Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The mobilization of Ca2+ by purinoceptor activation and the relative contributions of intra- and extracellular sources of Ca2+ were investigated using microfluorimetric measurements of fura-2 loaded in cultured neurones from rat intracardiac ganglia. 2. Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed expression of mRNA for the G protein-coupled P2Y2 and P2Y4 receptors. 3. Brief application of either 300 microM ATP or 300 microM UTP caused transient increases in [Ca2+]i of 277 +/- 22 nM and 267 +/- 39 nM, respectively. Removal of external Ca2+ did not significantly reduce these [Ca2+]i responses. 4. The order of purinoceptor agonist potency for [Ca2+]i increases was ATP = UTP > 2-MeSATP > ADP >> adenosine, consistent with the profile for P2Y2 purinoceptors. ATP- and UTP-induced rises in [Ca2+]i were completely and reversibly blocked by 10 microM PPADS (a P2 purinoceptor antagonist) and partially inhibited by 100 microM suramin (a relatively non-specific purinoceptor antagonist). 5. In the presence of the endoplasmic reticulum Ca2+-ATPase inhibitor cyclopiazonic acid (10 microM) in Ca2+-free media, the [Ca2+]i responses evoked by ATP were progressively decreased and abolished. 6. ATP- and UTP-induced [Ca2+]i rises were insensitive to pertussis toxin, caffeine (5 mM) and ryanodine (10 microM) but were significantly reduced by U-73122, a phospholipase C (PLC) inhibitor. 7. In fura-2-loaded cells, perforated patch whole-cell recordings show that ATP and UTP evoked slow outward currents at -60 mV, concomitant with the rise in [Ca2+]i, in approximately 30 % of rat intracardiac neurones. 8. In conclusion, these results suggest that in r intracardiac neurones, ATP binds to P2Y2 purinoceptors to transiently raise [Ca2+]i and activate an outward current. The signalling pathway appears to involve a PTX-insensitive G protein coupled to PLC generation of IP3 which triggers the release of Ca2+ from a ryanodine-insensitive Ca2+ store(s).
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PMID:P2Y purinoceptor activation mobilizes intracellular Ca2+ and induces a membrane current in rat intracardiac neurones. 1089 18

Cell-free translation/translocation systems are broadly applied to examine gene expression and characterize the structure-function relationship of gene products. We present the characterization of Xenopus egg extract (XEE) translocation and processing of proteins synthesized in rabbit reticulocyte lysate. The XEE was prepared from eggs laid by adult female frogs that received serial injections of gonadotropins. The eggs were then dejellied in 2% L-cysteine-HCl and the cytoplasm extracted by centrifugation at 10,000 rpm for 15 min. The in vitro translocation and processing of XEE was examined with a cell-free translation system containing reticulocyte lysate, and appropriate messenger ribonucleic acid (RNA) or complementary deoxyribonucleic acid plasmids with RNA polymerase. Cell-free production of the following proteins were used to assess posttranslational modifications: Escherichia coli beta-lactamase for signal sequence cleavage, Saccharomyces cerevisiae alpha-mating factor for translocation and N-linked glycosylation, the soluble protein luciferase for functional activity, and the membrane-bound human insulin receptor for translation efficiency. All translation products were identified by [35S]-methionine labeling, sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fluorography. The results demonstrate that (1) XEE produces near-complete signal sequence and N-glycosylation processing of proteins synthesized in reticulocyte lysate, (2) XEE contains endoplasmic reticulum-equivalent microsomes, which allows for protein translocation and protease protection, (3) the addition of XEE in the translation reaction does not affect synthesis and chemiluminescence activity of luciferase, (4) XEE is efficient in processing the nascent 160-kDa human insulin receptor precursor, a transmembrane protein, and (5) as compared to canine pancreatic microsomes, XEE translocation efficiency is minimally decreased with the addition of dimethylsulfoxide. These results are the first description of the combined use of XEE with reticulocyte lysate and clearly demonstrate a higher efficiency of translocation and processing compared to canine pancreatic microsomes. This method of cell-free translation and processing allows for more extensive in vitro examination of posttranslational modifications of secretory and membrane-bound proteins.
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PMID:Efficient translocation and processing with Xenopus egg extracts of proteins synthesized in rabbit reticulocyte lysate. 1093 32

One of the major mechanisms by which hormones elevate intracellular Ca(2+)levels is by generating the second messenger inositol 1,4, 5-trisphosphate (InsP(3)), which activates a Ca(2+)channel (InsP(3)receptor) located in the endoplasmic reticulum (ER). This study undertakes to identify the InsP(3)receptor subtypes (isoforms) in heart and aorta and to characterize their functional properties. The InsP(3)receptor isoforms were identified from rat heart and aorta tissues using both reverse-transcriptase polymerase chain reaction (RT-PCR) to assess the presence of mRNA for the different isoforms and immunochemistry using InsP(3)receptor isoform-specific antibodies. Functional studies included ligand binding experiments using [(3)H]InsP(3)and InsP(3)-induced Ca(2+)release studies using Fluo-3 as the Ca(2+)sensing dye. All three isoforms of the InsP(3)receptor were identified using RT-PCR and immunochemical analyses. [(3)H]InsP(3)binding studies using microsomes derived from these tissues showed that heart had a 3-fold lower abundance of InsP(3)receptors than aorta, while both have considerably lower abundance than the well characterized cerebellar microsomes. The affinity of the InsP(3)binding to the receptor was also different in the three tissues. In cerebellum the K(d)was 60 nM, while aorta had a much higher K(d)of 220 nM. Heart microsomes, appeared to show two classes of binding affinity with K(d)s of 150 nM and 60 nM. Furthermore, the effects of free [Ca(2+)] on [(3)H]InsP(3)binding levels were also different for the three tissues. InsP(3)binding to both cerebellar and aorta microsomes decreased by 90% and 60%, respectively, above 30 nM free [Ca(2+)], while InsP(3)binding to heart was relatively insensitive to changes in [Ca(2+)]. At maximal InsP(3)concentrations, aorta microsomes were able to release about 5% of the accumulated Ca(2+), compared to 25% by cerebellar microsomes. Heart microsomes, however, showed only very little InsP(3)-induced Ca(2+)release ( <0.5%). The EC(50)concentration for InsP(3)-induced Ca(2+)release was 1.2 micro M for aorta while that for cerebellum was 0.3 micro M. Known agonists of the cerebellar InsP(3)receptor such as 3-deoxy InsP(3)and adenophostin A were also able to mobilize Ca(2+)from aorta microsomes. In addition, the competitive antagonist heparin and the non-competitive antagonists of the cerebellar InsP(3)receptor, tetracaine and tetrahexylammonium chloride, were also able to block InsP(3)-induced Ca(2+)release from aorta microsomes.
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PMID:Subtype identification and functional properties of inositol 1,4, 5-trisphosphate receptors in heart and aorta. 1105 12

Dental enamel-forming cells face a major challenge to avoid the cytotoxic effects of excess calcium. We have characterized sarcoplasmic/endoplasmic reticulum calcium-ATPase pumps (SERCA) in rat enamel cells to address the proposal that non-mitochondrial calcium stores play a dominant role in transcellular calcium transport. A single major isoform, SERCA2b, was detected during the protein-secretory and calcium-transport stages of enamel formation using reverse-transcriptase PCR, cDNA cloning, Northern analysis and immunoblotting. Most importantly, SERCA2b exhibited a specific 3-fold up-regulation to high expression levels during calcium transport, as determined by quantitative immunoblotting and ATPase assays. Sensitivity of the calcium-dependent ATPase to thapsigargin and three other SERCA inhibitors was characterized. These findings indicate that enamel cells are well-equipped to sequester calcium in endoplasmic reticulum stores and so protect against calcium toxicity, associate SERCA with transcellular calcium transport for the first time, and establish SERCA2b as a molecular and pharmacological target for future investigations of calcium transcytosis. The observed physiological regulation in enamel cells contradicts the widespread perception that SERCA2b is restricted to general housekeeping duties.
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PMID:Endoplasmic reticulum Ca2+-ATPase pump is up-regulated in calcium-transporting dental enamel cells: a non-housekeeping role for SERCA2b. 1148 70

RNA replication of all positive-strand RNA viruses is closely associated with intracellular membranes. Brome mosaic virus (BMV) RNA replication occurs on the perinuclear region of the endoplasmic reticulum (ER), both in its natural plant host and in the yeast Saccharomyces cerevisiae. The only viral component in the BMV RNA replication complex that localizes independently to the ER is 1a, a multifunctional protein with an N-terminal RNA capping domain and a C-terminal helicase-like domain. The other viral replication components, the RNA polymerase-like protein 2a and the RNA template, depend on 1a for recruitment to the ER. We show here that, in membrane extracts, 1a is fully susceptible to proteolytic digestion in the absence of detergent and thus, a finding consistent with its roles in RNA replication, is wholly or predominantly on the cytoplasmic face of the ER with no detectable lumenal protrusions. Nevertheless, 1a association with membranes is resistant to high-salt and high-pH treatments that release most peripheral membrane proteins. Membrane flotation gradient analysis of 1a deletion variants and 1a segments fused to green fluorescent protein (GFP) showed that sequences in the N-terminal RNA capping module of 1a mediate membrane association. In particular, a region C-terminal to the core methyltransferase homology was sufficient for high-affinity ER membrane association. Confocal immunofluorescence microscopy showed that even though these determinants mediate ER localization, they fail to localize GFP to the narrow region of the perinuclear ER, where full-length 1a normally resides. Instead, they mediate a more globular or convoluted distribution of ER markers. Thus, additional sequences in 1a that are distinct from the primary membrane association determinants contribute to 1a's normal subcellular distribution, possibly through effects on 1a conformation, orientation, or multimerization on the membrane.
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PMID:Identification of sequences in Brome mosaic virus replicase protein 1a that mediate association with endoplasmic reticulum membranes. 1171 27

Nuclear clusterin (nCLU) is an ionizing radiation (IR)-inducible protein that binds Ku70, and triggers apoptosis when overexpressed in MCF-7 cells. We demonstrate that endogenous nCLU synthesis is a product of alternative splicing. Reverse transcriptase-PCR analyses revealed that exon II, containing the first AUG and encoding the endoplasmic reticulum-targeting peptide, was omitted. Exons I and III are spliced together placing a downstream AUG in exon III as the first available translation start site. This shorter mRNA produces the 49-kDa precursor nCLU protein. Ku70 binding activity was localized to the C-terminal coiled-coil domain of nCLU. Leucine residues 357, 358, and 361 of nCLU were necessary for Ku70-nCLU interaction. The N- and C-terminal coiled-coil domains of nCLU interacted with each other, suggesting that the protein could dimerize or fold. Mutation analyses indicate that the C-terminal NLS was functional in nCLU with the same contribution from N-terminal NLS. The C-terminal coiled-coil domain of nCLU was the minimal region required for Ku binding and apoptosis. MCF-7 cells show nuclear as well as cytoplasmic expression of GFP-nCLU in apoptotic cells. Cytosolic aggregation of GFP-nCLU was found in viable cells. These results indicate that an inactive precursor of nCLU exists in the cytoplasm of non-irradiated MCF-7 cells, translocates into the nucleus following IR, and induces apoptosis.
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PMID:Synthesis and functional analyses of nuclear clusterin, a cell death protein. 1255 33

Ceramidases deacylate ceramides, important intermediates in the metabolic pathway of sphingolipids. In this study, we report the cloning and characterization of a novel mouse alkaline ceramidase (maCER1) with a highly restricted substrate specificity. maCER1 consists of 287 amino acids, and it has a 28 and 32% identity to the Saccharomyces alkaline ceramidases (YPC1p and YDC1p) and the human alkaline phytoceramidase, respectively. Reverse transcriptase-PCR analysis demonstrated that maCER1 was predominantly expressed in skin. maCER1 was localized to the endoplasmic reticulum as revealed by immunocytochemistry. In vitro biochemical characterization determined that maCER1 hydrolyzed D-erythro-ceramide exclusively but not D-erythro-dihydroceramide or D-ribo-phytoceramide. Similar to other alkaline ceramidases, maCER1 had an alkaline pH optimum of 8.0, and it was activated by Ca2+ but inhibited by Zn2+,Cu2+, and Mn2+. maCER1 was also inhibited by sphingosine, one of its products. Metabolic labeling studies showed that overexpression of maCER1 caused a decrease in the incorporation of radiolabeled dihydrosphingosine into ceramide and complex sphingolipids but led to a concomitant increase in sphingosine-1-P (S1P) in HeLa cells. Mass measurement showed that overexpression of maCER1 selectively lowered the cellular levels of D-erythro-C24:1-ceramide, but not other ceramide species and caused an increase in the levels of S1P. Taken together, these data suggest that maCER1 is a novel alkaline ceramidase with a stringent substrate specificity and that maCER1 is selectively expressed in skin and may have a role in regulating the levels of bioactive lipids ceramide and S1P, as well as complex sphingolipids.
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PMID:Cloning and characterization of a mouse endoplasmic reticulum alkaline ceramidase: an enzyme that preferentially regulates metabolism of very long chain ceramides. 1278 75

Sphingosine 1-phosphate (S1P) has assumed great importance within neuroscience research because of putative links between S1P-sensitive Edg receptors and neuroregeneration, cell survival, and alterations in neurite outgrowth. In the present study, we examined the mechanisms by which the endogenous complement of S1P-sensitive human Edg receptors can elevate Ca(2+) in the human neuroblastoma cell line, SH-SY5Y. Reverse transcriptase-polymersase chain reaction (RT-PCR) confirmed the expression of mRNA for Edg 3, 5, and 8 subtypes of S1P-responsive Edg receptors in SH-SY5Y cells. Neither S1P nor the muscarinic agonist methacholine were able to cause a change in SH-SY5Y cell morphology, whereas retinoic acid caused a range of changes, including an increase in neurite outgrowth, under similar test conditions. Stimulation with S1P resulted in a slowly rising increase in cytosolic Ca(2+) levels. These responses were dependent upon inositol-1,4,5-trisphosphate receptors, thapsigargin-sensitive endoplasmic reticulum, and also intact functional mitochondria. S1P-evoked Ca(2+) responses were similar in mechanism to those of methacholine, which activated a much faster responding, larger amplitude Ca(2+) response. These studies indicate that in an endogenous human expression system, S1P appears to be an efficacious agonist of Edg receptors. Despite its slow time course of response, S1P appears to activate the same single Ca(2+) store in SH-SY5Y cells as is activated by methacholine and other G protein coupled receptors.
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PMID:Characterisation of a sphingosine 1-phosphate-activated Ca2+ signalling pathway in human neuroblastoma cells. 1283 64

The unfolded protein response (UPR) is a signalling pathway leading to transcriptional activation of genes that protect cells from accumulation of unfolded proteins in the lumen of the endoplasmic reticulum (ER). In yeast, the only known ER stress signalling pathway originates at the type I transmembrane protein kinase/endoribonuclease Ire1p. Ire1p regulates synthesis of the basic leucine-zipper (bZIP)-containing transcription factor Hac1p by controlling splicing of HAC1 mRNA. Only spliced HAC1 mRNA (HAC1i) is translated, and Hac1ip activates transcription of genes that contain a conserved UPR element (UPRE) in their promoters. Here, we demonstrate that in addition to this well-understood ER stress signalling pathway, a second, IRE1, HAC1 and UPRE-independent mechanism for transcriptional activation upon ER stress, exists in yeast. A genetic screen identified recessive SIN4 alleles as suppressors of a defective UPR in ire1 Delta strains. Elevation of basal transcription in sin4 strains or by tethering the RNA polymerase II holoenzyme with LexAp-holoenzyme component fusion proteins to a promoter allowed for activation of the promoter by ER stress in an IRE1, HAC1 and UPRE-independent manner. We propose that this novel second ER-to-nucleus signal transduction pathway culminates in core promoter activation (CPA) through stimulation of RNA polymerase II holoenzyme activity. Core promoter activation was observed upon diverse cellular stresses, suggesting it represents a primordial stress-induced gene activation mechanism.
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PMID:IRE1- and HAC1-independent transcriptional regulation in the unfolded protein response of yeast. 1286 46

Using a recombinant vaccinia virus containing the T7 RNA polymerase, we have established a system for the transient expression of human polymeric immunoglobulin receptor (pIgR) in baby hamster kidney cells, a baby hamster-derived fibroblastic cell line. This transfection system resulted in the successful expression of pIgR in these cells, and Western blot analysis showed that human pIgR was expressed as two different molecular weight forms of 92 and 107 kDa. Treatment with endoglycosidase H showed that the difference between these two forms was due to the glycosylation status of the protein. In order to examine the functional role of glycosylation, we treated the transfected cells with tunicamycin, which prevents a core glycosylation step in the endoplasmic reticulum. Non-glycosylated pIgR was released into the culture medium of the transfected cells, albeit with extremely low efficiency. Taking these results together, we conclude that the glycosylation of pIgR may play a positive role in the efficient transport or release of free pIgR.
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PMID:Release of non-glycosylated polymeric immunoglobulin receptor protein. 1450 12


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