UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of somatostatin immunoreactivity in the basal ganglia and amygdala of the squirrel monkey (Saimiri sciureus) was studied with specific polyclonal antibodies directed against somatostatin-28 and somatostatin-28(1-12). Both antibodies gave similar results with regard to the distribution of somatostatin-immunoreactive neuronal profiles. A moderately dense and highly heterogeneous network of somatostatin-positive fibers was observed throughout the striatum. A dorsoventral gradient of increasing immunoreactivity was noted in the striatum and the caudate nucleus was found to strain generally less intensely than the putamen. The immunoreactive fibers within the striatum were mostly thin and varicose and formed patches corresponding to the striosomes, as visualized on adjacent sections immunostained for calbindin. Although some somatostatin cell bodies rimmed the striosomes, most of the positive cells were rather uniformly scattered in the striatum. These medium-sized cells were significantly smaller in the caudate nucleus (93 microns2, S.D. = 26 microns2) than in the putamen (122 microns2, S.D. = 39 microns2), but their density was significantly higher in the caudate nucleus (29.7 cells/mm2, S.D. = 8.8 cells/mm2) than in the putamen (20.5 cells/mm2, S.D. = 7.0 cells/mm2). The nucleus accumbens stained moderately and positive cell bodies were evenly dispersed throughout this structure. In contrast, the olfactory tubercle displayed a heavily stained neuropil but positive neurons were encountered only in its polymorph layer. In the sublenticular region, dense fiber plexuses appeared in register with nonreactive cell clusters of the nucleus basalis of Meynert and of the nucleus of the anterior commissure. More caudally, a dense bundle of positive fibers was observed at the level of the ansa lenticularis, the inferior thalamic peduncle, and the adjoining bed nucleus of the stria terminalis. Several fibers contributing to this bundle were of the woolly type. Woolly fibers also coursed in the substantia innominata between the ventral aspect of the globus pallidus and the optic tract, and ascended in the internal medullary lamina separating the internal and external segments of the globus pallidus. Somatostatin-immunoreactive cell bodies were uniformly scattered throughout the substantia innominata. The various nuclei of the amygdala showed a wide range of immunoreactivity. The central nucleus was lightly reactive, whereas the intercalated masses displayed a moderate staining. A dorsoventral gradient of immunostaining was noted in the ventrolateral portion of the amygdala, the lateral nucleus being moderately to densely stained and the basal nucleus very lightly to lightly immunoreactive.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Distribution of somatostatin immunoreactivity in the forebrain of the squirrel monkey: basal ganglia and amygdala. 134 31

Ontogenic expression of somatostatin (SRIF) -messenger RNA (mRNA) in the gastrointestinal tract was examined in neonatal rats aged from 1 day preterm to 60 days postpartum in comparison with that in the hypothalamus. SRIF-mRNA in the hypothalamus was already expressed in prenatal rats and its developmental change was relatively small. In contrast, a unique pattern of SRIF-mRNA expression was seen in the different intestinal regions, gastric antrum, duodenum, jejunum and colon. In the duodenum, SRIF-mRNA level was low at birth, markedly increased during the postnatal 3 days and declined to the previous level by day 21. Jejunal SRIF-mRNA was found in neonates but progressively decreased in a similar way to duodenum. On the contrary, gastric SRIF-mRNA level, which was low during early development, rose rapidly to a peak on day 21 and gradually declined to an adult level. In the colon age-related change was not conspicuous, remaining at a low level. These results indicate that (1) expression of SRIF gene in the intestinal tract is regulated by local factor(s) as well as developmental stage, and (2) shift of SRIF-mRNA pattern occurs during weaning from the duodenum-dominant infantile pattern to the gastric-dominant adult pattern.
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PMID:Ontogenic expression of somatostatin-messenger RNA in the intestinal tract of neonatal rats. 134 87

Recently we could demonstrate that in rats with pancreatic hypertrophy, somatostatin is secreted in higher concentrations into the pancreatic juice than into the portal vein blood. For measurement of juice somatostatin and to characterize the molecular forms, we established a new reverse-phase HPLC method, which we describe herein. This HPLC method, using a linear gradient system consisting of 0.2% heptafluorbutyric acid in 10 mM sodium acetate and acetonitrile, showed a stable recovery rate of about 85%. Applying the pure juice to this gradient system, we detect somatostatin-14 to be the major form of immunoreactive somatostatin (IRSS) in the pancreatic juice of the rat (5% of total IRSS). The remaining 35% were found to be somatostatin-28. The role of somatostatin in pancreatic juice is not known. It raises the hypothesis that it possibly interacts with the influences intraluminal intestinal growth factors. This study supports the assumption for the existence of an insuloacinar portal system to regulate exocrine pancreatic functions by islet hormones.
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PMID:Identification of somatostatin-14 and -28 in rat pancreatic juice by a new HPLC method. 134 9

Growth hormone (GH) secretion is blunted in diabetic rats. In the present experiment we observed that pituitary GH concentrations and the plasma GH response to an exogenous dose of growth hormone-releasing hormone (GHRH) is decreased in streptozotocin-induced diabetic rats (p less than 0.02) with respect to normal rats. In an attempt to determine if increased somatostatin (SRIF) secretion is responsible for the decreased GH secretion, we studied the effect of modulating SRIF tone on the GH response to GHRH in normal and streptozotocin-induced diabetic rats. Rats were pretreated with either normal sheep serum and saline (NSS+SAL), somatostatin antibodies (SRIF-Ab), or pyridostigmine (PD), an acetylcholinesterase inhibitor hypothesized to reduce hypothalamic SRIF secretion. Pretreatment of normal rats with SRIF-Ab or PD resulted in an increased GH response to exogenous GHRH in comparison to NSS+SAL-pretreated normal rats at 5 min postinjection. In contrast, pretreatment of diabetic rats with SRIF-Ab or PD did not alter the GH response to exogenous GHRH when compared to NSS+SAL-pretreated diabetic animals. These results suggest that the blunted GH response to exogenous GHRH observed in streptozotocin-induced diabetic rats may not be due to an increase of endogenous SRIF tone.
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PMID:Hypothalamic regulation of impaired growth hormone secretion in diabetic rats. 1. Studies in streptozotocin-induced diabetic rats. 135 66

In the present study we investigated the effects of modulating endogenous somatostatin (SRIF) on the GH response to growth hormone-releasing hormone (GHRH) in spontaneously diabetic BB/Wor rats and nondiabetic littermates. Plasma growth hormone (GH) concentrations following injection of GHRH (500 ng/kg, i.v.) were measured in the rats after pretreatment with either normal sheep serum+saline (NSS+SAL), somatostatin antibody (SRIF-Ab), or pyridostigmine bromide (PD), an acetylcholine esterase inhibitor hypothesized to decrease hypothalamic SRIF tone. The GH response to GHRH in spontaneous diabetic rats pretreated with NSS+SAL was significantly lower (p less than 0.05) than the response observed in the nondiabetic group. SRIF-Ab pretreatment reversed the blunted GH response observed in the diabetic rats. However, PD pretreatment was not effective. These results indicate that the blunted GH response observed in BB/Wor diabetic rats is reversed by neutralization of endogenous SRIF with SRIF-Ab and leads to the conclusion that SRIF plays an active role in modulating GH secretion in spontaneously diabetic rats. The failure of PD to modulate the GH response suggests this acetylcholine agonist is ineffective in this animal paradigm.
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PMID:Hypothalamic regulation of impaired growth hormone secretion in diabetic rats. 2. Studies in spontaneously diabetic BB Worcester rats. 135 67

Somatostatin (SRIF) is a neurotransmitter in the brain involved in the regulation of motor activity and cognition. It induces its physiological actions by interacting with receptors. We have developed antibodies against the receptor to investigate its structural properties. Rabbit polyclonal antibodies were generated against the rat brain SRIF receptor. These antibodies (F4) were able to immunoprecipitate solubilized SRIF receptors from rat brain and the cell line AtT-20. The specificity of the interaction of these antibodies with SRIF receptors was further demonstrated by immunoblotting. F4 detected SRIF receptors of 60 kDa from rat brain and adrenal cortex and the cell lines AtT-20, GH3, and NG-108, which express high densities of SRIF receptors. They did not detect immunoreactive material from rat liver or COS-1, HEPG, or CRL cells, which do not express functional SRIF receptors. In rat brain, 60-kDa immunoreactivity was detected by F4 in the hippocampus, cerebral cortex, and striatum, which have high densities of SRIF receptors. However, F4 did not interact with proteins from cerebellum and brain stem, which express few SRIF receptors. Immunoreactive material cannot be detected in rat pancreas or pituitary, which have been reported to express a 90-kDa SRIF receptor subtype. The selective detection of 60-kDa SRIF receptors by F4 indicates that the 60- and 90-kDa SRIF receptor subtypes are immunologically distinct. The availability of antibodies that selectively detect native and denatured brain SRIF receptors provides us with a feasible approach to clone the brain SRIF receptor gene(s).
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PMID:Development of antibodies against the rat brain somatostatin receptor. 135 89

Corticotropin-releasing hormone (CRH), in addition to its neuroendocrine role, may act as a central neurotransmitter. Cerebral cortical CRH may have an important role in behavioral and neurodegenerative disorders. To gain an understanding of factors that may influence cortical CRH, we investigated the effect of several neurotransmitters and neuropeptides on the release of immunoreactive CRH (iCRH) from various cerebral cortical regions [frontal (FC), parietal (PC), temporal (TC), and occipital (OC)] in vitro. The hypothalamic release of iCRH was also evaluated under the same experimental conditions. Basal release of iCRH was approximately 2-fold, and KCl-stimulated iCRH release was approximately 4-fold higher in the hypothalamus than in any of the cortical regions. Cortical iCRH release was stimulated by 10 nM somatostatin (SRIF) in PC and 1 nM neuropeptide Y (NPY) in TC. Cortical iCRH release was inhibited by 1 and 10 nM acetylcholine (ACh), 0.1 microM glutamate, and 10 nM NPY. These effects were confined to the FC and/or PC. Hypothalamic iCRH release was stimulated by 1 and 10 nM ACh, 10 microM GABA, and 1 and 10 nM serotonin but was inhibited by 10 nM SRIF and 1 microM GABA. Growth hormone-releasing hormone did not affect cortical or hypothalamic iCRH release. These results demonstrate that CRH release from the cerebral cortex and the hypothalamus are under different regulatory mechanism(s). Furthermore, they indicate that the release of CRH in various cortical regions may be regulated differentially by the same neurotransmitter.
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PMID:Effect of various neurotransmitters and neuropeptides on the release of corticotropin-releasing hormone from the rat cortex in vitro. 135 Jan 13

We examined whether plasma gastrin concentration increases during breast-feeding in infants. The peptide concentration was measured cross-sectionally before, during, and after breast-feeding in healthy, 3-day-old infants (n = 72). Somatostatin, a modulator of gastrin release, was also analyzed. Both peptides were measured by radioimmunoassay and were further characterized by high-performance liquid chromatography (HPLC). The (mean +/- SD) concentration of gastrin rose significantly from 63 +/- 24 pmol/L before feeding to 92 +/- 32 pmol/L (p less than 0.01) and 95 +/- 21 pmol/L (p less than 0.01), 5 and 10 min after the initiation of sucking, respectively. The gastrin concentration was 102 +/- 35 pmol/L (p less than 0.01) immediately after feeding. Plasma somatostatin concentration was unaffected by feeding. As assessed by HPLC, circulating gastrin before, during, and after feeding was found to correspond to gastrin-34, whereas circulating somatostatin was found to correspond to somatostatin-14. We conclude that in contrast to earlier studies, plasma gastrin concentration increases during and immediately after breast-feeding in infants.
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PMID:Plasma gastrin-34 increases during and immediately after breast-feeding in 3-day-old infants. 135 Jun 17

The effects of whole somatostatin (wSS; somatostatin-28) and cyclic somatostatin (cSS; somatostatin-14) were examined on patch-clamped bullfrog sympathetic ganglion neurones. In the C-cells, where muscarine produces hyperpolarization, wSS was also inhibitory and activated an inwardly-rectifying K+ current; cSS was ineffective. By contrast, in the B-cells, where muscarine produces excitatory effects, cSS was also excitatory and was more effective than wSS in suppressing a voltage-dependent, non-inactivating K(+)-current (IM). These results are consistant with the idea that excitatory and inhibitory effects of somatostatin-derived peptides may be mediated via different receptor subtypes.
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PMID:Effects of somatostatin on potassium currents in bullfrog sympathetic ganglion neurones: possible role of receptor subtypes. 135 66

Somatostatin (SRIF), a peptide widely distributed in the central nervous system, has been implicated in the genesis of seizure activity in a number of animal models of epilepsy. We examined the effects of the anticonvulsants, phenytoin, carbamazepine and diazepam, on the release of SRIF from dispersed adult rat neuronal cells in short-term culture. Each of these agents caused dose-dependent inhibition of ouabain-stimulated SRIF release in a well-characterized hypothalamic dispersed cell system. We also examined the effects of phenytoin on SRIF release from dispersed rat cortical cells and inhibition of stimulated SRIF secretion was again observed. These findings support the hypothesis that the inhibition of neuronal SRIF release may represent a pharmacological mechanism of action of anticonvulsants.
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PMID:Anticonvulsants inhibit rat neuronal somatostatin release. 135 79

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