EC:2.7.7.6 - FACTA Search

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)

Endothelin-converting enzyme (ECE)-1 is a membrane-bound metalloprotease responsible for production of vasoactive endothelin (ET)-1 from inactive big ET-1. ECE-1 exists as four separate isoforms, ECE-1a, b, c, and d, which differ only in their amino-terminal regions. We investigated the expression and localization of the ECE-1 isoforms in primary human umbilical vein endothelial cells (HUVECs) and EAhy926 cells. Reverse transcriptase polymerase chain reaction showed expression of all four isoforms in both cell lines, with ECE-1d seeming, at least qualitatively, to be the predominant isoenzyme. Isoform-specific polyclonal antibodies were used to investigate isoform protein expression. ECE-1a, b, and c protein was detected in EAhy926 cells by immunoblotting; only ECE-1a and ECE-1c were detected in HUVECs. Using immunofluorescence microscopy analysis, both HUVEC and EAhy926 cells showed nuclear immunoreactivity with a monoclonal antibody recognizing all ECE-1 isoforms. The ECE-1a antibody also showed nuclear immunoreactivity in both cell lines; this seemed to colocalize with nucleolin. The ECE-1b antibody showed nuclear immunoreactivity in EAhy926 cells, but no overlap with nucleolin was seen. Intracellular immunoreactivity was seen in both cell lines using the ECE-1c antibody; this showed some colocalization with concanavalin A (an endoplasmic reticulum marker). von Willebrand Factor was used as a marker for Weibel-Palade bodies in HUVECs, but no colocalization with ECE-1 was seen during this study. The data presented here sheds new light on the localization of ECE-1a, b, and c in cultured human endothelial cells, which may further understanding of the ET system and aid design of therapeutic ECE inhibitors.
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PMID:Expression and localization of endothelin-converting enzyme-1 isoforms in human endothelial cells. 1674 Sep 87

The Saccharomyces cerevisiae basic leucine zipper transcription factor Hac1p is synthesized in response to the accumulation of unfolded polypeptides in the lumen of the endoplasmic reticulum (ER), and it is responsible for up-regulation of approximately 5% of all yeast genes, including ER-resident chaperones and protein-folding catalysts. Hac1p is one of the most short-lived yeast proteins, having a half-life of approximately 1.5 min. Here, we have shown that Hac1p harbors a functional PEST degron and that degradation of Hac1p by the proteasome involves the E2 ubiquitin-conjugating enzyme Ubc3/Cdc34p and the SCF(Cdc4) E3 complex. Consistent with the known nuclear localization of Cdc4p, rapid degradation of Hac1p requires the presence of a functional nuclear localization sequence, which we demonstrated to involve basic residues in the sequence (29)RKRAKTK(35). Two-hybrid analysis demonstrated that the PEST-dependent interaction of Hac1p with Cdc4p requires Ser146 and Ser149. Turnover of Hac1p may be dependent on transcription because it is inhibited in cell mutants lacking Srb10 kinase, a component of the SRB/mediator module of the RNA polymerase II holoenzyme. Stabilization of Hac1p by point mutation or deletion, or as the consequence of defects in components of the degradation pathway, results in increased unfolded protein response element-dependent transcription and improved cell viability under ER stress conditions.
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PMID:SCFCdc4-mediated degradation of the Hac1p transcription factor regulates the unfolded protein response in Saccharomyces cerevisiae. 1710 29

We recently cloned the human Na(+)-independent system L neutral amino acid transporter LAT3. The aim of the present study was to characterize the molecular nature of mouse LAT3 at the protein level. Isolated mouse LAT3 showed 83% identity to human LAT3. Xenopus oocytes injected with mouse LAT3 cRNA showed the same functional property as human LAT3. Reverse transcriptase-polymerase chain reaction revealed apparent transcripts of mouse LAT3 in the liver, skeletal muscle, and pancreas, an expression pattern identical to that found in humans. Antibody generated against mouse LAT3 detected both approximately 58-kd and 48-kd bands in the sample from liver and only a 48-kd band in skeletal muscle and pancreas. Immunohistochemical study showed its clear localization in the plasma membrane of liver and skeletal muscle, whereas it was only detectable in the endoplasmic reticulum and in crystalline inclusions in pancreatic acinar cells. Starvation induced up-regulation of mouse LAT3 protein and mRNA in both liver and skeletal muscle but not in pancreas. These results suggest that LAT3 may indeed function as an amino acid transporter, transporting branched-chain amino acids from liver and skeletal muscle to the bloodstream and thereby participating in the regulatory system of interorgan amino acid nutrition.
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PMID:Protein characterization of NA+-independent system L amino acid transporter 3 in mice: a potential role in supply of branched-chain amino acids under nutrient starvation. 1732 74

It is controversial whether the mode of cell death induced by CAG repeat diseases is apoptotic. One technical problem that affects this issue is that the very methods used for DNA injection may induce artificial apoptosis. A recent study demonstrated that the functions of RNA polymerase II are disrupted in spinocerebellar ataxia type 1 (SCA 1) pathology, one of the CAG repeat diseases, and that alpha-amanitin can inhibit the activity of RNA polymerase. To examine the cell death mechanisms involved in CAG repeat diseases, we treated cultured rat neurons with alpha-amanitin to avoid the artifacts caused by DNA transfection. Mature and immature rat neurons were treated with alpha-amanitin for 4-6 days and the effects of the treatment on the elongation of neurites, the distribution or morphology of organelles, and the nature of cell death were assessed by immunocytochemistry and quantitative analysis. Neurons exhibited a disruption of neurite elongation and eventually died by day 15 of the treatment. However, apoptosis was not detected. When the neurons survived well, but showed altered neurites, Golgi complexes and lysosomes exhibited changes in their normal intracellular distribution or morphology, but the endoplasmic reticulum and mitochondria did not. The distribution of phosphorylated Trk receptors was also disrupted in the neurites of treated neurons. The signal intensity of the dynein intermediate chain was markedly decreased in the treated neurons. Thus, organelle transport systems, particularly a minus-end-directed microtubule-dependent pathway, would be disrupted by the inhibition of RNA polymerase, and this change is likely to be an early event involved in SCA 1 pathology.
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PMID:Nonapoptotic cell death caused by the inhibition of RNA polymerase disrupts organelle distribution. 1736 3

Calreticulin (CRT) is a resident protein of the endoplasmic reticulum where it serves as a calcium modulator and chaperone to newly synthesized glycoproteins. In mammals, CRT is a structurally conserved 46 kDa protein that demonstrates anomalous migration at 60 kDa on SDS polyacrylamide gels and can be up-regulated by A23187 and thapsigargin due to the endoplasmic reticulum stress elements (ERSE) in the promoter region of its gene. CRT has numerous proposed functions and has been localized to the surface of PHA-stimulated T lymphocytes. CRT has been identified in mammals, plants and more recently from rainbow trout. Here, we report the cloning of the CRT proximal promoter from rainbow trout which includes elements typical of genes transcribed by RNA polymerase II including a TATA box, an Sp1 binding site, CCAAT boxes and the conservation of promoter stress elements (ERSE) demonstrated to be responsible for calcium modulation in mammals. This report demonstrates that the anomalous 60 kDa gel migration of mammalian CRT is conserved in rainbow trout and that CRT exists primarily as a dimer or oligomer in all tissues tested, excluding muscle and sperm in which it exists as a single polypeptide. Although it contains a potential N-glycosylation site, rainbow trout CRT is not subject to N-type glycosylation. Through the use of reverse transcriptase (RT) PCR along with western blotting, in both primary cultured leukocytes and the macrophage cell line RTS11, this report demonstrates that, unlike mammals, rainbow trout CRT is not strongly up-regulated by the calcium homeostasis antagonists, A23187 and thapsigargin, but is present on the cell surface of PHA-stimulated leukocytes. Taken together, this data suggests that CRT may have an alternative mode of regulation or function in fish.
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PMID:Calreticulin in rainbow trout: a limited response to endoplasmic reticulum (ER) stress. 1749 Sep 7

Two porcine cell lines of yolk-sac visceral endoderm, designated as PE-1 and PE-2, were derived from in vivo 11-d porcine blastocysts that were either ovoid (PE-1) or at the early tubular stage of elongation (PE-2). Primary and secondary culture of the cell lines was done on STO feeder cells. The PE-1 and PE-2 cells morphologically resembled visceral endoderm previously cultured from in vivo-derived ovine and equine blastocysts and from in vitro-derived bovine blastocysts. Analysis of the PE-1- and PE-2-conditioned medium by 2D-gel electrophoresis and matrix-assisted laser desorption/ionization-time-of-flight-mass spectrometry demonstrated that they produced serum proteins. Reverse transcriptase polymerase chain reaction analysis showed that the cells expressed several genes typical for yolk-sac endoderm differentiation and function including GATA-6, DAB-2, REX-1, HNF-1, transthyretin, alpha-fetoprotein, and albumin. Unlike a porcine liver cell line, the PE-1 and PE-2 cell lines had relatively low inducible P-450 content and EROD activity, and, while they cleared ammonia from the cell culture medium, they did not produce urea. Transmission electron microscopy revealed that the cells were a polarized epithelium connected by complex junctions resembling tight junctions and by lateral desmosomes. Rough endoplasmic reticulum was prominent within the cells. Immunocytochemistry indicated that the PE-1 cells expressed cytokeratin 18 and had robust microtubule networks similar to those observed in in vivo porcine yolk-sac endoderm. Metaphase spreads prepared at passage 26 of the PE-1 cell line indicated a diploid porcine karyotype of 38 chromosomes. The cells have been grown for over 1 yr for multiple passages at 1:10 or 1:20 split ratios on STO feeder cells. The cell lines will be of interest as an in vitro model of the porcine preimplantation yolk-sac tissue.
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PMID:Isolation and characterization of porcine visceral endoderm cell lines derived from in vivo 11-day blastocysts. 1757 21

Ribozymes are naturally-occurring catalytic RNAs from the viroid world and are being engineered in the laboratory to perform sequence-specific cleavage of a desired mRNA target. Since their Nobel Prize-winning discovery, there has been considerable interest in the utility of ribozymes as gene therapeutic agents to silence disease-causing genes. This technology is not perfect, but extensive efforts to improve upon natural design of ribozymes have enabled these RNA molecules to perform various tasks. In this chapter, we highlight the construction of two types of ribozymes: conventional and hybrid hammerhead ribozymes. The hybrid ribozyme described here is an improved version of the basic hammerhead motif with the following features: (a) the use of the RNA polymerase III (polIII) tRNAVal promoter to achieve a high level of transcription, (b) 5' linkage to the cloverleaf-shaped tRNAVal to enhance intracellular stability and cytoplasmic transport, and (c) a 3' end poly-(A) tail to act as a "molecular anchor" for endogenous RNA helicases endowing the ribozyme ability to disentangle higher-order structures of the target mRNA. Randomized hybrid ribozyme libraries have been used successfully for revelation of gene functions involved in metastasis, invasion, differentiation, apoptosis, endoplasmic reticulum stress and may be extended to gene functions involved in innate or induced cellular senescence of human cells.
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PMID:Use of ribozymes in cellular aging research. 1763 84

Hepatitis C virus (HCV) is a major causative agent of hepatocellular carcinoma. HCV genome replication occurs in the replication complex (RC) around the endoplasmic reticulum membrane. However, the mechanisms regulating the HCV RC remain widely unknown. Here, we used a chemical biology approach to show that estrogen receptor (ESR) is functionally associated with HCV replication. We found that tamoxifen suppressed HCV genome replication. Part of ESRalpha resided on the endoplasmic reticulum membranes and interacted with HCV RNA polymerase NS5B. RNA interference-mediated knockdown of endogenous ESRalpha reduced HCV replication. Mechanistic analysis suggested that ESRalpha promoted NS5B association with the RC and that tamoxifen abrogated NS5B-RC association. Thus, ESRalpha regulated the presence of NS5B in the RC and stimulated HCV replication. Moreover, the ability of ESRalpha to regulate NS5B was suggested to serve as a potential novel target for anti-HCV therapeutics.
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PMID:Anti-hepatitis C virus activity of tamoxifen reveals the functional association of estrogen receptor with viral RNA polymerase NS5B. 1770 57

The assembly of RNA replication complexes on intracellular membranes is an essential step in the life cycle of positive-sense RNA viruses. We have previously shown that Hsp90 chaperone complex activity is essential for efficient Flock House virus (FHV) RNA replication in Drosophila melanogaster S2 cells. To further explore the role of cellular chaperones in viral RNA replication, we used both pharmacologic and genetic approaches to examine the role of the Hsp90 and Hsp70 chaperone systems in FHV RNA replication complex assembly and function in Saccharomyces cerevisiae. In contrast to results with insect cells, yeast deficient in Hsp90 chaperone complex activity showed no significant decrease in FHV RNA replication. However, yeast with a deletion of the Hsp70 cochaperone YDJ1 showed a dramatic reduction in FHV RNA replication that was due in part to reduced viral RNA polymerase accumulation. Furthermore, the absence of YDJ1 did not reduce FHV RNA replication when the viral RNA polymerase and replication complexes were retargeted from the mitochondria to the endoplasmic reticulum. These results identify YDJ1 as an essential membrane-specific host factor for FHV RNA replication complex assembly and function in S. cerevisiae and are consistent with known differences in the role of distinct chaperone complexes in organelle-specific protein targeting between yeast and higher eukaryotes.
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PMID:The heat shock protein 70 cochaperone YDJ1 is required for efficient membrane-specific flock house virus RNA replication complex assembly and function in Saccharomyces cerevisiae. 1805 52

One of the central questions in eukaryotic transcription is how activators can transmit their signal to stimulate gene expression in the context of chromatin. The multisubunit SAGA coactivator complex has both histone acetyltransferase and deubiquitination activities and remodels chromatin to allow transcription. Whether and how SAGA is able to regulate transcription at specific loci is poorly understood. Using mass spectrometry, immunoprecipitation, and Western blot analysis, we have identified human SPT20 (hSPT20) as the human homologue of the yeast Spt20 and show that hSPT20 is a bona fide subunit of the human SAGA (hSAGA; previously called TFTC/STAGA/PCAF) complex and that hSPT20 is required for the integrity of the hSAGA complex. We demonstrate that hSPT20 and other hSAGA subunits, together with RNA polymerase II, are specifically recruited to genes induced by endoplasmic reticulum (ER) stress. In good agreement with the recruitment of hSAGA to the ER stress-regulated genes, knockdown of hSTP20 hampers ER stress response. Surprisingly, hSPT20 recruitment was not observed for genes induced by another type of stress. These results provide evidence for a direct and specific role of the hSPT20-containing SAGA complex in transcriptional induction of ER stress-responsive genes. Thus, hSAGA regulates the transcription of stress-responsive genes in a stress type-dependent manner.
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PMID:The human SPT20-containing SAGA complex plays a direct role in the regulation of endoplasmic reticulum stress-induced genes. 1911 50

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