Elongation by RNA polymerase II: the short and long of it

Sims, Robert J.; Belotserkovskaya, Rimma; Reinberg, Danny

doi:10.1101/gad.1235904

Cited by 612 publications

(607 citation statements)

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“…[2][3][4] We therefore generated mice lacking one of these factors, Elongin A. Elongin A À/À embryos were severely retarded in development and died between days 10.5 and 12.5 of gestation, most likely owing to extensive apoptosis. Moreover, MEFs derived from Elongin A À/À embryos exhibited not only increased apoptosis but also senescence-like growth defects, accompanied by the activation of p38 MAPK and p53.…”

Section: Discussionmentioning

confidence: 99%

“…1 In addition, a diverse collection of elongation factors that promote efficient elongation of transcripts by pol II in vitro have also been identified. [2][3][4] These factors fall into two broad functional classes based on their ability to either reactivate arrested pol II or suppress the transient pausing of pol II. The first class is composed of members of the SII family.…”

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confidence: 99%

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Induction of apoptosis and cellular senescence in mice lacking transcription elongation factor, Elongin A

et al. 2006

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Elongin A is a transcription elongation factor that increases the overall rate of mRNA chain elongation by RNA polymerase II. To gain more insight into the physiological functions of Elongin A, we generated Elongin A-deficient mice. Elongin A homozygous mutant (Elongin A À/À ) embryos demonstrated a severely retarded development and died at between days 10.5 and 12.5 of gestation, most likely due to extensive apoptosis. Moreover, mouse embryonic fibroblasts (MEFs) derived from Elongin A À/À embryos exhibited not only increased apoptosis but also senescence-like growth defects accompanied by the activation of p38 MAPK and p53. Knockdown of Elongin A in MEFs by RNA interference also dramatically induced the senescent phenotype. A study using inhibitors of p38 MAPK and p53 and the generation of Elongin A-deficient mice with p53-null background suggests that both the p38 MAPK and p53 pathways are responsible for the induction of senescence-like phenotypes, whereas additional signaling pathways appear to be involved in the mediation of apoptosis in Elongin A À/À cells. Taken together, our results suggest that Elongin A is required for the transcription of genes essential for early embryonic development and downregulation of its activity is tightly associated with cellular senescence. Cell Death and Differentiation (2007) Eukaryotic mRNA synthesis by RNA polymerase II (pol II) is regulated by the concerted action of a set of transcription factors that control the activity of pol II during the initiation and elongation stages of transcription. At least six general transcription factors have been identified in eukaryotic cells and found to promote the selective binding of pol II to promoters and to support the basal level of transcription. 1 In addition, a diverse collection of elongation factors that promote efficient elongation of transcripts by pol II in vitro have also been identified. 2-4 These factors fall into two broad functional classes based on their ability to either reactivate arrested pol II or suppress the transient pausing of pol II. The first class is composed of members of the SII family. 3,5 The second class comprises a collection of elongation factors, including TFIIF, 6 Elongin, 7,8 ELL 9 and CSB, 10 which increase the overall rate of mRNA chain elongation by decreasing the frequency and/or duration of transient pausing of pol II at sites along the DNA template.Elongin was identified as a heterotrimer composed of A, B and C subunits of B770, 118 and 112 amino acids, respectively. 7,8,11,12 Elongin A is the transcriptionally active subunit, whereas Elongins B and C are positive regulatory subunits that can form an isolable Elongin BC subcomplex. 8,13,14 Although the functions of Elongin A in vivo remain largely unclear, Gerber et al. 15 have recently reported that the Drosophila homolog of Elongin A (dEloA) colocalizes with pol II at sites of active transcription on polytene chromosomes, and it also plays a critical role in heat shock gene expression in vivo. 15,16 Moreover, by the RNA interference (...

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

Induction of apoptosis and cellular senescence in mice lacking transcription elongation factor, Elongin A

et al. 2006

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“…It has been suggested that promoters with preloaded RNAP can respond to activation signals more "quickly" and uniformly (Boettiger and Levine, 2009). In addition, paused RNAP has been suggested to provide a checkpoint to ensure a successful coupling between transcription and mRNA processing or to prevent "mistakes" during the transcription process (Sims et al, 2004a;Levine, 2011).…”

Section: Promoter Clearance and Release Of Paused Rnapmentioning

confidence: 99%

“…Many proteins (or complexes) have been identified that play important roles in facilitating transcription elongation, and some of these factors represent targets for activators (Sims et al, 2004a;Peterlin and Price, 2006). For example, experiments in Drosophila suggested that the elongation factor P-TEFb is recruited to the heat shock loci to facilitate transcription elongation upon heat shock induction (Lis et al, 2000).…”

Section: Promoter Clearance and Release Of Paused Rnapmentioning

confidence: 99%

Transcriptional activators and activation mechanisms

2011

Protein Cell

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“…Whereas pre-initiation and initiation steps of transcription involve multiple levels of regulation, there are now accumulating evidences for transcriptional elongation being a tightly regulated process that requires a plethora of proteins, for example the elongation factors [21] such as TFIIF, TFIIH, and the multi-protein complex FACT [22]. In this context, gene transcription in response to DNA-damaging agents relies on gene-and signal-specific elongation factors [23].…”

Section: Introductionmentioning

confidence: 99%

Deregulated expression of pro-survival and pro-apoptotic p53-dependent genes upon Elongator deficiency in colon cancer cells

Cornez

Creppe

Gillard

et al. 2008

Biochemical Pharmacology

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b i o c h e m i c a l p h a r m a c o l o g y 7 5 ( 2 0 0 8 ) 2 1 2 2 -2 1 3Abbreviations: B2M, beta-2-microglobulin; BARD1, BRCA1-associated RING domain 1; BAX, BCL2-associated X protein; BTG2, B-cell translocation gene 2; CDK9, cyclin-dependent kinase 9; DMEM, Dulbecco's modified Eagle's medium; DUSP4, dual-specificity phosphatase 4; Elp, Elongator protein; EMEM, Eagle's modified essential medium; FACT, facilitates chromatin transcription; GFP, green fluorescent protein; HA, haemagglutinin; hELP1, human ELP1; IKAP, IKK-associated protein; IKK, inhibitor of kappa light chain gene enhancer in B cells kinase complex; NR2F2, nuclear receptor subfamily 2, group F, member 2; p21, cyclin-dependent kinase inhibitor 1A; PARP, poly (ADP-ribose) polymerase 1; PKIB, protein kinase, cAMP-dependent catalytic, inhibitor beta; RhoE/Rnd3, Rho family GTPase 3; SESN2, sestrin 2; SGK, serum-and glucocorticoid-induced protein kinase; shRNA, short hairpin RNA; TFIIF, general transcription factor IIF; TFIIH, general transcription factor IIH; TNFRSF10D, tumor necrosis factor receptor superfamily, member 10D.

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Elongation by RNA polymerase II: the short and long of it

Cited by 612 publications

References 369 publications

Induction of apoptosis and cellular senescence in mice lacking transcription elongation factor, Elongin A

Induction of apoptosis and cellular senescence in mice lacking transcription elongation factor, Elongin A

Transcriptional activators and activation mechanisms

Deregulated expression of pro-survival and pro-apoptotic p53-dependent genes upon Elongator deficiency in colon cancer cells

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