 1 microM octreotide significantly inhibited forskolin-stimulated cAMP production (by 29% and 53% on days 7 and 14 of culture, respectively). We conclude that 1) octreotide inhibits 7315b rat pituitary tumor cell proliferation via a pertussis toxin-sensitive GTP-binding protein- and adenylate cyclase-dependent mechanism; and 2) the number of SS receptors on 7315b pituitary tumor cells may determine whether octreotide exerts a direct antiproliferative effect, whereas its antihormonal effect occurs in the presence of relatively low numbers of SS receptors. This suggests a dissociation of the antiproliferative and antihormonal effects induced by octreotide.
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PMID:Dissociation of antiproliferative and antihormonal effects of the somatostatin analog octreotide on 7315b pituitary tumor cells. 132 74


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