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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The classical neurotransmitter acetylcholine (ACh) and the potential modulatory peptide
somatostatin
are colocalized in terminals of avian choroid neurons. We previously showed that exogenous
somatostatin
inhibits ACh release in the choroid coat (Gray et al., 1989b). In the present work we determine whether endogenous
somatostatin
plays a role in neuromodulation and what mechanisms are involved. To determine its role and its mode of secretion, voltage-sensitive Ca2+ channels in these terminals were identified pharmacologically using Ca2(+)-dependent K(+)-evoked ACh release. Release of the primary transmitter ACh was triggered in the presence of high K+ by Ca2+ influx primarily via dihydropyridine (DHP)-insensitive channels, while inhibition of ACh release occurred when L-type channels were activated by the DHP agonist Bay K 8644. The
somatostatin
antagonist cyclo(7-aminoheptanoyl-phe-D-trp-lys-
thr
(BZL)) (CyCam) blocks the inhibition of ACh release induced by the agonist Bay K 8644 and indicates that endogenous
somatostatin
may normally modulate ACh release. Additionally, nifedipine, a DHP antagonist, and pertussis toxin, known to antagonize
somatostatin
's effect on ACh release, both reverse the Bay K 8644 effect on ACh release. Although the release of labeled ACh in the first 3 min collection period was not significantly affected by CyCam or nifedipine alone, release in the first minute was enhanced by 50% in the presence of 10 microM nifedipine. Preincubation with CyCam alone also increased ACh release. These results support the hypothesis that endogenous
somatostatin
is physiologically released during the initial minute of depolarization in high K+ and that this release is mediated by DHP-sensitive Ca2+ channels.
...
PMID:Endogenous modulation of ACh release by somatostatin and the differential roles of Ca2+ channels. 169 82
An in vitro perifusion system for bovine hypothalamic tissue was used to determine if growth hormone-releasing hormone (GHRH) and
somatostatin
(SRIF) modulate each other's release, and whether SRIF mediates D1-agonist-induced suppression of GHRH in cattle. Up to three sagittal slices (600 microns) of bovine hypothalamus, immediately parallel++ to the midline, were cut in an oxygenated balanced salt solution at 4 degrees C, placed in 5 cc syringe barrels, and perifused at 37 degrees C with oxygenated minimum essential medium-alpha at a flow rate of 0.15 ml/min. Three experiments were conducted, and medium effluent was collected every 20 min before (two samples), during (one or three samples), and after (six samples) treatment. Areas under GHRH and SRIF response curves (AUC), adjusted by covariance for pretreatment values, were calculated from samples collected during the treatment/post-treatment period. Perifusion of SRIF at 10(-6) M and 10(-4) M decreased AUC for GHRH from 86.3 (control) to 65.4 and 59.5 +/- 6.3 ng.ml-1 min, but 10(-8) M SRIF was ineffective. Relative to controls, 10(-8).10(-6), and 10(-4) M GHRH increased release of SRIF 190, 675, and 1,135%, respectively. Activation of D1 receptors with 10(-6) M SKF 38393 increased AUC for SRIF from 12.5 ng.ml-1 min (control) to 484.9 ng.ml-1 min and decreased AUC for GHRH from 36.4 ng.ml-1 min (control) to 18.2 ng.ml-1 min. Blockade of SRIF action with a SRIF antagonist, cyclo-[7-aminoheptanoyl-phe-D-trp-lys-
thr
(bzl)], increased release of GHRH 1.9-fold. In addition, the SRIF antagonist blocked SKF 38393-induced suppression of GHRH. We concluded that GHRH and SRIF interact within the bovine hypothalamus/pituitary stalk to modulate the release of the other. Moreover, SRIF mediates the inhibitory effects of activation of D1 receptors on release of GHRH in cattle.
...
PMID:Regulation of growth hormone-releasing hormone and somatostatin from perifused, bovine hypothalamic slices. III. Reciprocal feedback between growth hormone-releasing hormone and somatostatin. 934 56
In order to study the role of endogenous
somatostatin
in the physiologic modulation of REM sleep (REMS), we measured the effect of intracerebroventricular (ICV) injection of
somatostatin
antagonist (SA) cyclo-(7-aminoheptanoyl-phe-d-trp-lys-
thr
(bzl)) on sleep in rats. The effect of ICV SA was also tested after 24-h REMS deprivation with the platform method. To study the role of locus coeruleus (LC) as a site of the sleep inducing action for
somatostatin
and galanin we microinjected SA,
somatostatin
, and galanin locally into LC. In all experiments, vigilance state was analyzed visually from 6 h post-injection EEG/EMG recording. Injection of 0.5 and 2 nmol of SA ICV reduced spontaneous REMS and 2 nmol dose reduced also rebound REMS after REMS deprivation when compared with controls (artificial cerebrospinal fluid vehicle). Microinjection of 0.25 nmol of SA into LC reduced REMS, whereas microinjection of
somatostatin
, galanin, and a combined injection of them were not effective to induce REMS. The results suggest that endogenous
somatostatin
may contribute to facilitation of REMS.
Somatostatin
receptors in the LC may be one possible mediator of this effect.
...
PMID:Intracerebroventricular and locus coeruleus microinjections of somatostatin antagonist decrease REM sleep in rats. 1097 9
Somatostatin
is synthesized and released by aspiny interneurons of the neostriatum. This work investigates the actions of
somatostatin
on rat neostriatal neurons of medium size (ca. 6 pF).
Somatostatin
(1 microM) reduces both calcium action potentials (20 mM tetraethylammonium) by ca. 24% and calcium currents by ca. 35%, in all cells tested. This action was produced in the presence of tetrodotoxin and in dissociated cells and was blocked by cyclo(-7-aminoheptanoyl-phe-d-try-lys-O-benzyl-
thr
) acetate (CPP-1), a somatostatin receptor antagonist. Except for nitrendipine (5 microM), several calcium channel antagonists, 1 microM omega-conotoxin GVIA, 400 nM omega-agatoxin TK, and 1 microM omega-conotoxin MVIIC, partially occluded
somatostatin
action. According to the calcium channel types known to be blocked by these antagonists, P/Q-type channels appeared to be the channels mainly modulated by
somatostatin
, followed by N-type channels. Since these channel types generate the afterhyperpolarizing potential in spiny neurons, we investigated the action of
somatostatin
on this event.
Somatostatin
reduces the amplitude of the afterhyperpolarizing potential by ca. 39%. This action is occluded by omega-agatoxin TK and omega-conotoxin MVIIC but not by omega-conotoxin GVIA or nicardipine. Thus, the action of
somatostatin
on the afterhyperpolarizing potential is mainly mediated by P/Q-type calcium channels. The block of the slow afterhyperpolarizing potential made most neurons exhibit an irregular firing mode, suggesting that ion currents other than calcium may also be affected by
somatostatin
. We conclude that
somatostatin
exerts a direct postsynaptic effect on neostriatal neurons via the activation of
somatostatin
receptors. This action affects non-L-type calcium channels and therefore modifies the afterhyperpolarizing potential and the firing pattern. It is proposed that
somatostatin
and its analogues may have profound effects on the motor functions controlled by the basal ganglia.
...
PMID:Somatostatin modulates Ca2+ currents in neostriatal neurons. 1182 66
