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)

We have developed procedures for dissociating neurons from the myenteric plexus of the small intestine of newborn rats and for growing those neurons in cell cultures for up to 3 months. Neurons in these cultures retain many of the differentiated properties of myenteric neurons in vivo. This is the first of a series of 3 papers describing those properties. In this paper, we describe the morphology of cultured neurons that we have observed with light and electron microscopy; we also describe the patterns of straining observed when immunocytochemical techniques were used to localize neurotransmitter candidates in the cultured neurons. Intracellular injections of a fluorescent dye, Lucifer yellow, revealed that many of the cultured neurons had morphologies similar to those of myenteric neurons in vivo. When thin sections of cultures were viewed in an electron microscope, many neurons were observed to have numerous small (40-60 nm), clear synaptic vesicles and/or large (80-150 nm), opaque-cored (p-type) vesicles. Synaptic profiles were most often observed on neuronal somata. Neurons containing immunoreactive serotonin, substance P, somatostatin, enkephalin, bombesin and gastrin/cholecystokinin were observed in about the same proportions as they occur in the intact myenteric plexus. Neurons containing immunoreactive vasoactive intestinal polypeptide were found in higher numbers than reported in vivo. Neurons containing immunoreactive neurotensin, secretin and glutamate decarboxylase were not observed. An antiserum directed against choline acetyltransferase stained 40-50% of the neurons. We conclude that myenteric neurons continue to express much of their normal differentiated properties even when they are removed from the gut, dissociated into a suspension of single cells and grown in culture. Such cultures will be useful for correlating the morphological, biophysical, pharmacological and synaptic properties of individual myenteric neurons and for testing the ability of altered environmental conditions to change those properties.
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PMID:Neurons dissociated from rat myenteric plexus retain differentiated properties when grown in cell culture. I. Morphological properties and immunocytochemical localization of transmitter candidates. 242 14

gamma-Aminobutyric acid (GABA) is found in high concentrations in the pancreatic islet. In addition, enzymes regulating the level of GABA (L-glutamate decarboxylase and GABA-alpha-ketoglutarate transaminase) have been immunohistochemically localized in the medullary cells of the islet. In this study, an immunofluorescence and elution/restaining protocol is used to determine the distribution of GABA and either insulin, glucagon, or somatostatin in a tissue section. GABA was not detected within the islet alpha- or delta-cells but was determined to be localized within the insulin-containing beta-cells.
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PMID:Immunohistochemical colocalization of GABA and insulin in beta-cells of rat islet. 287 11

This study describes the cholinergic innervation of chemically defined nonpyramidal neurons in the hilar region of the rat hippocampus. Cholinergic terminals were identified by immunocytochemistry employing a monoclonal antibody against choline acetyltransferase (ChAT), the acetylcholine-synthesizing enzyme, and the avidin-biotin-peroxidase (ABC) technique. Nonpyramidal neurons in the hilar region were characterized by immunostaining with antibodies against glutamate decarboxylase (GAD), the gamma aminobutyric acid (GABA)-synthesizing enzyme, and somatostatin (SS). The immunoreactivity to these antibodies was detected by using biotinylated secondary antibodies and avidinated ferritin as an electron-dense marker. This electron microscopic double immunostaining procedure enabled us to demonstrate that immunoperoxidase-labeled ChAT-immunoreactive terminals established symmetric synaptic contacts on the ferritin-labeled GAD- and SS-immunoreactive hilar cells. In additional experiments at least some of the GAD- and SS-immunoreactive hilar neurons were further characterized as commissural neurons by retrograde filling with horseradish peroxidase (HRP) following an injection of the tracer into the contralateral hilus. From these triple labeling experiments, we concluded that at least some GABAergic and somatostatin-containing neurons in the hilar region, which are postsynaptic to cholinergic terminals, project to the contralateral hippocampus. Together with previous studies on the cholinergic innervation of the hippocampus and fascia dentata, our present results thus demonstrate that different types of hippocampal cells, including GABAergic and peptidergic commissural neurons in the hilar region, receive a cholinergic input.
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PMID:Cholinergic innervation of hippocampal GAD- and somatostatin-immunoreactive commissural neurons. 288 94

The cellular and subcellular distribution of L-glutamate decarboxylase (GAD), the biosynthetic enzyme for gamma-aminobutyric acid (GABA), was determined immunohistochemically in rat pancreatic islet using light and electron microscopic techniques. The cellular distribution of GAD was determined at the light microscopic level using an elution/re-staining protocol and a computerized digital image processing technique. At this level of resolution, immunofluorescent GAD was observed to be co-localized with immunofluorescent insulin in the islet B-cells and absent in both the A-cells, which contained glucagon, and the D-cells, which contained somatostatin. Subcellular localization of GAD was determined using an electron microscopic, colloidal gold post-embedding protocol and was compared to insulin immunoreactivity in serial sections of the same B-cell. In the same islet B-cell, GAD immunoreactivity appeared predominantly in the extragranular cytoplasm, whereas insulin immunoreactivity was associated with the secretory granules. Quantitative analysis of GAD immunoreactivity in the B-cell revealed 15.3 +/- 1.8 gold particles/micron2 in the cytoplasm, 1.7 +/- 0.2 gold particles/micron2 in the secretory granules, and 0.4 +/- 0.4 gold particles/micron2 in the mitochondria. The results of this study, localization of the biosynthetic enzyme for GABA to the B-cell cytoplasmic compartment and its absence in the secretory granules which contain insulin, are compatible with the hypothesis that GABA functions as an intracellular mediator of B-cell activity.
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PMID:Cellular and subcellular immunolocalization of L-glutamate decarboxylase in rat pancreatic islets. 289 76

Double immunolabelling on semithin sections revealed glutamate decarboxylase immunopositive dots surrounding somatostatin-containing cell sections in the rat periventricular hypothalamic area. Up to 12 appositions were observed per cell section with an average number of 2-3 and a unimodal distribution. At the electron microscopical level pre-embedding staining of glutamate decarboxylase showed that most immunoreactive elements consisted of immunolabelled axonal endings. Most of these glutamate decarboxylase immunopositive boutons were found within the neuropil where they frequently made synapses on unidentified dendrites. Some of them were apposed to somatostatin-containing cell bodies that were identified according to the presence of immunolabelled granules using combined immunogold post-embedding staining. In many instances glutamate decarboxylase immunoreactive endings were also found to be involved in synaptic contact with somatostatin-labelled perikarya, or neuronal processes. These contacts provide the morphological basis for a direct GABAergic control of the somatostatin-containing cells regulating the secretion of growth hormone.
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PMID:GABAergic innervation of somatostatin-containing neurosecretory cells of the anterior periventricular hypothalamic area: a light and electron microscopy double immunolabelling study. 289 59

The neuropeptides somatostatin and neuropeptide Y and the activity of glutamate decarboxylase were determined in the frontal cortex of rats subjected to experimental epilepsy. Two different animal models, (1) rats kindled for 4 weeks by daily injection of pentylenetetrazole, and (2) rats which had undergone strong limbic seizures induced by kainic acid, were used. Decreased seizure threshold, as shown by injection of a subconvulsive dose of pentylenetetrazole, was observed 10 days after the last kindling session and 1 month after injection of kainic acid, respectively. Significantly increased levels of somatostatin (by 60%), neuropeptide Y (135%) and increased activity of glutamate decarboxylase (22%) were found in the frontal cortex of rats previously treated with kainic acid. Separation of somatostatin-like immunoreactivity by size exclusion high-performance liquid chromatography showed a marked increase of immunoreactivity in fractions containing the somatostatin precursor (by 200%) and less prominently of somatostatin-14 and somatostatin-28 (by 60 and 80%, respectively). Michaelis-Menten kinetics of glutamate decarboxylase revealed an increased maximal velocity (Vmax) in the frontal cortex of kainic acid-treated rats, but no change in the Km value was found. Similar results were also obtained in pentylenetetrazole-kindled rats. Injection of cysteamine (100 mg/kg, i.p.) resulting in a 30% decrease of cortical somatostatin in kainic acid-pretreated rats markedly suppressed seizures induced by an otherwise subconvulsive dose of pentylenetetrazole.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Concomitant increase of somatostatin, neuropeptide Y and glutamate decarboxylase in the frontal cortex of rats with decreased seizure threshold. 290 35

The regional distribution and cellular location of GABA-synthesizing enzyme, L-glutamate decarboxylase (GAD), GABA degrading enzyme, GABA-transaminase (GABA-T), taurine synthesizing enzyme, cysteine sulfinic acid decarboxylase (CSAD), aspartate and glutamate converting enzyme, aspartate aminotransferase (AAT), and somatostatin have been visualized in the rat retina by immunocytochemical methods. GAD immunoreactivity was found to be concentrated in the inner plexiform layer. A moderate to weak staining of GAD was found in the inner nuclear layer. The distribution of GABA-T immunoreactivity was similar to that of GAD with the exception that a weak to moderate staining of GABA-T was also observed in the outer plexiform layer. CSAD immunoreactivity was seen in every layer with the heaviest staining in the inner plexiform layer, and moderate staining in the inner and outer nuclear layers and ganglion cell layer. AAT immunoreactivity was mostly concentrated in the outer nuclear layer; there was weak staining in the inner nuclear layer and inner and outer plexiform layer. Dense somatostatin staining was seen in the inner plexiform layer and moderate staining was present in the inner nuclear layer, outer plexiform layer and ganglion cell layer. These findings suggest that in rat retina, GABA-containing cells occur in some types of amacrine cells only, while taurine and somatostatin appear in both amacrine and horizontal cells. AAT immunoreactivity was primarily associated with the photoreceptor cells suggesting that AAT may be used as a marker for aspartergic/glutamergic cells and their endings in the central nervous system.
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PMID:Immunocytochemical localization of L-glutamate decarboxylase, gamma-aminobutyric acid transaminase, cysteine sulfinic acid decarboxylase, aspartate aminotransferase and somatostatin in rat retina. 613 12

The immunoperoxidase-antiperoxidase method (PAP) was combined with immunofluorescence for simultaneous localization of glutamate decarboxylase (GAD)-and somatostatin-like immunoreactivity in rat hippocampal neurons growing in dissociated cell culture. A subpopulation of GAD-immunoreactive neurons additionally exhibited somatostatin-like immunostaining. GAD-negative somatostatin-positive cells could not be observed. It is discussed whether the cultured somatostatin-containing GAD neurons correspond to a certain subclass of basket cells as they occur in situ.
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PMID:Coexistence of glutamate decarboxylase and somatostatin immunoreactivity in cultured hippocampal neurons of the rat. 614 31

Neuropeptides are found in dense networks of neuronal perikarya, fibers and terminals within numerous brain regions. Among the more striking of these collections are sites within the central nervous system that are presumed to regulate either endocrine or autonomic function. A recent example of a neuropeptide which is likely to play a significant role in endocrine regulation is cortocotropin releasing factor (CRF). Immunohistochemical studies revealed that CRF immunoreactivity was found in many brain regions, including the paraventriculo-infundibular pathway. CRF released from nerve terminals belonging to this pathway presumably regulates ACTH release. Treatment of rats with reserpine depletes CRF as well as vasopressin from the external layer of the median eminence, suggesting tonic, monoaminergic inhibition of CRF and vasopressin containing neurons. CRF antisera were found which stain urotensin I immunoreactivity within the caudal neurosecretory system of fish. Numerous putative neurotransmitters impinge upon preganglionic sympathetic neurons within the intermediolateral cell column of the spinal cord. Preganglionic sympathetic neurons which innervate the adrenal medulla appear to have a specific input from somatostatin immunoreactive fibers. In addition, binding sites for serotonin and alpha-2 adrenergic ligands are more highly concentrated over sympathoadrenal neurons. Finally, the pancreatic islet contains peptide producing endocrine cells which possess several neuron-like properties. Some of these properties are reviewed, especially the finding that the insulin producing cells contain glutamate decarboxylase immunoreactivity, the biosynthetic enzyme for GABA. Further studies revealed that GABA agonists inhibit somatostatin release from islet cells.
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PMID:Peptidergic regulation in neuroendocrine and autonomic systems. 614 35

The coexistence of gamma-aminobutyric acid (GABA), glutamate decarboxylase (GAD), and cholecystokinin (CCK)- or somatostatin-immunoreactive material in the same neurons was studied in the hippocampus and visual cortex of the cat. One-micrometer-thick serial sections of the same neuron were reacted to reveal different antigens by the unlabeled antibody enzyme method. All CCK- and somatostatin-immunoreactive neurons in the cortex and all CCK-immunoreactive and the majority of somatostatin-immunoreactive neurons in the hippocampus that could be examined in serial sections were also immunoreactive for GABA. In neurons that were immunoreactive for GAD it was often possible to demonstrate immunoreactivity for one of the peptides as well as for GABA. GABA-immunoreactive neurons, as revealed by an antiserum to GABA, were present in all layers of the cortex and hippocampus, and their shape, size, and distribution were similar to GAD-immunoreactive neurons. All GAD-immunoreactive neurons were also positive for GABA, but the latter staining revealed additional neurons. CCK/GABA- and somatostatin/GABA-immunoreactive neurons were present mainly in layers II and upper III and in layers V and VI in the visual cortex. CCK/GABA-immunoreactive neurons were most frequently present in the strata oriens, pyramidale, and moleculare of the hippocampus and in the polymorph cell layer of the dentate gyrus. Somatostatin/GABA-immunoreactive neurons were localized mainly in the stratum oriens and in the hilus of the fascia dentata. The two peptides could not be found in the same neuron. The majority of neurons that were GABA immunoreactive did not stain for either peptide. The presence of CCK- and somatostatin-immunoreactive material in GABAergic cortical neurons raises the possibility that neuroactive peptides affect GABAergic neurotransmission.
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PMID:Different populations of GABAergic neurons in the visual cortex and hippocampus of cat contain somatostatin- or cholecystokinin-immunoreactive material. 614 75


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