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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The free intracellular calcium ion concentration ([Ca2+]i) was measured in single cells of a population containing 65-80% somatotrophs, using the fluorescent Ca(2+)-indicator Fura-2 and digital imaging microscopy. Spontaneous oscillations in [Ca2+]i ranging in frequency up to 1.5 oscillations per minute were observed in 30% of somatotrophs. These Ca2+ oscillations were blocked by the Ca2+ channel blocker
CoCl2
and were thus proposed to be the result of influx of Ca2+ into the cell, possibly as the result of spontaneous electrical activity. GHRH (10-100 nM) increased [Ca2+]i in 61% of the cells studied, although the amplitude and dynamics of the response varied from cell to cell. Typically [Ca2+]i rose from 170 +/- 26 nM to 321 +/- 44 nM (n = 13) in response to a challenge with 66 nM GHRH. GHRH also increased the frequency of Ca2+ oscillations in a number of cells, and some previously quiescent cells showed Ca2+ oscillations following addition of GHRH. Forskolin, which raises cAMP levels in bovine anterior pituitary cells, also stimulated a sustained rise in [Ca2+]i in 10 out of 14 cells tested.
Somatostatin
(SS) (10-80 nM) rapidly reduced basal [Ca2+]i, blocked Ca2+ oscillations, and blocked the [Ca2+]i response to GHRH. The Ca2+ channel blocker
CoCl2
(4 mM) had similar actions on [Ca2+]i to those of SS. These results suggest that GHRH and SS may regulate GH release by modulating Ca2+ entry into the cell through the cell membrane. The [Ca2+]i oscillations seen in a proportion of the somatotrophs were modulated in frequency by GHRH and SS, and are probably generated by influx of Ca2+ through channels in the cell membrane. Thus GH secretion may be regulated by changes in the mean level of [Ca2+]i, which in turn, may be influenced by the frequency of [Ca2+]i oscillations in bovine somatotrophs.
...
PMID:Calcium homeostasis in bovine somatotrophs: calcium oscillations and calcium regulation by growth hormone-releasing hormone and somatostatin. 167 76
1. Preliminary, general chemical characteristics of substances in artificial sea water (ASW) washed through stimulated body wall (SBW) and in hemolymph taken from noxiously stimulated animals (SHL) were consistent with those of classical neurotransmitters, amino acids, and small- to medium-sized peptides. 2. 5-Hydroxytryptamine (5HT) and acetylcholine (ACh), unlike SBW and SHL, caused relaxation when perfused into isolated body wall. FMRFamide produced a biphasic response--brief contraction followed by prolonged relaxation. 3. Small cardioactive peptide (SCPB) caused body wall contractions similar to those produced by SBW and SHL, except that SCPB contractions displayed more desensitization and were completely blocked by 30 mM
CoCl2
. SCPB and SBW contractions were synergistic. 4. Dopamine caused persistent body wall contractions similar to those of SBW and SHL. Dopamine contractions were reduced but not blocked by 30 mM
CoCl2
. Unlike SBW activity, dopamine activity was reduced by alkalinization. 5. Glutamate and taurine produced strong but usually short-lasting body wall contractions. Adenosine, octopamine, arginine vasotocin, and cholecystokinin (CCK-8) caused weak or variable contractions. Met-enkephalin and
somatostatin
caused no obvious body wall responses. 6. When superfused over the fully sheathed abdominal ganglion, FMRFamide, met-enkephalin, glutamate, aspartate, and taurine reduced the magnitude of the gill-withdrawal reflex elicited by siphon nerve stimulation. 7. Taken together with earlier results, these data suggest a preliminary framework for trauma signal pathways. It is proposed that stress hormones (perhaps including FMRFamide, SCPs, 5HT, and dopamine) are released into hemolymph from neuroendocrine cells. Effective amounts of active intracellular solutes such as amino acids may also be released by extensive cellular rupture. Various humoral signals produce slow effects that contribute to hemostasis, balling up, increased cardiac output, and reflex suppression.
...
PMID:Humoral factors released during trauma of Aplysia body wall. II. Effects of possible mediators. 276 Feb 88
Growth hormone (GH) secretion by the somatotrope is under dual regulation by the hypothalamic peptides,
somatostatin
(SS) and GH-releasing hormone (GHRH). Cytosolic free calcium concentration and cumulative GH release were measured simultaneously in anterior pituitary cells from adult male rats. This was made possible using a combination of digital imaging video microscopy with the fluorescent calcium indicator Fura-2 and the reverse haemolytic plaque assay (RHPA) to identify the cell type and measure hormone secretion from the cells under study. This technique allows calcium measurements to be made at very short time intervals (less than 150 ms) in single cells. Spontaneous calcium transients were demonstrated in 85% of GH plaque-forming cells. These occurred at a frequency of 2-13 min-1 and had an amplitude of 50-500 nmoll-1. The somatotropes with the largest calcium fluctuations produced the largest plaques; thus, the calcium transients appeared to correlate with hormone release. Since the somatotrope alone shows these fluctuations, the mean intracellular calcium concentration is 238 +/- 18 nmoll-1 in somatotropes and 113 +/- 8 nmoll-1 in non-somatotropes. Upon exposure to SS (1 nmoll-1) intracellular calcium fell from 200-250 nmoll-1 to 50-100 nmoll-1 with an apparent reduction in oscillations. Withdrawal of SS increased the intracellular calcium level. GHRH increased intracellular calcium but 10 nmoll-1 GHRH given simultaneously with 1 nmoll-1 SS reduced intracellular calcium to that level observed during SS alone. Thus, the SS effect on intracellular calcium predominates. The effects of SS can be mimicked by removal of extracellular calcium, or by the addition of
CoCl2
(2 nmoll-1) or by verapamil (100 mumoll-1), two agents which block calcium channels. The hormone secretion index (indicated by the area of the plaque formed in RHPA) enables us to demonstrate that GHRH in this system increases GH secretion, and SS inhibits it. In combination, GHRH and SS oppose one another. Spontaneous calcium oscillations are characteristic for normal somatotropes. These oscillations are related to spontaneous hormone secretion and due to influx of calcium through ion channels in the membrane. Intracellular signalling information may be encoded in both frequency and amplitude of calcium oscillations. The actions of GHRH and SS on regulation of GH secretion are proposed to be mediated, at least in part, by regulation of intracellular cytosolic free calcium. This modulation is dependent on extracellular calcium concentrations. We are now investigating the molecular mechanisms involved in this process.
...
PMID:The somatotrope: an endocrine cell with functional calcium transients. 290 79
Growth hormone (GH) release from Rat pituitary cell monolayers in response to synthetic somatocrinin (7.8 to 1,000 pmol/l) is paralleled with an increase in cellular cyclic AMP (cAMP) content and efflux of cAMP in the extracellular medium.
Somatostatin
and blockers of calcium-dependent cellular mechanisms inhibit somatocrinin-induced GH release but only partially decrease (
somatostatin
,
CoCl2
) or even increase (trifluoperazine) cAMP levels. Thus, calcium is required for somatocrinin action and GH release is not simply dependent on stimulation of cAMP metabolism.
...
PMID:[Roles of cyclic AMP and calcium in the mechanism of the release of growth hormone by somatocrinin]. 609 53
The stimulation of GH secretion from the anterior pituitary by synthetic GRF (hpGRF) is associated with a rapid increase in cAMP production. Within 5 min of the addition of 1 nM hpGRF to cultured rat anterior pituitary cells, intracellular cAMP levels are elevated 6-fold, with a maximal response being observed at 30 min. cAMP accumulation in the extracellular medium is also enhanced by this peptide. Comparison of the two cellular responses (GH secretion and cAMP formation) at various concentrations of hpGRF indicates that 10 times more hpGRF is required to obtain half-maximal stimulation of cAMP production than for GH secretion.
Somatostatin
totally blocks hpGRF-stimulated GH release, but only partially attenuates cAMP production in the presence or absence of a phosphodiesterase inhibitor. Verapamil also inhibits GH release in response to hpGRF, but, unlike
somatostatin
, this effect is not associated with an attenuation of cAMP production. In fact, intracellular cAMP levels are slightly augmented in the presence of verapamil, indicating that Ca2+ is required for hormone release but not for the activation of adenylate cyclase. Consistent with this is the observation that the release of GH due to 8-bromo-cAMP is also blocked by verapamil. A requirement for Ca2+ is further indicated by the inhibitory effects of
CoCl2
and CdCl2 on both basal and hpGRF-stimulated GH release. These results suggest that cAMP may play a role as an intracellular mediator of GRF action in somatotrophs and that Ca2+ is required for the release process.
Somatostatin
may exert its inhibitory effects on GH secretion either by interfering with cAMP production or by an action on the secretory process subsequent to cAMP production.
...
PMID:Stimulation of adenosine 3',5'-monophosphate production by growth hormone-releasing factor and its inhibition by somatostatin in anterior pituitary cells in vitro. 619 79
