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)

Using a double detection method, which combines in situ hybridization for the detection of neurotrophin messenger RNA with immunocytochemistry against the neuropeptides somatostatin, neuropeptide Y, vasoactive intestinal polypeptide and cholecystokinin, we have analysed the expression of the neurotrophins, nerve growth factor, brain-derived neurotrophic factor and neurotrophin-3, in distinct populations of neuropeptide-immunoreactive hippocampal interneurons. Nerve growth factor messenger RNA expression was found in subsets of the four subpopulations of neuropeptide-immunoreactive interneurons. The highest degree of co-localization was observed in the neuropeptide-Y-positive cells (up to 70%) and in somatostatin-immunoreactive cells (48%). Only small subsets of cholecystokinin- and vasoactive intestinal polypeptide-positive neurons (21% and 10%, respectively) displayed nerve growth factor hybridization signals. In contrast, expression of neurotrophin-3 messenger RNA was exclusively observed in 26% of neuropeptide-Y-immunoreactive cells. Brain-derived neurotrophic factor hybridization signals were never detected in the neuropeptide-positive hippocampal interneurons. Morphological analysis of neuropeptide-immunoreactive interneurons that express or lack nerve growth factor messenger RNA revealed that most perisomatic inhibitory neurons, such as large vasoactive intestinal polypeptide/ cholecystokinin-immunoreactive cells, showed positive nerve growth factor hybridization signals. In addition, some somatostatin/neuropeptide-Y-immunoreactive interneurons, which are responsible for dendritic inhibition of principal hippocampal neurons, expressed nerve growth factor messenger RNA. In contrast, interneurons specialized to innervate other GABAergic cells, such as small vasoactive intestinal polypeptide-positive cells, lacked nerve growth factor expression. All these data indicate that expression of neurotrophins is differentially regulated in functionally distinct classes of hippocampal interneurons immunoreactive for neuropeptides. We also analysed whether neuropeptide-immunoreactive interneurons expressing neurotrophins were targets of the GABAergic septohippocampal pathway. We used a triple detection method, combining anterograde tracing of this connection, with in situ hybridization for the detection of neurotrophin mRNA, and immunocytochemistry against neuropeptides. Our data showed that the four populations of hippocampal interneurons studied (somatostatin, neuropeptide-Y, vasoactive intestinal polypeptide and cholescystokinin) received GABAergic afferents from the septum. However, no preference for neuropeptide-immunoreactive cells expressing neurotrophins was observed, compared to neuropeptide-positive neurons lacking neurotrophin expression.
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PMID:Expression of neurotrophins in hippocampal interneurons immunoreactive for the neuropeptides somatostatin, neuropeptide-Y, vasoactive intestinal polypeptide and cholecystokinin. 1036 97

Moscona, in the early sixties [A.A. Moscona, Recombination of dissociated cells and the development of cell aggregates, in: B.M. Willmer (Ed.), Cells and Tissues in Culture, Academic Press, New York, 1965, pp. 489-529.] [16], discovered that aggregation of dissociated cells is a property of embryonal cells. Several features of the aggregate culture system are particularly attractive for the conduct of biochemical and molecular studies on the human fetal brain. (i) All the pertinent procedural parameters can be readily controlled and standardized, resulting in a consistently reproducible system suitable for quantitative analyses. (ii) Neuronal enriched aggregates can be readily obtained, with minimal neurotoxicity. (iii) Aggregates can be easily harvested for biochemical and molecular studies. Aggregate cultures, generated from rodent fetal brains, have been extensively utilized as a tool to study regulation of aminergic neurons [P. Honegger, E. Richelson, Biochemical differentiation of mechanically dissociated brain in aggregating cell culture, Brain Res. 109 (1976) 335-354; P. Honegger, E. Richelson, Biochemical differentiation of aggregating cell cultures of different fetal rat brain regions, Brain Res. 133 (1977) 329-339.] [11,12] and peptidergic neurons (neuropeptide Y (NPY) and somatostatin (SRIF) [A. Barnea, E. Anthony, G. Lu, G. Cho, Morphological differentiation of neuropeptide Y neurons in aggregate cultures of dissociated fetal cortical cells: a model system for glia-neuron paracrine interactions, Brain Res. 625 (1993) 313-322; A. Barnea, G. Cho, G. Lu, M. Mathis, Brain-derived neurotrophic factor induces functional expression and phenotypic differentiation of cultured fetal neuropeptide Y producing neurons, J. Neurosci. Res. 42 (1995) 638-647; A. Barnea, A. Hajibeigi, G. Cho, P. Magni, Regulated production and secretion of immunoreactive neuropeptide Y by aggregating fetal brain cells in culture, Neuroendocrinology 54 (1991) 7-13; P. Magni, A. Barnea, Forskolin and phorbol ester stimulation of neuropeptide Y (NPY) production and secretion by aggregating fetal brain cells in culture: evidence for regulation of NPY biosynthesis at transcriptional and posttranscriptional levels, Endocrinology 130 (1992) 976-984.]) [4-6,14]. However, very few studies have utilized this system to study regulatory processes of human fetal neurons/glia [M. McCarthy, L. Resnik, F. Taub, R.V. Stewart, R.D. Dix, Infection of human neural cell aggregate cultures with a clinical isolate of cytomegalovirus, J. Neuropathol. Exp. Neurol. 50 (1991) 441-450; L. Pulliam, M.E. Berens, M.L. Rosenblum, A normal human brain cell aggregate model for neurobiological studies, J. Neurosci. Res. 21 (1988) 521-530.] [15,17]. In a series of studies in our laboratory [N. Aguila-Mansilla, A. Barnea, Human fetal brain cells in aggregate culture: a model system to study regulatory processes of the developing human neuropeptide Y (NPY) producing neuron, Int. J. Dev. Neurosci. 14 (1996) 531-539; A. Barnea, N. Aguila-Mansilla, H.T. Chute, A.A. Welcher, Comparison of neurotrophin regulation of human and rat neuropeptide Y (NPY) neurons: induction of NPY production in aggregate cultures derived from rat but not from human fetal brains, Brain Res. 732 (1996) 52-60; A. Barnea, N. Aguila-Mansilla, G. Lu, R.H. Ho, Opposite effects of astrocyte-derived soluble factor(s) on the functional expression of fetal peptidergic neurons in aggregate cultures: enhancement of neuropeptide Y and suppression of somatostatin, J. Neurosci. Res. 50 (1997) 605-617; A. Barnea, J. Roberts, R.H. Ho, Evidence for a synergistic effect of the HIV-1 envelope protein gp120 and brain-derived neurotrophic factor (BDNF) leading to enhanced expression of somatostatin neurons in aggregate cultures derived from the human fetal cortex, Brain Res. 815 (1999) 349-357.] [1-3,7], we have established a human-derived aggregate culture system, maintained in serum-free medium for up to 28 days, in which expression
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PMID:An improved method for dissociation and aggregate culture of human fetal brain cells in serum-free medium. 1044 10

Recently it has been observed that a subpopulation of gut endocrine cells in vertebrates express Trk-like proteins, suggesting that neurotrophins could regulate the synthesis and storage of amines and peptides of these cells. Nevertheless, the peptides and amines present in the endocrine cells that express Trks have not been characterized. In this study we used immunohistochemistry to investigate the occurrence of Trk-like proteins (TrkA-like, TrkB-like and TrkC-like) and the possible co-localization of these with peptides and/or biogenic amines in the endocrine cells of the stomach of three teleost (bass, gilt-head and scorpionfish). No TrkA-like immunoreactivity (IR) was detected in the stomach of these species, whereas TrkB-like IR and TrkC-like IR were observed in numerous cells of the gastric epithelium. TrkB-like immunoreactive cells were present in all three species examined, and were particularly abundant in the blind sac. Conversely, TrkC-like immunoreactive cells were found only in the bass stomach, apparently co-localized with TrkB-like IR. TrkB-like IR was found co-localized with somatostatin IR in scorpionfish, and with somatostatin and CGRP IR in gilt-head and bass. Gastric endocrine cells expressing 5-HT, glucagon, insulin, met-, leu-enkephalin, substance P, PYY, VIP, CCK, NPY, bombesin and motilin were unreactive for Trk-like proteins. The present results provide direct evidence for the occurrence of Trk-like neurotrophin receptor proteins in a subpopulation of the teleostean gastric endocrine cells and suggest that neurotrophins could regulate, as in neurons, the expression of some neuropeptides such as somatostatin and CGRP.
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PMID:Co-localization of Trk neurotrophin receptors and regulatory peptides in the endocrine cells of the teleostean stomach. 1052 80

Brain-derived neurotrophic factor (BDNF) plays an important role in hippocampal neuroplasticity. In particular, BDNF upregulation in the hippocampus by epileptic seizures suggests its involvement in the neuronal rearrangements accompanying epileptogenesis. We have shown previously that chronic infusion of BDNF in the hippocampus induces a long-term delay in hippocampal kindling progression. Although BDNF has been shown to enhance the excitability of this structure upon acute application, long-term transcriptional regulations leading to increased inhibition within the hippocampus may account for its suppressive effects on epileptogenesis. Therefore, the long-term consequences of a 7-day chronic intrahippocampal infusion of BDNF (12 microg/day) were investigated up to 2 weeks after the end of the infusion, on the expression of neurotransmitters contained in inhibitory hippocampal interneurons and which display anti-epileptic properties. Our results show that BDNF does not modify levels of immunostaining for glutamic acid decarboxylase, the rate-limiting enzyme for gamma-aminobutyric acid (GABA) synthesis, and somatostatin. Conversely, BDNF induces a long-lasting increase of neuropeptide Y (NPY) in the hippocampus, measured by immunohistochemistry and radioimmunoassay, outlasting the end of the infusion by at least 7 days. The distribution of BDNF-induced neuropeptide Y immunoreactivity is similar to the pattern observed in animals submitted to hippocampal kindling, with the exception of mossy fibres which only become immunoreactive following seizure activity. The enduring increase of neuropeptide Y expression induced by BDNF in the hippocampus suggests that this neurotrophin can trigger long-term genomic effects, which may contribute to the neuroplasticity of this structure, in particular during epileptogenesis.
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PMID:Overexpression of neuropeptide Y induced by brain-derived neurotrophic factor in the rat hippocampus is long lasting. 1071 39

The present work investigated whether neurotrophins could differentially affect in vitro growth and maturation of two related subsets of hypothalamic neurons, hypophysiotropic somatostatin (SRIH) neurons projecting from the periventricular area and arcuate SRIH interneurons. For this purpose, the hypothalamus of 17-day-old rat fetuses was sampled and separated into a ventral and a dorsal fragment containing respectively periventricular and arcuate regions. Each fragment was dissociated and seeded separately in defined medium. Brain-derived neurotrophic factor (BDNF) or neurotrophin-3 (NT-3), two important members of the neurotrophin family involved in neuronal differentiation and plasticity, were added to the cultures at seeding time. After 6 or 11 days in vitro, neurons were labeled with an anti-SRIH antiserum and submitted to morphometric analysis. In parallel, SRIH mRNA was estimated by semiquantitative reverse-transcriptase-polymerase chain reaction, and neuronal SRIH content, basal and depolarisation-stimulated releases measured by radioimmunoassay. The response of control, non-labeled neurons was estimated by neuronal counts and by assaying glutamic acid decarboxylase, a marker of a large majority of hypothalamic neurons. BDNF markedly increased the size and the branching number of SRIH periventricular cell bodies. Expression of SRIH mRNA, as well as SRIH content and release into the culture medium, were also stimulated by the neurotrophin. Non-SRIH neurons were not affected by the treatment. Under the same conditions, arcuate neurons exhibited a weak, mostly transient response to BDNF. NT-3 was ineffective on either neuronal subset. Immunoneutralization of Trk receptors provided further evidence for BDNF effect specificity. The results indicate that BDNF is a selective activator of the differentiation of hypophysiotropic SRIH neurons in the periventricular area of the hypothalamus.
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PMID:Brain-derived neurotrophic factor but not neurotrophin-3 enhances differentiation of somatostatin neurons in hypothalamic cultures. 1102 8

Although the long-lasting effects of neurotrophins have been extensively studied, less data are available on their rapid effects, especially on peptide release. In the present report, we investigated rapid effects of neurotrophins on somatostatin release and on intracellular calcium concentration ([Ca(2+)](i)) in primary cultures of hypothalamic neurons. RT-PCR experiments revealed mRNA expression of the three high-affinity neurotrophin receptors tyrosine kinase (Trk) TrkA, TrkB and TrkC, indicating potential responses to their preferential ligands: nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and neurotrophin 3 (NT-3), respectively. We demonstrated that BDNF, and to a lesser extent NT-3, induced significant time- and concentration-dependent somatostatin release, while NGF was devoid of any effect. BDNF or NT-3 induction of somatostatin release was inhibited by the Trk inhibitors K-252a and genistein, whereas K-252b, a less effective inhibitor, had no effect. BDNF- and NT-3-induced somatostatin release depended upon extra- and intracellular Ca(2+) since it was completely abolished in the presence of the Ca(2+) chelators BAPTA (bis-(alpha-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid) or BAPTA-AM (bis-(alpha-aminophenoxy)-ethane-N,N,N',N'-tetraacetoxymethylester), respectively. In addition, BDNF and NT-3 induced a sustained and rapid increase in [Ca(2+)](i) which depended on the extracellular Ca(2+) concentration. MK-801 (dizocilpine) and tetrodotoxin (TTX) entirely blocked neurotrophin-evoked somatostatin release and [Ca(2+)](i) rise in response to BDNF and NT-3 application in most neurons. Neurotrophin-induced [Ca(2+)](i) rise was completely blocked by K-252a. The present results are consistent with: (1) an indirect effect of neurotrophins on somatostatin release via endogenous glutamate release and subsequent NMDA receptor activation, (2) a major indirect effect of neurotrophins on Ca(2+) rise in hypothalamic neurons which very likely occurs through NMDA receptor activation. Taken altogether, these results indicate that BDNF and NT-3 can rapidly affect the activity of hypothalamic neurons.
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PMID:Rapid stimulatory effects of brain-derived neurotrophic factor and neurotrophin-3 on somatostatin release and intracellular calcium rise in primary hypothalamic cell cultures. 1143 57

Little is known on the influence of epigenetic factors in the developing hypothalamus, a region particularly involved in neuroendocrine regulation and rich in neuropeptides. The present study evaluated the effects of neurotrophins and neuronal activity on neuronal differentiation in hypothalamic cultures sampled from either arcuate or anterior periventricular regions of 17-day-old Sprague-Dawley fetuses. Expression of neuropeptides, tyrosine hydroxylase, neurotrophins and neurotrophin receptors was tested on young (6 days in vitro, DIV) and more mature (14 DIV) cultured neurons by multiple reverse transcription polymerase chain reaction on single cells. In parallel, spontaneous postsynaptic currents were recorded as an index of neuronal connectivity. Neurotrophin-3 (NT3) was expressed in a much larger population of neurons than brain-derived neurotrophic factor (BDNF) at both culture times. At 6 DIV, synaptic currents were scarce and expression of the neurotrophin receptors trkB and trkC was found in a small proportion of neurons only. These parameters increased markedly between 6 and 14 DIV, and also upon addition of neurotrophins. The most striking consequence of arcuate neuron maturation in vitro between 6 and 14 DIV was a marked phenotypic specification affecting somatostatin, neuropeptide Y and pro-opiomelanocortin, the three major neuropeptides expressed in the cultures. NT3, but not BDNF, was able to reproduce maturation-related phenotypic specification in 6 DIV arcuate cultures. Maturation-dependent phenotypic specification was less marked in periventricular cultures; in that case BDNF, not NT3 had a slight effect on phenotype specification. It is concluded that NT3 plays a selective role in phenotypic specification of neuropeptides in the arcuate region, whereas other maturation parameters (neurotrophin receptor expression and/or synaptogenesis) can be potentiated by either neurotrophin in both structures.
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PMID:The neurotrophins NT3 and BDNF induce selective specification of neuropeptide coexpression and neuronal connectivity in arcuate and periventricular hypothalamic neurons in vitro. 1181 35

The mechanism of action of acetaminophen is currently widely discussed. Direct inhibition of cyclooxygenase isoforms remains the commonly advanced hypothesis. We combined behavioral studies with molecular techniques to investigate the mechanism of action of acetaminophen in a model of tonic pain in rats. We show that acetaminophen indirectly stimulates spinal 5-hydroxytryptamine (5-HT)1A receptors in the formalin test, thereby increasing transcript and protein levels of low-affinity neurotrophin receptor, insulin-like growth factor-1 (IGF-1) receptor alpha subunit, and growth hormone receptor and reducing the amount of somatostatin 3 receptor (sst3R) mRNA. Those cellular events seem to be important for the antinociceptive activity of acetaminophen. Indeed, down-regulation of sst3R mRNA depends on acetaminophen-elicited, 5-HT1A receptor-dependent increase in neuronal extracellular signal-regulated kinase 1/2 (ERK1/2) activities that mediate antinociception. In addition, spinal growth hormone (GH) and IGF-1 receptors would also be involved in the antinociceptive activity of the analgesic at different degrees. Our results show the involvement of specific 5-HT1A receptor-dependent cellular events in acetaminophen-produced antinociception and consequently indicate that inhibition of cyclooxygenase activities is not the exclusive mechanism involved. Furthermore, we propose that the mechanisms of 5-HT1A receptor-elicited antinociception and the role of the spinal ERK1/2 pathway in nociception are more intricate than suspected so far and that the GH/IGF-1 axis is an interesting new player in the regulation of spinal nociception.
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PMID:Acetaminophen recruits spinal p42/p44 MAPKs and GH/IGF-1 receptors to produce analgesia via the serotonergic system. 1708 3

Alterations in the inhibitory circuitry of the dorsolateral prefrontal cortex (DLPFC) in schizophrenia include reduced expression of the messenger RNA (mRNA) for somatostatin (SST), a neuropeptide present in a subpopulation of gamma-aminobutyric acid (GABA) neurons. However, neither the cellular substrate nor the causal mechanisms for decreased SST mRNA levels in schizophrenia are known. We used in situ hybridization to quantify the compartmental, laminar, and cellular levels of SST mRNA expression in the DLPFC of 23 pairs of schizophrenia or schizoaffective disorder and control subjects. We also explored potential causal mechanisms by utilizing similar methods to analyze SST mRNA expression in 2 animal models. The expression of SST mRNA was significantly decreased in layers 2-superficial 6 of subjects with schizophrenia, but not in layer 1, deep 6 or the white matter. At the cellular level, both the density of cortical SST mRNA-positive neurons and the expression of SST mRNA per neuron were reduced in the subjects with schizophrenia. These alterations were not due to potential confounds and appeared to be a downstream consequence of impaired neurotrophin signaling through the trkB receptor. These findings support the hypothesis that a marked reduction in SST mRNA expression in a subset of GABA neurons contributes to DLPFC dysfunction in schizophrenia.
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PMID:Alterations in somatostatin mRNA expression in the dorsolateral prefrontal cortex of subjects with schizophrenia or schizoaffective disorder. 1820 98

Glucagon-like peptide-1 (GLP-1) ameliorates the symptoms of diabetes through stimulation of insulin secretion. We have investigated the possible components of cellular mechanism triggered by exendin-4, a potent GLP-1 receptor agonist, in streptozotocin (STZ) induced diabetic mice pancreas. BALB/c male mice were divided into four groups for this investigation. The first group was given citrate buffer only, the second group was administered exendin-4 alone, the third group received STZ, and the fourth group was given both STZ and exendin-4. Exendin-4 (3 microg/kg) was administered by daily subcutaneous injection for 30 days after the animals were rendered diabetic by administration of STZ (200 mg/kg). With exendin-4 treatment on diabetic mice, the following results were noted: (i) exendin-4 suppressed the increase in plasma glucose and inhibited somatostatin expression induced by STZ, (ii) reduction of insulin prevalence was inhibited, while expression of p75 neurotrophin receptor (p75NTR), pancreatic nerve growth factor (NGF), and NGF-positive islet cell prevalence increased, (iii) there were no alterations in the severity of proliferated cell nuclear antigen positive or apoptotic beta cells in pancreatic islets, and (iv) pancreatic catalase, glutathione peroxidase, and superoxide dismutase activities significantly increased. In conclusion, these data suggest that exendin-4 might exert its actions through the NGF/p75NTR system and decrease somatostatin expression.
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PMID:Exendin-4 exerts its effects through the NGF/p75NTR system in diabetic mouse pancreas. 1976 27

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