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)

Under conditions in which vasoactive intestinal peptide (VIP) induces somatostatin release from cortical and diencephalic neuronal cultures, VIP causes large increases in intracellular cyclic AMP. Both the release of somatostatin and the increase in cyclic AMP elicited by VIP require exogenous calcium, can be blocked by cobalt ion, and can be qualitatively mimicked by depolarizating concentrations of exogenous potassium ion. Direct activation of adenylate cyclase by forskolin causes large increases in cyclic AMP content but does not induce somatostatin release. In the absence of VIP, the calcium ionophore, ionomycin, and the phorbol ester, phorbol 12-myristate-13-acetate, also stimulate somatostatin release. These results indicate that VIP-stimulation of cyclic AMP formation and VIP-stimulation of somatostatin release are calcium-dependent and that the two phenomena are dissociatable. Cyclic AMP formation is not a necessary condition for VIP-induced somatostatin release. Nucleotide formation may be a sufficient condition for release or, possibly in association with calcium influx, it may be an event unrelated to the release process.
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PMID:Adenylate cyclase activation is not sufficient to stimulate somatostatin release from dispersed cerebral cortical and diencephalic cells in glia-free cultures. 245 21

1. Somatotroph cells were obtained from pituitaries of adult male rats by dissociation, separation and enrichment on a continuous gradient of bovine serum albumin at unit gravity. They were kept in culture for 7-15 days before electrophysiological experiments. 2. Immunofluorescent staining of the resulting gradient fractions (numbered F2 to F9) indicated that the majority of somatotrophs (75-85%) were located in the heavy fractions (F8 and F9). However, a small percentage (15-20%) of cells in these fractions were identified as lactotrophs. 3. Perifusion experiments indicated that on the one hand release of growth hormone from somatotroph-enriched fractions was stable at the level of 6 ng (2 min)-1 (10(6) cells)-1 and was markedly inhibited by somatostatin (1.9 ng (2 min)-1 (10(6) cells)-1) but not by dopamine. On the other hand, in the same cell preparations, basal prolactin release (1.6 ng (2 min)-1 (10(6) cells)-1) was significantly reduced by dopamine (0.08 ng (2 min)-1 (10(6) cells)-1) but remained unchanged by somatostatin treatment. 4. The inhibitory effect of somatostatin on growth hormone release was dose dependent. This effect was not abolished by tetraethylammonium (40 mM) or 4-aminopyridine (5 mM), but somatostatin decreased high-potassium-induced release. 5. In all the cells recorded (n = 187), 14% (n = 26) displayed a low resting potential (less than -30 mV) and poor membrane resistance (less than 50 M omega). The recording was unstable and resting potentials decreased regularly to 0 mV in less than 5 min. The other 86% of the cells displayed resting potentials varying from -45 to -65 mV and had a membrane resistance of more than 150 M omega. Only cells which displayed these membrane characteristics showed clear responses to somatostatin or dopamine, and were therefore chosen for experiments. 6. In all the cells selected for the experiments (n = 161), 78% (n = 126) showed either triggered or spontaneous action potentials. The action potentials remained insensitive to sodium-free bath solution, but were reversibly blocked by the calcium channel blockers cobalt (5 mM) or nickel (5 mM). 7. When the cells were at resting potential, somatostatin induced a hyperpolarizing response associated with a decrease of membrane resistance. During this response, spontaneous or triggered action potentials were inhibited. The hyperpolarizing response induced by somatostatin was dose-dependent.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Electrophysiological responses to somatostatin of rat hypophysial cells in somatotroph-enriched primary cultures. 257 Aug 71

We have characterized specific receptors for tetradecapeptide somatostatin (SS-14) of rat brain using 125I-labeled Tyr11-SS-14([125I-Tyr11]SS-14) as radioligand. [125I-Tyr11]SS-14 binding was sensitive to time, pH, temperature and ionic strength of the buffer, and was optimal in 50mM HEPES/KOH buffer, pH 7.5, at 25 degrees C for 60 minutes. Scatchard analysis indicated that the rat forebrain membranes had a single binding site with an apparent dissociation constant (Kd) of 0.522 +/- 0.044 nM and maximum binding capacity (Bmax) was 233 +/- 37 fmol/mg protein (mean +/- SEM). Ca2+, Mg2+, Mn2+ and Co2+ had a significant effect on the specific binding, which indicates that these metal ions might affect somatostatin receptor activity in the brain. Among CNS acting drugs, Ca2+ antagonists, antischizophrenic drugs, antidepressants and anticholinergic drugs had relative effects on [125I-Tyr11]SS-14 bindings to rat cerebral cortex membranes.
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PMID:Biochemical and pharmacological characterization of somatostatin receptors in rat brain. 257 1

The in vitro effects of human growth hormone releasing factor (hGRF, 1-44) were studied in somatotroph-enriched cultures (75-85%) obtained from adult male rat pituitaries. Cells perifused with hGRF showed an up to 800% increase in growth hormone (GH) release over basal values in a dose-dependent manner. Calcium current blockers (5 mM of Co2+, Ni2+ or Cd2+) completely inhibited this stimulating effect but sodium-free (choline) medium did not. Using a single-intracellular-electrode recording technique, it was found that hGRF induced a dose-dependent depolarizing response concomitant with a decrease in membrane resistance in 38% of the cells recorded (98 of 258 cells). The reversal potential of this response was close to -40 mV. This depolarizing response was recorded in both excitable and unexcitable cells with no marked difference. Co2+ and Ni2+ (5 mM) completely and reversibly inhibited the membrane response to hGRF. Application of hGRF and somatostatin (SRIF), a hormone that inhibits GH release, to the same cell cultures showed the existence of two subpopulations: one was responsive to both hGRF and SRIF (53%, n = 62), another was only responsive to SRIF (47%, n = 62). Human GRF did not affect prolactin release and did not modify the electrical properties of cells responding to dopamine and therefore considered as lactotrophs. These results suggest that (1) hGRF leads to an increase in growth hormone release and a modification of membrane electrical properties by means of an extracellular Ca2+-dependent pathway, and (2) according to their responses to SRIF and hGRF, there are at least two subpopulations of somatotrophs.
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PMID:Electrophysiological responses of rat pituitary cells in somatotroph-enriched primary culture to human growth-hormone releasing factor. 257 14

Membrane electrical properties and the response to somatostatin were examined in dissociated human pituitary adenoma cells that secrete growth hormone (GH). Under current clamp condition with a patch electrode, the resting potential was -52.4 +/- 8.0 mV, and spontaneous action potentials were observed in 58% of the cells. Under voltage clamp condition an outward K+ current, a tetrodotoxin-sensitive Na+ current, and a Ca2+ current were observed. Cobalt ions suppressed the Ca2+ current. The threshold of Ca2+ current activation was about -60 mV. Somatostatin elicited a membrane hyperpolarization associated with increased membrane permeability in these cells. The reversal potential of somatostatin-induced hyperpolarization was -78.4 +/- 4.3 mV in 6 mM K+ medium and -97.2 +/- 6.4 mV in 3 mM K+ medium. These reversal potential values and a shift with the external K+ concentration indicated that membrane hyperpolarization was caused by increased permeability to K+. The hyperpolarized membrane potential induced by somatostatin was -63.6 +/- 5.9 mV in the standard medium. This level was subthreshold for Ca2+ and Na+ currents and was sufficient to inhibit spontaneous action potentials. Hormone secretion was significantly suppressed by somatostatin and cobalt ions. Therefore, we suggest that Ca2+ entering the cell through voltage-dependent channels are playing an important role for GH secretion and that somatostatin suppresses GH secretion by blocking Ca2+ currents. Finally, we discuss other possibilities for the inhibitory effect of somatostatin on GH secretion.
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PMID:Hyperpolarization of the membrane potential caused by somatostatin in dissociated human pituitary adenoma cells that secrete growth hormone. 287 59

AtT20/D16v is a clonal strain of mouse pituitary tumor cells which synthesizes and secretes ACTH. Somatostatin, a hypothalamic tetradecapeptide, has been shown to inhibit the release of PRL, GH, and TSH from the pituitary gland. We have characterized specific binding sites for somatostatin on AtT20/D16v cells and demonstrate that somatostatin inhibits stimulated ACTH release by these cells. Equilibrium binding studies with [125I]Tyr1]somatostatin showed the presence of a single class of noninteracting binding sites on AtT20/D16v cells. Half-maximal binding of somatostatin occurred at 1.7 X 10(-9) M, and there were 26,300 binding sites/cell. The binding of [125I]Tyr1]somatostatin was not significantly inhibited by the hypothalamic peptides TRH, LHRH, and substance P. Somatostatin had no consistent effect on basal ACTH secretion by AtT20/D16v cells, but it inhibited ACTH secretion stimulated with either 50 mM KCl or a hypothalamic extract. Half-maximal inhibition occurred with 4 X 10(-10) M somatostatin. TRH, LHRH, and substance P at concentrations of 10(-7) M were without effect. Somatostatin had no effect on either basal or stimulated hormone secretion by GH12C1 or F4C1 cells, two cell strains which lack specific somatostatin-binding sites. A critical concentration of extracellular calcium was required for the stimulation of ACTH secretion in AtT20/D16v cells. No response to 50 mM KCl occurred in the presence of EGTA or cobalt. Increased extracellular calcium overcame the inhibition of stimulated hormone secretion by EGTA, cobalt, and somatostatin. Therefore, we conclude that the inhibition of stimulated ACTH secretion by somatostatin involves the interaction of the peptide with specific binding sites on AtT20/D16v cells and the inhibition of stimulus-elicited calcium influx.
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PMID:Inhibition of adrenocorticotropin secretion by somatostatin in pituitary cells in culture. 610 20

The influence of membrane depolarization on somatostatin release from cerebral cortical neurons was examined. Fetal rat telencephalic cells, obtained by mechanoenzymatic dispersal, were maintained as organotypic monolayer cultures for 12 days before experimental studies. The immunoreactive somatostatin (IRS) released into the medium during a treatment epoch was compared to the amount released from the same cells during an immediately preceding control period. Potassium (60 mM) induced an increase in IRS secretion which was dependent on extracellular calcium concentration and could be prevented by the addition of the calcium channel blockers, cobalt or verapamil. Depolarization by veratridine, a sodium ionophore, also stimulated IRS release. The effect of veratridine was reversed by simultaneous exposure of the cells to either tetrodotoxin, a sodium channel blocker, or verapamil, a calcium channel blocker. These findings indicate that IRS release by cerebral cortical cells is stimulated by membrane depolarization and is dependent on both Na+ and Ca++ entry into the cells.
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PMID:Sodium- and calcium-dependent somatostatin release from dissociated cerebral cortical cells in culture. 612 71

Regulation of somatostatin (SS) secretion was studied in an in vitro system using collagenase-dispersed cells from fetal rat hypothalamus maintained in long term monolayer culture. Cultured cells exhibit a measurable basal secretion of immunoactive SS (SSLI) which can be augmented by carbachol, acetylcholine, or oxotremorine. The EC50 for carbachol is about 1 microM. Atropine, but not hexamethonium, antagonizes the action of cholinergic agonists. Cobalt or tetrodotoxin pretreatment diminishes basal secretion and eliminates the response to carbachol. Serotonin, several serotonin agonists, and gamma-aminobutyric acid (GABA) suppress carbachol-induced secretion. The GABA blockers bicuculline or picrotoxinin reverse the effect of added GABA and by themselves also augment SSLI secretion. Picrotin is inactive. The direct response to either bicuiculline or picrotoxinin is prevented by cobalt or tetrodotoxin treatment. These observations are consistent with the presence of a muscarinic cholinergic receptor which acts by a mechanism depending on an action potential and calcium influx to enhance the release of SSLI from neurosecretory cells. The data also support the conclusion that GABAergic transmission occurs within the cultures to tonically inhibit SSLI secretion. GABAergic, cholinergic, and serotoninergic systems may thus interact at the level of the hypothalamus to modulate SS secretion in vivo and thereby influence anterior pituitary release of GH and TSH.
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PMID:Muscarinic cholinergic stimulation of somatostatin secretion from long term dispersed cell cultures of fetal rat hypothalamus: inhibition by gamma-aminobutyric acid and serotonin. 612 32

Preganglionic neurons in the lower lumbar spinal cord were labeled with horseradish peroxidase applied to the cut ends of the intermesenteric trunk in golden hamsters. A black granular reaction product was obtained in HRP-labeled cells by soaking spinal cord tissue in a cobalt chloride solution prior to treatment with diaminobenzidine (DAB) and hydrogen peroxide. Spinal cord sections containing labeled preganglionic neurons were processed with the immunoperoxidase (PAP) technique. Immunoreactive processes appeared as rust-brown beads. Concentrations of beaded processes exhibiting enkephalin-like, substance P-like (SPI) and somatostatin-like (SOMI) immunoreactivity were present around HRP-labeled preganglionic neurons in the intermediolateral cell column and in the dorsal commissural nucleus. Immunoreactivity was also present in the superficial dorsal horn, the dorsolateral funiculus and around the central canal. A prominent fiber system exhibiting SPI and SOMI extended from the ventral white matter to the ventral horn.
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PMID:Leu-enkephalin, substance P, and somatostatin immunohistochemistry combined with the retrograde transport of horseradish peroxidase in sympathetic preganglionic neurons. 618 92

Phorbol diester tumor promoters are potent cocarcinogens which also possess activity in a variety of biological assays. We have examined the effect of phorbol diesters on secretion of somatostatin-like immunoactivity (SRIF-LI) by dispersed cells of fetal rat brain maintained in long term culture. Phorbol-12-myristate-13-acetate (PMA) and phorbol 12, 13-dibutyrate stimulate SRIF-LI secretion in a dose-dependent fashion. 4-O-Methyl-PMA is approximately 100 times less potent than phorbol 12, 13-dibutyrate. 4-beta-Phorbol was inactive. Treatment with a nonphorbol irritant, teleocidin, also was associated with significantly augmented release of SRIF-LI. Significant stimulation is seen within 7.5 min of treatment and response is linear over 1 h. Administration of phorbol diesters in low calcium buffer (0.1 mM) with or without cobalt or pretreatment with verapamil are associated with significantly diminished secretion. Substitution for sodium ion by choline or pretreatment with tetrodotoxin (10(-7) M) also inhibits response to PMA. gamma-Aminobutyric acid (50 microM) or the gamma-aminobutyric acid agonist muscimol (5 microM) decrease response to PMA as does sodium pentobarbital (IC50 approximately 30 microM). Phenobarbital is less potent as an inhibitor; significant suppression is not seen until approximately 300 microM. The data are consistent with an action for phorbol diesters mediated at least in part by voltage dependent sodium channels and calcium influx into excitable cells. Inhibition by hyperpolarizing agents is compatible with this mechanism. Phorbol diesters may thus mimic endogenous modulator substances active at the nerve cell membrane.
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PMID:Phorbol diesters stimulate somatostatin secretion from cultured brain cells. 640 21

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