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)

The signal pathway for light-induced expression of c-fos and the neuropeptide somatostatin (SS) in rat retinal cells was investigated. Flashing light induced c-fos and SS mRNA in the inner nuclear layer and the ganglion cell layer. As both c-fos and SS genes have a cyclic AMP response element (CRE) in their promoters, CRE-binding protein (CREB) phosphorylation in retinal cells was examined with a phospho-CREB-specific antibody. Both flashing light and administration of the L-type Ca2+ channel activator Bay K 8644 induced phosphorylation of CREB in the nuclei of the amacrine cells and the ganglion cells where c-fos/SS mRNAs were expressed. These cells could be double-stained with anti-calmodulin kinase II (anti-CaM kinase II) monoclonal antibody and phospho-CREB-specific polyclonal antiserum after Bay K 8644 administration, indicating the colocalization of phosphorylated CREB at Ser133 and CaM kinase II in the neural retina.
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PMID:Light-induced CREB phosphorylation and gene expression in rat retinal cells. 756 43

1. The aim of this study was to investigate the neurochemical effects and measure the anatomical spread of infusion of c-fos antisense (AS) DNA into the striatum. 2. Rats were anesthetized and infused in opposing striata with c-fos AS and c-fos sense (S) DNA. Ten hours later they were injected with apomorphine (2 mg/kg, i.p.) and 20 min later they were overdosed with sodium pentobarbital and their brains either perfused or frozen. Vibratome-cut sections were immunostained for the detection of c-fos, JunB, Krox 24, somatostatin, substance P, dynorphin, tyrosine hydroxylase, and enkephalin. Cryostat-cut sections from the caudate were immunostained for the detection of c-fos, JunB, and Krox 24, as well as in situ hybridization for proenkephalin mRNA. Sections from the globus pallidus were used for the autoradiographic localization of D2 dopamine and A2a adenosine receptors. Sections from the substantia nigra were used for the autoradiographic localization of D1 dopamine and cannabinoid receptors. A second group of rats were injected in opposing striata with biotin-labeled c-fos AS DNA and c-fos S DNA. Ten hours later they were challenged with apomorphine (2 mg/kg, i.p.) and 20 min later brains were either perfused or frozen. Sections from these brains were cut throughout the rostral-caudal extent of the forebrain and the biotin labeled AS DNA was localized. 3. Krox 24 was expressed at high levels on the sense side of the brain in the striatum and overlying neocortex. However, on the AS-injected side there was a reduction in Krox 24 expression in striatum and overlying cortex. The biotin-labeled AS studies confirmed that the striatal infusion spread throughout the dorsal striatum as well as the overlying neocortex. We did not detect any changes in neurotransmitter receptors, neuropeptides, or tyrosine hydroxylase in AS/S-injected rat brains. 4. These results demonstrate that c-fos AS reduces Krox 24 expression in striatal and neocortical neurons but does not change the expression of a number of other proteins involved in basal ganglia function. Whether this effect is due to nonspecific actions of c-fos AS or to its effects on a component of the transduction pathway responsible for basal Krox 24 expression (NMDA receptors?) is unknown.
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PMID:c-fos antisense reduces expression of Krox 24 in rat caudate and neocortex. 762 2

We have reported previously that the widespread inhibitory actions of somatostatin might be mediated by its ability to inhibit the expression of the immediate early genes c-fos and c-jun. The products of these genes form a heterodimeric transcription factor complex [activator protein 1 (AP-1)], which is known to be induced by treatment with phorbol esters. In the present study, we sought to investigate the mechanisms by which somatostatin inhibits immediate early gene expression. For our experiments, we used a rat pituitary adenoma cell line (GH3), which is known to express multiple subclasses of somatostatin receptors. The phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) stimulated both AP-1 binding and transcriptional activity in GH3 cells and the somatostatin analogue octreotide inhibited this response by 40-70%. In the presence of two different phosphatase inhibitors, sodium orthovanadate or okadaic acid, the ability of somatostatin to inhibit AP-1 binding and transcriptional activity was abolished. This effect of octreotide, which appears to be mediated by the SSTR2 and SSTR5 subtypes of somatostatin receptors, was paralleled by its ability to inhibit TPA-stimulated GH3 cell proliferation. Pretreatment of the GH3 cells with pertussis toxin (200 ng/ml) reversed the inhibitory effect of octreotide on both AP-1 function and cellular proliferation. Our observations lead us to conclude that somatostatin not only inhibits immediate early gene expression but also inhibits AP-1 binding and transcriptional activity via the action of several classes of protein phosphatases. This effect, which is pertussis toxin sensitive, might be one mechanism by which somatostatin inhibits cellular proliferation.
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PMID:Somatostatin inhibits AP-1 function via multiple protein phosphatases. 763 95

Retinal neurons that express the immediate early gene c-fos after light exposure were characterized by neurotransmitter content using histochemical and immunocytochemical staining. In Northern blots the amount of c-fos mRNA peaked at 30 min, but remained detectable 60 min following light stimulation. Fos proteins were seen in the inner nuclear and ganglion cell layers, and the staining was most intense two and three hours after beginning the light exposure. In the ganglion cell layer 30-40% of Fos-immunoreactive cells were cholinergic displaced amacrine cells and 3-5% were ganglion cells. In the inner nuclear layer 24% of Fos-immunoreactive cells were Type I and 7% Type II NADPH-diaphorase-reactive (nitric oxide synthase) amacrine cells, 11% were tyrosine hydroxylase-containing cells, and 10-15% cholinergic amacrine cells. No Fos immunoreactivity was seen in serotoninergic, somatostatin- or VIP-immunoreactive cells, bipolar, horizontal or photoreceptor cells. Nicotine, kainic acid, NMDA and SCH 38393, a dopamine D1 receptor agonist, induced Fos immunostaining in the inner nuclear and ganglion cell layers, but administration of the corresponding receptor blockers mecamylamine, kynuretic acid, MK-801, haloperidol and SCH 23990 did not prevent light-induced Fos expression.
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PMID:Light-induced c-fos expression in amacrine cells in the rabbit retina. 777 1

The present study was designed to determine if and to what extent somatostatin (SST) synthesizing neurons of the hippocampal formation are activated during seizures, elicited through kindling of the perforant pathway. Tissue was used and analyzed from animals which had experienced a single after discharge, or a stage 3 or stage 5 seizure. The protein expression of the oncogene c-fos in activated, depolarizing neurons was utilized to identify seizure-activated SST-synthesizing neurons. Combined immunocytochemical and in situ hybridization methods were used to identify these double-labeled, Fos protein, and SST mRNA-containing neurons. The results were quantified and compared across seizure stages. The resulting data demonstrate that at every stage of seizure development, a majority of SST-synthesizing neurons is activated, but that these activated SST mRNA-containing neurons represent only a minority of all seizure-activated, Fos-expressing neurons in the hippocampal formation. The data further reveal a numerical hierarchy in which the majority of double-labeled neurons is present in the hilus of the dentate, followed by the stratum oriens of CA1. It is concluded that SST-synthesizing neurons represent an integral component of the kindling activated neuronal network and, since the SST synthesizing neurons represent the minority of all seizure-activated neurons in the hippocampal formation, that this neuronal network is likely to be of considerable neurochemical complexity.
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PMID:Activation of somatostatin-synthesizing neurons in the hippocampal formation through kindling-induced seizures. 778 45

We analyzed the ability of cyclic AMP-response element binding proteins (CREBs) to interact with the CRE sequences derived from different genes and examined the role of sequences flanking the core CRE element in rendering cAMP-responsiveness to the enhancer. We were able to detect reproducibly, sing the Southwestern blotting technique, five major CREB factors of molecular weights 56, 47, 40, and 36-34 kDa which were present in various rat tissues and cultured cells. The 34-40 kDa proteins (CREB-327/341) were able to bind to the CRE of cAMP-inducible genes (somatostatin, c-fos, E2A), but not to genes whose expression is not controlled by cAMP (glucagon, parathyroid hormone). The novel 47 kDa CREB had a high specificity for the core octameric CRE sequence and it bound equally well to the consensus CRE of cAMP-inducible and noninducible genes. On the other hand, the 47 kDa CREB did not bind at all to the phorbol ester response element (TRE), whereas the 56 kDa protein, reminiscent of the CRE-BP1 protein, could bind to both elements. A computer aided sequence analysis of cAMP-inducible gene promoters revealed the presence of an additional conserved element starting 4-6 nucleotides 3' to the octomer with the consensus C/GAGA/C. We have shown this element to be essential for maximal cAMP-responsiveness of the enhancer in transient expression assays of CRE-CAT plasmid constructs indicating that the functional interaction of CREB proteins with the cAMP-inducible enhancer involves an additional 8-10 base pairs immediately downstream from the CRE core element.
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PMID:Evidence that an additional conserved element with the consensus C/GAGA/C is essential for maximal responsiveness of the cyclic AMP enhancer. 790 79

A small surgical lesion of the parietal cortex induces an increase in the expression of several messenger RNAs varying from 172 to 980% in the entire homolateral cerebral cortex, as detected by quantitative in situ hybridization histochemistry. The messenger RNAs encoding the immediate early genes of the leucine zipper family (c-fos, c-jun, jun-B), the Zinc finger family (zif268), the glucocorticoid receptor family (NGFI-B) and the interferon family (PC4) are increased within 2 h after the lesion and return to normal levels at 6 h. The messenger RNAs encoding cholecystokinin, neuropeptide Y, somatostatin and the synthetizing enzyme of the neurotransmitter GABA, glutamate decarboxylase, are elevated within one day and return to normal levels after six days. An intraperitoneal injection of the N-methyl-D-aspartate receptor antagonist dizocilpine maleate, 30 min before surgery, prevented either the induction of immediate early gene expression or the increase of neuropeptide and glutamate decarboxylase messenger RNA expression. This study demonstrates that a minimal cortical lesion induces extensive changes in gene expression and that the mechanism(s) leading to these changes involves the action of glutamate at the N-methyl-D-aspartate receptor. These modifications may be of importance in explaining diffuse changes not related to neuronal circuitry in several conditions.
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PMID:Homolateral cerebrocortical increase of immediate early gene and neurotransmitter messenger RNAs after minimal cortical lesion: blockade by N-methyl-D-aspartate antagonist. 791 80

The mechanisms by which somatostatin exerts its widespread inhibitory actions have been investigated extensively but understood only partially. Recent studies have shown that somatostatin can inhibit gene transcription directly. In view of the critical importance of early response genes in induction of gene expression, we examined whether the action of somatostatin might be mediated by inhibition of early response genes. The products of some of these genes, such as c-fos and c-jun, are known to form a heterodimeric transcription factor complex (AP-1) that binds specifically to the consensus sequence TGAC(G)TCA. Accordingly, we examined the effects of somatostatin on c-fos gene expression and on the binding of the AP-1 complex to its specific DNA element using isolated gastric parietal cells and the GH3 pituitary cell line. In both parietal and GH3 cells, c-fos-specific mRNA was increased by agents known to act via both adenosine-3',5'-cyclic monophosphate and Ca(2+)-dependent signaling mechanisms, and octreotide significantly inhibited this response. Pertussis toxin pretreatment (200 ng/ml) reversed the inhibitory effect of octreotide. AP-1 binding activity, assessed by gel shift assays using a 32P-labeled AP-1 oligonucleotide probe, was stimulated by dibutyryl adenosine 3',5'-cyclic monophosphate and serum and inhibited by octreotide treatment. Our observations support the notion that the universal inhibitory action of somatostatin may be mediated by inhibition of expression of early response genes via a pertussis toxin-sensitive inhibitory pathway. This effect appears to lead to decreased binding of regulatory nuclear proteins to their specific DNA elements resulting, presumably, in diminished gene expression.
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PMID:Molecular basis for somatostatin action: inhibition of c-fos expression and AP-1 binding. 791 96

Suprachiasmatic nuclei (SCN) contain a circadian oscillator that is normally synchronized by the light/dark cycle. Embryonic SCN grafted into the brain of an SCN-lesioned arrhythmic host define the period of the restored circadian locomotor rhythm. Gene expression of immediate-early genes, such as c-fos and jun-B, in the ventrolateral SCN is associated with circadian synchronization by light pulses and subjected to circadian control. Vasopressin and somatostatin gene expression in dorsomedial SCN show distinct circadian rhythms with higher peptide levels occurring during the day. It is currently unknown whether the circadian oscillator in SCN resides in a single cell or is a property of cellular network. Briefly presented are some model views about the circadian oscillator in SCN and the molecular and cellular approaches to the circadian function of the nucleus.
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PMID:Circadian function of suprachiasmatic nuclei: molecular and cellular biology. 792 42

The suprachiasmatic nuclei (SCN) contain a circadian system consisting of circadian oscillator (clock) that is normally synchronized by the light/dark cycle (input) and drives circadian rhythms (output) that are intrinsic to the SCN. Gene expression of immediate-early genes, such as c-fos and jun-B, in the ventrolateral SCN is associated with circadian synchronization by light pulses and subjected to circadian control. Vasopressin and somatostatin gene expression shown distinct circadian rhythms intrinsic to the dorsomedial SCN with higher peptide levels occurring during the day. In addition, embryonic SCN grafted into the brain of an SCN-lesioned arrhythmic host define the period of the restored circadian locomotor rhythm. Taken together, these and other findings support the notion that the expression of genes underlying circadian synchronization, oscillation and output takes place within individual SCN neurons. However, no information regarding the nature and number of those neurons as well as the molecular mechanisms of the single cell-circadian oscillator and output is currently available. Therefore, we propose a simple two-neuron model as a framework for critically discussing the molecular genetic strategies to analyze the circadian system in SCN.
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PMID:Gene expression in suprachiasmatic nucleus and circadian rhythms. 798 50


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