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)

Glutamate and GABA content in different regions of adult female rat brain were determined at 10 and 30 min following intraventricular injection of LHRH or somatostatin. Cerebral cortex, cerebellar and hypothalamic glutamate levels were significantly elevated at 30 min following injection of 1 micrograms somatostatin, whereas hypothalamic glutamate levels were elevated at 10 min following a 0.5 micrograms dose. LHRH at a dose of 1 micrograms elevated cerebellar and brain stem glutamate levels at 10 and 30 min, whereas a 0.5 micrograms dose significantly elevated cerebral cortex, cerebellar and hypothalamic glutamate levels at 30 min. Third ventricular injection of 1 micrograms somatostatin produced a significant decrease in hypothalamic GABA levels at 10 and 30 min, whereas a 0.5-microgram dose decreased brain stem GABA levels at 10 min. LHRH at a dose of 0.1 microgram significantly increased cerebral cortex and cerebellar GABA levels at 10 min and brain stem GABA levels at 10 and 30 min following injection. Intraventricular injection of LHRH at a dose of 0.5 microgram significantly elevated cerebral cortex, cerebellar and brain stem GABA levels at 30 min. Hypothalamic GABA levels were elevated at 10 and 30 min following 0.5 and 1 microgram intraventricular LHRH injection. The implications of these results are discussed in relation to probable interaction between these neuroactive amino acids and neuropeptides in the rat brain.
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PMID:Acute and short-term effects of intraventricular injection of somatostatin and LHRH on glutamate and GABA levels in rat brain. 135 1

Glutamate and several neuropeptides are synthesized and released by subpopulations of primary afferent neurons. These sensory neurons play a role in regulating the inflammatory and immune responses in peripheral tissues. We have explored what changes occur in the location and concentration of receptor binding sites for sensory neurotransmitters in two human inflammatory diseases, ulcerative colitis and Crohn's disease, using quantitative receptor autoradiography. The sensory neurotransmitter receptors included bombesin, calcitonin gene-related peptide-alpha, cholecystokinin, galanin, glutamate, somatostatin, neurokinin A (substance K), substance P, and vasoactive intestinal polypeptide. Of the nine receptor binding sites examined only binding sites for substance P and vasoactive intestinal peptide were significantly altered in the inflamed tissue. These data suggest that substance P is involved in regulating the inflammatory and immune responses in human inflammatory diseases and indicate a specificity of efferent action for each sensory neurotransmitter in peripheral tissues.
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PMID:Alterations in receptors for sensory neuropeptides in human inflammatory bowel disease. 165 49

In recent years evidence has accumulated indicating the presence of functional receptors for most neurotransmitters on astrocytes. In particular, receptors coupled to adenylate cyclase have been demonstrated, in primary astrocyte cultures, for vasoactive intestinal peptide (VIP), noradrenaline (NA) and adenosine. Here we provide, in primary cultures of cerebral cortical astrocytes prepared from neonatal mice, a detailed characterization of a cAMP-dependent process elicited by VIP, NA and adenosine, i.e. the hydrolysis of glycogen. The EC50s for the glycogenolytic effect of VIP, NA and adenosine are 3, 20 and 800 nM, respectively. The initial rate of glycogen hydrolysis is, in nmol/mg prot/min, 9.1 for VIP and 7.5 for NA. The effect of NA is predominantly mediated by beta-adrenoceptors, although an alpha 1-adrenergic component, acting most likely through protein kinase C activation, is also present. The action of VIP is mimicked by peptides sharing sequence homologies such as PHI and secretin. Glutamate, GABA, carbachol and the peptides NPY and somatostatin do not influence glycogen levels. The glycogen content of the cultures can be markedly increased by anabolic factors present in fetal calf serum, by high (e.g. 25 mM) glucose in the medium and by 48-h pretreatment of the cultures with dibutyryl cAMP. These results indicate that the glycogen content of astrocytes is under the dynamic control of various factors, including certain neurotransmitters. They also further stress the notion of a functional interaction between neurons and glial cells aimed at maintaining local energy metabolism homeostasis.
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PMID:Characterization of the glycogenolysis elicited by vasoactive intestinal peptide, noradrenaline and adenosine in primary cultures of mouse cerebral cortical astrocytes. 166 73

A perfusion system was used to monitor the release of [3H]-GABA from isolated retinas of Xenopus laevis. Measurable release was stimulated by glycine at concentrations as low as 200 microM. Glycine-stimulated release was blocked by strychnine, and was not reduced in "calcium-free" Ringer's solution (0 Ca2+/20 mM Mg2+). Glutamate also stimulated calcium-independent release, using concentrations as low as 100 microM. In contrast, release stimulated by 25 mM potassium was reduced by 80% in calcium-free medium. In most experiments, agonists were applied in six consecutive 4-min pulses separated by 10-min washes with Ringer's solution. Under these conditions, the release stimulated by 0.5 mM glutamate or 25 mM potassium decreased by at least 50% from the first to the second pulse, and then gradually decreased with successive applications. In contrast, the response to 0.5 mM glycine at first increased and then only gradually decreased with successive pulses. These patterns of response to different agonists were similar in calcium-free medium. Somatostatin (-14 or -28) also stimulated release, and this effect was inhibited by AOAA, an inhibitor of GABA degradation. In the presence of AOAA, somatostatin had little effect, except at high concentrations of somatostatin (5 microM), which increased both basal and glycine-stimulated release. In contrast to somatostatin, glycine-stimulated release was much larger in the presence of AOAA. Autoradiography was used to investigate which cell types released [3H]-GABA under our conditions. Autoradiograms showed that horizontal cells and a population of apparent "off" bipolar cells were well-labeled by [3H]-GABA high-affinity uptake. In addition, light labeling was seen over numerous amacrine cells. After application of glycine, glutamate, or potassium, there was a decrease in label density over horizontal cells.
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PMID:Glycine stimulates calcium-independent release of 3H-GABA from isolated retinas of Xenopus laevis. 198 Feb 4

Glutamate increases somatostatin release from cultured cerebral cortical neurons, presumably through a N-methyl-D-aspartate (NMDA) receptor type. We report here that the NMDA response was potentiated by D-serine (10 microM) and that this potentiation was blocked by kynurenic acid (4-hydroxyquinoline-2-carboxylic acid; KYN). A higher concentration of D-serine (100 microM) reduced the antagonistic effect of KYN. Furthermore, the NMDA response exhibited another characteristic property of the NMDA receptor: it was decreased by low concentrations of Zn2+ (50 microM). In contrast, Zn2+ slightly but significantly potentiated the quisqualate (QA)- and kainate (KA)-induced responses.
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PMID:Pharmacological properties of the NMDA receptor involved in somatostatin release from cortical neurons. 198 Nov 88

Glutamate and several neuropeptides are synthesized and released by subpopulations of primary afferent neurons. These sensory neurons play a role in regulating the inflammatory and immune responses in peripheral tissues. Using quantitative receptor autoradiography we have explored what changes occur in the location and concentration of receptor binding sites for sensory neurotransmitters in the colon in two human inflammatory diseases, ulcerative colitis and Crohn's disease. The sensory neurotransmitter receptors examined included bombesin, calcitonin gene related peptide-alpha, cholecystokinin, galanin, glutamate, somatostatin, neurokinin A (substance K), substance P, and vasoactive intestinal polypeptide. Of the nine receptor binding sites examined only substance P binding sites associated with arterioles, venules and lymph nodules were dramatically up-regulated in the inflamed tissue. These data suggest that substance P is involved in regulating the inflammatory and immune responses in human inflammatory diseases and indicate a specificity of efferent action for each sensory neurotransmitter in peripheral tissues.
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PMID:Receptors for sensory neuropeptides in human inflammatory diseases: implications for the effector role of sensory neurons. 255 Sep 12

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.
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PMID:Humoral factors released during trauma of Aplysia body wall. II. Effects of possible mediators. 276 Feb 88

The action of excitatory amino acid agonists on endogenous somatostatin release was examined in primary cultures of rat diencephalic neurons. Increasing concentrations of glutamate stimulated somatostatin release in a dose-dependent manner. Since this effect was decreased by Mg2+, all experiments were performed in Mg2+-free media. We found that excitatory amino acid agonists evoked somatostatin release in the following order of potency: quisqualate greater than glutamate = N-methyl-D-aspartate (NMDA) greater than kainate, as calculated from the dose-response curves. The increase in somatostatin release elicited by glutamate or NMDA was selectively antagonized by DL-2-amino-5-phosphonovaleric acid and by thyenyl-phencyclidine, two specific antagonists of NMDA receptors. The NMDA effect was strongly inhibited: in a competitive manner by APV and in a noncompetitive manner by TCP with IC50 of 90 microM and 0.2 microM, respectively. Glutamate-induced somatostatin release was not blocked by tetrodotoxin (1 microM) suggesting that tetrodotoxin-sensitive sodium-dependent action potentials are not involved in this effect. Our data suggest the presence of functionally active excitatory amino acid receptors in somatostatinergic neurons. Glutamate seems to exert its stimulatory action on somatostatin release essentially through NMDA type receptor sites.
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PMID:Glutamate stimulates somatostatin release from diencephalic neurons in primary culture. 290 50

Glutamate sensitivity development and interactions of somatostatin (SRIF) with AMPA/Kainate receptor-mediated glutamate responses were studied in dissociated hypothalamic neurons from 16-day-old mouse embryos grown in vitro. Only 18% of functionally innervated cells could be found at 6-9 DIV whereas the percentage of innervated neurons progressively increased thereafter to reach 100% at 19-22 DIV. The glutamate sensitivity, estimated from glutamate-induced peak inward current, was very low at 6-9 DIV, sharply increased at 11-14 DIV and developed at a low increase rate thereafter. SRIF either unaffected glutamate peak current (27% of the cells), or significantly decreased (50%) or increased it (23%). Pertussis Toxin pretreatment abolished the SRIF-induced decrease of the glutamate response without affecting the excitatory effect. The number of glutamate responsive neurons inhibited by SRIF increased with time in culture whereas that of neurons responding to SRIF by an increased glutamate response was not statistically modified by functional innervation. The present data suggest that increased glutamate sensitivity coincides with the onset of functional synaptogenesis in mouse hypothalamic neurons in culture. SRIF can modulate glutamate sensitivity of hypothalamic neurons with either synergistic or antagonistic effects. Since glutamate has been shown to stimulate SRIF synthesis and secretion from hypothalamic neurons, the reverse capacity of SRIF to modulate the glutamate response suggests that both transmitters exhibit complex reciprocal interactions.
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PMID:Modulation by somatostatin of glutamate sensitivity during development of mouse hypothalamic neurons in vitro. 765 5

The segmental and laminar origin of propriospinal antinociceptive systems in the cat spinal cord and the modes to activate them are characterized. The experiments were performed on pentobarbital-anesthetized cats with a high cervical spinalization. Recordings were made from single lumbar spinal dorsal horn neurons responding to noxious radiant skin heating and to innocuous mechanical skin stimuli. The segmental and laminar origin of heterosegmental, propriospinal neurons modulating background activity and nociceptive responses were identified and the conditions to activate them were characterized. Conditioning noxious front paw stimulation and superfusion of the cervical enlargement with L-glutamate, but not with substance P, reduced noxious heat-evoked responses of about 50% of all lumbar neurons tested. Glutamate superfusions of the lower thoracic or upper sacral spinal cord enhanced background activity and reduced nociceptive responses of most lumbar spinal dorsal horn neurons. Superfusions with substance P or somatostatin were ineffective. Glutamate microinjections into the superficial layers of the thoracic, upper lumbar or sacral dorsal horn ipsi- or contralateral to the recording sites or into lamina VIII of the ipsilateral thoracic or upper lumbar cord reduced noxious heat-evoked responses with or without changes in the level of background activity. It is concluded that propriospinal neurons originating from circumscribed areas of the cervical, thoracic, lumbar or sacral spinal cord independently modulate background activity and noxious heat-evoked responses of multireceptive lumbar spinal dorsal horn neurons. The incidence and efficacy of propriospinal antinociceptive stimulation sites was found to be as high as for the classical region of endogenous antinociception, the midbrain periaqueductal gray.
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PMID:Characteristics of propriospinal modulation of nociceptive lumbar spinal dorsal horn neurons in the cat. 768 6


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