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)

The effects of rat growth hormone releasing factor (rGRF) on somatostatin (SRIF) secretion, cyclic nucleotide production and phosphatidylinositol metabolism were investigated in the median eminence (ME), using an in vitro system. Medium was discarded and replaced by medium containing various concentrations of rGRF or rGRF plus epinephrine (E, 6 x 10(-7) M). rGRF had no effect on basal or E-stimulated release of cAMP. In the same experiments rGRF markedly stimulated SRIF release. These results suggested that cAMP is not involved in the stimulatory effect of GRF on SRIF release. However, GRF significantly stimulated release of both SRIF and cGMP in a dose-related manner. Maximal stimulation was observed at 10(-10) M GRF (p less than 0.005) which also produces maximal SRIF release. 2'0-monobutyrylguanosine 3'5' cyclic phosphate (mbcGMP, 10(-11) to 10(-10) M) stimulated SRIF release from ME fragments (p less than 0.001 at 10(-10) M) whereas the control, sodium butyrate (10(-6) M), had no effect. GRF caused significant elevation of 30.6% in the concentration of labelled inositol phosphates [( 3H]-IPs) in the ME. These data indicate that GRF stimulation of SRIF release is accompanied by increased cGMP production and phosphatidyl-inositol (PI) metabolism but does not alter cAMP production. Because mbcGMP can directly stimulate SRIF release, we suggest that GRF causes a receptor-mediated increase in the metabolism of phosphatidylinositol and cGMP formation. These actions therefore may be among the early metabolic events in the mechanism of GRF-stimulated SRIF release from the ME.
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PMID:Rat growth hormone-releasing factor stimulates cyclic GMP formation and phosphatidylinositol metabolism in the median eminence. 167 56

The acute effects of i.v. somatostatin (250 mcg bolus followed by 250 mcg/h continuous infusion for two hours) on renal hemodynamics, renal electrolyte and water handling, and urinary excretion of catecholamines and prostaglandins, as well as on plasma concentrations of arginine vasopressin, atrial natriuretic factor, norepinephrine, epinephrine, dopamine, glucagon, and plasma renin activity were studied in seven normal subjects. Somatostatin decreased effective renal plasma flow and glomerular filtration rate, osmotic and free water clearances, urine volume, and sodium and potassium excretion, while urinary osmolality, fractional excretion of sodium, and phosphate excretion increased significantly. Plasma concentrations of arginine vasopressin, atrial natriuretic factor, norepinephrine, epinephrine, and dopamine remained unchanged, while plasma renin activity (3.0 +/- 0.25 vs 2.4 +/- 0.2 ng AngI/ml/h; p less than 0.01) and glucagon levels (40 +/- 11 vs 20 +/- 16 pg/ml; p less than 0.01) decreased. Urinary excretion of norepinephrine, epinephrine, dopamine, PGE2, and PGF2 alpha was suppressed under somatostatin. A significant positive correlation was found between urinary dopamine and sodium excretion (r = 0.7; p less than 0.001) and urinary prostaglandin E2 and glomerular filtration (r = 0.52; p less than 0.01). Without accompanying changes in plasma osmolality and vasopressin concentration significant antidiuresis occurred, suggesting a direct tubular effect of somatostatin. However, the hormone-induced changes are due mainly to the decrease in renal plasma flow. The results demonstrate that somatostatin at supraphysiological doses exerts significant effects on the kidney.
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PMID:Effect of somatostatin on kidney function and vasoactive hormone systems in health subjects. 168 Nov 32

We studied the effects of oxyntomodulin (OXM), of its C-terminal (19-37) fragment (OXM (19-37)) and of glucagon (GLU) on somatostatin release, cyclic AMP accumulation and inositol phosphate turnover in somatostatin-secreting RIN T3 cells in culture. Rapid changes in cellular free Ca2+ were also measured using fura-2. Carbachol was used as a control test agent for the parameters involving the inositol phosphate/Ca2+ cascade. OXM, GLU and OXM (19-37) were all able to stimulate somatostatin release with relative ED50 of approx. 1, 22 and 45, respectively. OXM and GLU stimulated cyclic AMP levels with relative ED50 of approx. 1 and 30, respectively, whereas OXM (19-37) was totally ineffective on this parameter. In contrast to carbachol, none of the peptides significantly modified the inositol phosphate turnover or induced rapid changes in cellular free Ca2+. We conclude that the RIN T3 cells contain a receptor-cyclic AMP system similar to that found in gastric mucosa and that this system is linked to somatostatin release. Another receptor-second messenger mechanism linked to somatostatin release is triggered by the (19-37) fragment. This mechanism is not the inositol phosphate/Ca2+ cascade triggered in the same cells by cholinergic agents.
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PMID:Oxyntomodulin and related peptides control somatostatin secretion in RIN T3 cells. 168 68

We studied the morphology and distribution of substance P-like immunoreactive elements in normal and Alzheimer's disease brain with a monoclonal anti-substance P antibody. Bands of prominent terminal-like staining were found in the dentate gyrus of normal brain. Multipolar substance P-immunoreactive neurons were seen in dentate polymorphic layer and CA4 and prominent fiber staining was present in the CA fields of the hippocampus and adjacent allocortex. Reactive perikarya, concentrated in deep cortex and infracortical white matter, were found in all isocortical regions. Greatest density was in frontal and parietal association cortex; lowest in visual cortex. Fiber density was generally greatest in layers I and II. In Alzheimer's disease, staining intensity was reduced in the dentate gyrus. Hilar neurons were unaffected but other CA field neurons were distorted with pruned dendritic trees. Isocortical perikarya and fibers were significantly depleted and distorted in all regions. Globular deposits consisting of distorted neurites or dissolving perikarya were frequently seen. Double staining methods showed that the vast majority of isocortical, but not hippocampal, substance P-like immunoreactive neurons are nicotinamide adenine dinucleotide phosphate diaphorase-positive. Despite the modest quantitative depletion of substance P in Alzheimer's disease cortex as measured by radioimmunoassay compared to somatostatin, there is a significant depletion of substance P-like immunoreactive perikarya. This disparity may be due to persistence of afferent projections which make a major contribution to substance P concentrations in cerebral cortex or to the high substance P content of dystrophic fibers in Alzheimer's disease cortex.
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PMID:Substance P-like immunoreactive neurons are depleted in Alzheimer's disease cerebral cortex. 171 54

A previous study has suggested the presence of two distinct binding sites for gasrin and cholecystokinin (CCK) in isolated non-parietal cells from rabbit gastric mucosa: a receptor which binds CCK-8 and CCK-39 with a high affinity and a receptor which binds gastrin and CCK-8 with the same high affinity and CCK-39 with a lower affinity. To characterize these receptors, their ability to induce phosphoinositide breakdown was investigated. Gastrin (HG-17), CCK-39 and CCK-8 induced [3H]-inositol phosphate ([3H]InsP) accumulation from [3H]inositol prelabelled cells with a high potency (EC50: 0.3-2.7 nM) but CCK-8 exhibited a higher efficacy than HG-17 or CCK-39. HG-17, CCK-8 and CCK-39 induced a rapid accumulation of [3H]inositol monophosphate ([3H]InsP1), [3H]inositol bisphosphate ([3H]InsP2) and [3H]inositol trisphosphate ([3H]InsP3) but CCK-8 caused a two times higher accumulation than HG-17 or CCK-39. Histamine- and somatostatin-containing cells appeared to be located in this non-parietal cells population. HG-17, CCK-8 and CCK-39 dose-dependently induced histamine release with the following order of potency: HG-17 = CCK-8 (EC50 approximately 0.2 nM) greater than CCK-39 (EC50 approximately 4 nM). In addition, HG-17 exhibited the highest efficacy. HG-17, CCK-8 and CCK-39 enhanced somatostatin-like immunoreactivity (SLI) release with the following order of potency: CCK-8 (EC50 approximately 0.1 nM) = CCK-39 greater than HG-17 (EC50 approximately 10 nM); CCK-8 and CCK-39 exhibited the highest efficacy. These results led us to the following conclusions: (i) existence of a "gastrin-type" and of a "CCK-type" receptor mediating phosphoinositide breakdown in these gastric non-parietal cells. CCK-8 interacts with both receptor-types with the same affinity; (ii) the release of histamine from histamine-containing cells could be induced following "gastrin-type" receptors activation; (iii) somatostatin release from D-cells present in this non-parietal cells population could be induced following "CCK-type" receptors activation.
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PMID:"Gastrin" and "CCK" receptors on histamine- and somatostatin-containing cells from rabbit fundic mucosa--I. Characterization by means of agonists. 171 75

In the preceding paper, by means of selective agonists to gastrin (HG-17) and cholecystokinin (CCK-39), we evidenced the existence of "gastrin-type" receptors that could regulate histamine release and "CCK-type" receptors that could stimulate somatostatin release in isolated rabbit fundic non-parietal cells (F1 cells). Furthermore, these receptors could induce phosphoinositide breakdown. To confirm the involvement of these receptor types in these biological and biochemical processes, we used selective antagonists, L-364,718 (3-(benzoylamino)-benzodiazepine) specific to "CCK-A-type" receptor and L-365,260 (3-(acylamino)-benzodiazepine) specific to "gastrin/CCK-B-type" receptor. Neither L-364,718 nor L-365,260 alone caused any significant stimulation of [3H]inositol phosphate ([3H]InsP) production and release of histamine or somatostatin-like immunoreactivity (SLI). Each analogue inhibited in a dose-dependent manner [125I]HG-17 or [125I]CCK-39 binding to F1 cells, [3H]InsP accumulation and histamine and SLI release stimulated by HG-17 or CCK-39. L-365,260 appeared to be 30-70 times more potent than L-364,718 in inhibiting [125I]HG-17 binding to F1 cells, as well as HG-17-induced [3H]InsP accumulation and HG-17-or CCK-39-enhanced histamine release (IC50 values: approximately 5-20 nM for L-365,260 and approximately 200-1500 nM for L-364,718). In contrast, L-364,718 was 200 to 400 times more potent than L-365,260 in inhibiting [125I]CCK-39 binding to F1 cells, CCK-39-induced [3H]-InsP accumulation and SLI release stimulated by CCK-39 or HG-17 (IC50 values: approximately 0.3-1 nM for L-364,718 and 100-200 nM for L-365,260). These results led to conclude: (i) the existence of a "gastrin-type" receptor related to histamine release: (ii) the existence of a "CCK-A-type" receptor related to somatostatin release; (iii) the existence of "gastrin type" and "CCK-A-type" receptors linked to the phosphoinositide breakdown pathway.
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PMID:"Gastrin" and "CCK" receptors on histamine- and somatostatin-containing cells from rabbit fundic mucosa-II. Characterization by means of selective antagonists (L-364,718 and L-365,260). 171 76

The effects of glucagon on water and electrolyte transport in the kidney were investigated on hormone-deprived rats, i.e. thyroparathyroidectomized diabetes insipidus Brattleboro rats infused with somatostatin. Glucagon consistently inhibited the reabsorption of water and Na+, Cl-, K+ and Ca2+ along the proximal tubule accessible to micropuncture, leaving the reabsorption of inorganic phosphate (Pi) untouched. In the loop, besides its previously described stimulatory effects on Na+, Cl-, K+, Ca2+ and Mg2+ reabsorption, glucagon strongly inhibited Pi reabsorption, very probably in the proximal straight tubule. These effects resulted in a significant phosphaturia and considerable reductions of Mg2+ and Ca2+ excretions. The effects of glucagon at both the whole kidney and the nephron levels are very similar to those previously described for calcitonin. In the absence of an adenylate cyclase system sensitive to glucagon and calcitonin in the rat proximal tubule, and from the analogy of their physiological effects with those elicited by parathyroid hormone, it is suggested that glucagon and calcitonin exert their inhibitory effects on Na and Pi reabsorption in the proximal tubule through another pathway, which could be the phosphoinositide regulatory cascade.
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PMID:Glucagon inhibits water and NaCl transports in the proximal convoluted tubule of the rat kidney. 177 68

Dietary phosphate restriction produces a rapid increase in tubular reabsorption of phosphate. To evaluate whether insulin is important in the acute renal adaptation following a low phosphate meal, four groups of conscious rats were studied by renal clearance methods, following a single meal by gavage. Group A received a normal (0.8%) phosphate meal, followed by saline infusion; Group B, a low (0.03%) phosphate meal, followed by saline infusion; Group C, a low phosphate meal, followed by infusion of somatostatin to suppress endogenous insulin secretion; and Group D, a low phosphate meal, followed by infusion of somatostatin plus insulin. Baseline plasma phosphate, insulin, glomerular filtration rate, and fractional excretion of phosphate were similar in all four groups. Following a low phosphate meal in Groups B, C, and D, there was a decrease in plasma phosphate, as compared with Group A. Whereas fractional excretion of phosphate decreased when plasma phosphate fell in Group B, administration of somatostatin (Group C) prevented the drop in fractional excretion of phosphate, despite a lower plasma phosphate. The addition of exogenous insulin (Group D) restored the antiphosphaturic effect of the low phosphate meal. These results suggest that insulin contributes to the acute decrease in phosphate excretion following a low phosphate meal.
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PMID:Insulin in the acute renal adaptation to dietary phosphate restriction in the rat. 196 63

Sex steroids have been shown to influence the secretion of GH. There appears to be no good evidence of the effect of estradiol on the anterior pituitary, while the central site of estradiol action on the regulation of GH secretion is not known. The present investigation was carried out to determine whether some of the GH-releasing factor (GRF) neurons and somatostatin (SRIF) neurons in the hypothalamus and GH cells in the pituitary contain estradiol receptors. Colocalization of [3H]estradiol and antibodies to GRF or SRIF in brain and antibodies to GH in pituitary was studied to show interrelationships between estrogen target cells and peptidergic cells. Eight female Sprague-Dawley rats were ovariectomized, each rat was treated with colchicine, and 24-48 h later the animals were given an iv injection of [2,4,6,7,16,17-3H]estradiol (SA, 166 Ci/mM) at a dose of 0.5 micrograms/100 g BW. One hour after the injection, the rats were perfused with 4% paraformaldehyde in 0.1 M phosphate buffer (pH 7.4). The hypothalami from the perfused rats and the pituitaries from unperfused rats were frozen in isopentane precooled in liquid nitrogen (-190 C) and processed for autoradiography. The brain autoradiograms were immunostained for GRF, SRIF, and tyrosine hydroxylase [TH; an enzyme for the synthesis of dopamine (DA)], and the pituitary autoradiograms were immunostained for GH by the avidin-biotin peroxidase method. The majority of GRF-containing neurons were found in the arcuate nucleus, with some scattered cells in the lateral region of the ventromedial nucleus and the basal lateral hypothalamus. In the central portion of the arcuate nucleus, 20-30% of GRF-containing neurons showed nuclear concentration of [3H]estradiol. In the anterior portion of the hypothalamus, 10-15% of immunoreactive GRF-containing neurons were labeled with [3H]estradiol. In the lateral basal hypothalamus and the lateral region to the ventromedial nucleus, a few GRF neurons showed nuclear concentration of radioactivity. In contrast, a few SRIF cells in hypothalamic periventricular nucleus showed nuclear labeling with [3H]estradiol. Dual immunostaining with GRF and TH antibodies revealed that the estradiol-labeled GRF neurons did not contain TH immunoreactivity. In addition, 80-90% of GH cells in the anterior pituitary showed nuclear concentration of [3H]estradiol. The present studies demonstrate for the first time that certain populations of GRF neurons are targets for estradiol and indicate that estradiol acts directly on certain hypothalamic GRF neurons. The results suggest that estradiol may have a role in the regulation of GH secretion by modulating GRF release and acting directly on the somatotrophs.
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PMID:Evidence for direct action of estradiol on growth hormone-releasing factor (GRF) in rat hypothalamus: localization of [3H]estradiol in GRF neurons. 197 21

The M-current (IM) is a time- and voltage-dependent K+ current that persists at slightly depolarized membrane potentials. IM is reduced by muscarinic cholinergic agonists and certain peptides, and is thought to be responsible in part for the slow and late slow excitatory postsynaptic potentials in sympathetic neurons. Recently, we reported that IM in hippocampal neurons was also augmented by somatostatin-14 and -28 suggesting that two different receptors reciprocally regulate one neuronal channel type. Muscarinic effects on IM may be mediated by various components of the phosphatidylinositol phosphate pathway. We now report the involvement of a different second messenger pathway, that generated by phospholipase A2, in the somatostatin-induced augmentation of IM in hippocampal cells. This pathway generates arachidonic acid from which leukotrienes can be produced by lipoxygenases. We find that the IM-augmenting effects of somatostatin are abolished by two substances that can inhibit phospholipase A2, quinacrine and 4-bromophenacyl bromide, and that both arachidonic acid and leukotriene C4 mimic the effects of somatostatin-14 on hippocampal pyramidal neurons in vitro. Arachidonic and somatostatin effects are blocked by a lipoxygenase inhibitor, implicating an arachidonic acid metabolite, perhaps a leukotriene, in the somatostatin effect.
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PMID:Arachidonic acid metabolites as mediators of somatostatin-induced increase of neuronal M-current. 197 33


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