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)

DRB is a classic inhibitor of transcription by RNA polymerase II (pol II). Although it has been demonstrated that DRB inhibits the elongation step of transcription, its mode of action has been elusive. DRB also markedly inhibits human immunodeficiency virus (HIV) transcription, by targeting the elongation which is enhanced by the HIV-encoded transactivator Tat. Two factors essential for DRB action have recently been identified. These factors, positive transcription elongation factor b (P-TEFb) and DRB sensitivity-inducing factor (DSIF), positively and negatively regulate pol II elongation, and are likely to be relevant to the function of Tat. In this review, we summarize the recent findings on these factors, and discuss a possible model for the molecular mechanism of DRB action.
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PMID:Interplay between positive and negative elongation factors: drawing a new view of DRB. 958 78

P-TEFb is required for the transition from abortive elongation into productive elongation and is capable of phosphorylating the carboxyl-terminal domain (CTD) of the largest subunit of RNA polymerase II. We cloned a cDNA encoding the large subunit of Drosophila P-TEFb and found the predicted protein contained a cyclin motif. We now name the large subunit cyclin T and the previously cloned small subunit (Zhu, Y. R., Peery, T., Peng, J. M., Ramanathan, Y., Marshall, N., Marshall, T., Amendt, B., Mathews, M. B., and Price, D. H. (1997) Genes Dev. 11, 2622-2632) cyclin-dependent kinase 9 (CDK9). Recombinant P-TEFb produced in baculovirus-transfected Sf9 cells exhibited 5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole-sensitive kinase activity similar to native P-TEFb. Kc cell nuclear extract depleted of P-TEFb failed to generate long DRB-sensitive transcripts, but this activity was restored upon addition of either native or recombinant P-TEFb. Like other CDKs, CDK9 is essentially inactive in the absence of its cyclin partner. P-TEFb containing a CDK9 mutation that knocked out the kinase activity did not function in transcription. Deletion of the carboxyl-terminal domain of cyclin T in P-TEFb reduced both the kinase and transcription activity to about 10%. The CDK-activating kinase in TFIIH was unable to activate the CTD kinase activity of P-TEFb.
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PMID:Identification of a cyclin subunit required for the function of Drosophila P-TEFb. 959 31

The mechanisms by which the p53 response is triggered following exposure to DNA-damaging agents have not yet been clearly elucidated. We and others have previously suggested that blockage of RNA polymerase II may be the trigger for induction of the p53 response following exposure to ultraviolet light. Here we report on the correlation between inhibition of mRNA synthesis and the induction of p53, p21WAF1 and apoptosis in diploid human fibroblasts treated with either UV light, cisplatin or the RNA synthesis inhibitors actinomycin D, DRB, H7 and alpha-amanitin. Exposure to ionizing radiation or the proteasome inhibitor LLnL, however, induced p53 and p21WAF1 without affecting mRNA synthesis. Importantly, induction of p53 by the RNA synthesis or proteasome inhibitors did not correlate with the induction of DNA strand breaks. Furthermore, cisplatin-induced accumulation of active p53 in repair-deficient XP-A cells occurred despite the lack of DNA strand break induction. Our results suggest that the induction of the p53 response by certain toxic agents is not triggered by DNA strand breaks but rather, may be linked to inhibition of mRNA synthesis either directly by the poisoning of RNA polymerase II or indirectly by the induction of elongation-blocking DNA lesions.
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PMID:Inhibition of RNA polymerase II as a trigger for the p53 response. 998 8

In a previous report, we documented that a major portion of the nuclear protein kinase CK2alpha (CK2alpha) subunit does not form heterooligomeric structures with the beta subunit, but it binds tightly to nuclear structures in an epithelial Chironomus cell line. We report here that the CK2alpha, but not beta, subunit is co-localized with productively transcribing RNA polymerase II (pol II) on polytene chromosomes of Chironomus salivary gland cells. Likewise, the RAP74 subunit ofTFIIF, a potential substrate for CK2, is co-localized with pol II. The occupancies of chromosomes with the CK2alpha and RAP74 subunits are sensitive to DRB, an inhibitor of pol II-based transcription and the activity of CK2 and pol II carboxyl-terminal kinases. DRB alters the chromosomal distribution of the CK2alpha and RAP74 subunits: there is a time-dependent clearance from the chromosomes of CK2alpha and RAP74 subunits, which coincides in time the completion and release of preinitiated transcripts after addition of DRB. The results suggest that both the CK2alpha and RAP74 subunits travel with the elongating pol II molecules along the DNA template during the entire transcription cycle. No detectable re-association of CK2alpha and RAP74 with the promoters takes, however, place after the completion of the preinitiated transcripts in the presence of DRB. In contrast, the binding of hypophosporylated pol II and TFIIH to the active gene loci is not abolished by the DRB regimen. Our data are consistent with the possibility that in living Chironomus salivary gland cells, DRB interferes with the recruitment of TFIIF, but not of TFIIH, to the promoter by interference with the activity of the CK2alpha subunit enzyme and phosphorylation of RAP74 and thereby DRB blocks transcription initiation.
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PMID:The binding of the alpha subunit of protein kinase CK2 and RAP74 subunit of TFIIF to protein-coding genes in living cells is DRB sensitive. 1009 4

DRB is a classic inhibitor of transcription elongation by RNA polymerase II (pol II). Since DRB generally affects class II genes, factors involved in this process must play fundamental roles in pol II elongation. Recently, two elongation factors essential for DRB action were identified, namely DSIF and P-TEFb. Here we describe the identification and purification from HeLa nuclear extract of a third protein factor required for DRB-sensitive transcription. This factor, termed negative elongation factor (NELF), cooperates with DSIF and strongly represses pol II elongation. This repression is reversed by P-TEFb-dependent phosphorylation of the pol II C-terminal domain. NELF is composed of five polypeptides, the smallest of which is identical to RD, a putative RNA-binding protein of unknown function. This study reveals a molecular mechanism for DRB action and a regulatory network of positive and negative elongation factors.
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PMID:NELF, a multisubunit complex containing RD, cooperates with DSIF to repress RNA polymerase II elongation. 1019 1

The intrinsic processivity of RNA polymerase II complexes arises from a complex interplay between the recently identified positive transcription elongation factor b (P-TEFb) and negative transcription elongation factors, DSIF (5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole [DRB]-sensitivity-inducing factor) and the negative elongation factor complex (NELF). Elements in nascent HIV-1 RNA function in concert with these factors and the HIV-1 Tat protein to ensure that viral transcription is induced strongly in activated T cells. Studies in the past year have elucidated key aspects of the Tat trans-activation mechanism that help to define this important paradigm for RNA-mediated control of transcription elongation.
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PMID:HIV-1 Tat: coping with negative elongation factors. 1044 48

Cystic fibrosis is an autosomal recessive genetic disease, produced by a mutation in the CFTR gene that impairs its function as a chloride channel. In this work, we have examined the effects of interleukin-1beta (IL-1beta) on the expression of CFTR in human colonic T84 cells. Treatment of T84 cells with IL-1beta (0.25 ng/ml) for 4 h resulted in an increased CFTR expression (mRNA and protein). However, higher doses of IL-1beta (1 ng/ml and over) produced inhibition of CFTR mRNA and protein expression. The protein kinase C (PKC) inhibitors H7 (50 microM) and GF109203X (1 microM) inhibited the stimulatory effect of IL-1beta. Similar effects were seen in the presence of the protein tyrosine kinase (PTK) inhibitors genistein (60 microM) and herbymicin A (2 microM). These results suggest that some PKC isoform(s) and at least a PTK might be involved in the CFTR up-regulation induced by IL-1beta. The repression of CFTR up-regulation by cycloheximide (35.5 microM) suggests the participation of a de novo synthesized protein. Results obtained by using the RNA polymerase II inhibitor DRB (78 microM), suggest that the increased mRNA levels seen after IL-1beta treatment are not due to an increased stability of the message. We conclude that the CFTR mRNA and protein levels are modulated by IL-1beta, this cytokine being the first extracellular protein known to up-regulate CFTR gene expression.
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PMID:Interleukin-1beta regulates CFTR expression in human intestinal T84 cells. 1065 93

We report that the chromatin-specific transcription elongation factor FACT functions in conjunction with the RNA polymerase II CTD kinase P-TEFb to alleviate transcription inhibition by DSIF (DRB sensitivity-inducing factor) and NELF (negative elongation factor). We find that the kinase activity of TFIIH is dispensable for this activity, demonstrating that TFIIH-mediated CTD phosphorylation is not involved in the regulation of FACT and DSIF/NELF activities. Thus, we propose a novel transcriptional regulatory network in which DSIF/NELF inhibition of transcription is prevented by P-TEFb in cooperation with FACT. This study uncovers a novel role for FACT in the regulation of transcription on naked DNA that is independent of its activities on chromatin templates. In addition, this study reveals functional differences between P-TEFb and TFIIH in the regulation of transcription.
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PMID:FACT relieves DSIF/NELF-mediated inhibition of transcriptional elongation and reveals functional differences between P-TEFb and TFIIH. 1091 1

The changes in total and ribosomal RNA (rRNA) synthesis in cultured larval salivary glands of Drosophila in response to steroid hormone ecdysone have been studied. By using the incorporation of [3H]-uridine or [32P]-UTP into salivary gland cells, followed by RNA extraction and electrophoretic or sucrose gradient fractionation it was found that physiological concentrations of ecdysone stimulate the synthesis of rRNA. Administration of selective transcription inhibitors (actinomycin D, alpha-amanitin, cordycepin, DRB, and 5- fluorouridine) as well as protein synthesis inhibitors (cycloheximide, puromycin) showed that early response to ecdysone involved a direct stimulation of rDNA transcription, probably by ecdysone-ecdysone receptor complex, and is independent of protein synthesis. In later stages of the response to ecdysone, as revealed again using transcription and protein synthesis inhibitors, the synthesis of rRNA is dependent on the factor(s) produced during early stages of the response, in the manner which is very similar to sequential gene activation in chromosomal puffs. Experiments with the withdrawal of ecdysone from culture medium in early stages of its action show similar negative effects on rRNA synthesis as inhibitors of RNA polymerase II, thus proving the existence of parallel mechanism controlling induction of specific chromosomal puffs and transcription of rDNA. The data presented suggest that, in addition to the expression of tissue and developmentally-specific genes, the regulation of rDNA transcription, along with the production of ribosomes, might be required for Drosophila metamorphosis. The results are discussed in the light of vertebrate's steroid hormone action on ribosomal genes.
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PMID:Ecdysone Regulated RNA synthesis in Drosophila larval salivary glands. 1099 79

The Spt4, Spt5, and Spt6 proteins are conserved throughout eukaryotes and are believed to play critical and related roles in transcription. They have a positive role in transcription elongation in Saccharomyces cerevisiae and in the activation of transcription by the HIV Tat protein in human cells. In contrast, a complex of Spt4 and Spt5 is required in vitro for the inhibition of RNA polymerase II (Pol II) elongation by the drug DRB, suggesting also a negative role in vivo. To learn more about the function of the Spt4/Spt5 complex and Spt6 in vivo, we have identified Drosophila homologs of Spt5 and Spt6 and characterized their localization on Drosophila polytene chromosomes. We find that Spt5 and Spt6 localize extensively with the phosphorylated, actively elongating form of Pol II, to transcriptionally active sites during salivary gland development and upon heat shock. Furthermore, Spt5 and Spt6 do not colocalize widely with the unphosphorylated, nonelongating form of Pol II. These results strongly suggest that Spt5 and Spt6 play closely related roles associated with active transcription in vivo.
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PMID:Spt5 and spt6 are associated with active transcription and have characteristics of general elongation factors in D. melanogaster. 1104 Feb 16

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