RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription

Laura Baranello; Damian Wojtowicz; Kairong Cui; Ballachanda N. Devaiah; Hye Jung Chung; Ka Yim Chan-Salis; Rajarshi Guha; Kelli Wilson; Xiaohu Zhang; Hongliang Zhang; Jason Piotrowski; Craig J. Thomas; Dinah S. Singer; B. Franklin Pugh; Yves Pommier; Teresa M. Przytycka; Fedor Kouzine; Brian A. Lewis; Keji Zhao; David Levens

doi:10.1016/j.cell.2016.02.036

RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription

Laura Baranello, Damian Wojtowicz, Kairong Cui, Ballachanda N. Devaiah, Hye Jung Chung, Ka Yim Chan-Salis, Rajarshi Guha, Kelli Wilson, Xiaohu Zhang, Hongliang Zhang, Jason Piotrowski, Craig J. Thomas, Dinah S. Singer, B. Franklin Pugh, Yves Pommier, Teresa M. Przytycka, Fedor Kouzine, Brian A. Lewis, Keji Zhao, David Levens

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199 Scopus citations

Abstract

Summary We report a mechanism through which the transcription machinery directly controls topoisomerase 1 (TOP1) activity to adjust DNA topology throughout the transcription cycle. By comparing TOP1 occupancy using chromatin immunoprecipitation sequencing (ChIP-seq) versus TOP1 activity using topoisomerase 1 sequencing (TOP1-seq), a method reported here to map catalytically engaged TOP1, TOP1 bound at promoters was discovered to become fully active only after pause-release. This transition coupled the phosphorylation of the carboxyl-terminal-domain (CTD) of RNA polymerase II (RNAPII) with stimulation of TOP1 above its basal rate, enhancing its processivity. TOP1 stimulation is strongly dependent on the kinase activity of BRD4, a protein that phosphorylates Ser2-CTD and regulates RNAPII pause-release. Thus the coordinated action of BRD4 and TOP1 overcame the torsional stress opposing transcription as RNAPII commenced elongation but preserved negative supercoiling that assists promoter melting at start sites. This nexus between transcription and DNA topology promises to elicit new strategies to intercept pathological gene expression.

Original language	English (US)
Pages (from-to)	357-371
Number of pages	15
Journal	Cell
Volume	165
Issue number	2
DOIs	https://doi.org/10.1016/j.cell.2016.02.036
State	Published - Apr 7 2016

All Science Journal Classification (ASJC) codes

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.cell.2016.02.036

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Baranello, L., Wojtowicz, D., Cui, K., Devaiah, B. N., Chung, H. J., Chan-Salis, K. Y., Guha, R., Wilson, K., Zhang, X., Zhang, H., Piotrowski, J., Thomas, C. J., Singer, D. S., Pugh, B. F., Pommier, Y., Przytycka, T. M., Kouzine, F., Lewis, B. A., Zhao, K., & Levens, D. (2016). RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription. Cell, 165(2), 357-371. https://doi.org/10.1016/j.cell.2016.02.036

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title = "RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription",

abstract = "Summary We report a mechanism through which the transcription machinery directly controls topoisomerase 1 (TOP1) activity to adjust DNA topology throughout the transcription cycle. By comparing TOP1 occupancy using chromatin immunoprecipitation sequencing (ChIP-seq) versus TOP1 activity using topoisomerase 1 sequencing (TOP1-seq), a method reported here to map catalytically engaged TOP1, TOP1 bound at promoters was discovered to become fully active only after pause-release. This transition coupled the phosphorylation of the carboxyl-terminal-domain (CTD) of RNA polymerase II (RNAPII) with stimulation of TOP1 above its basal rate, enhancing its processivity. TOP1 stimulation is strongly dependent on the kinase activity of BRD4, a protein that phosphorylates Ser2-CTD and regulates RNAPII pause-release. Thus the coordinated action of BRD4 and TOP1 overcame the torsional stress opposing transcription as RNAPII commenced elongation but preserved negative supercoiling that assists promoter melting at start sites. This nexus between transcription and DNA topology promises to elicit new strategies to intercept pathological gene expression.",

author = "Laura Baranello and Damian Wojtowicz and Kairong Cui and Devaiah, {Ballachanda N.} and Chung, {Hye Jung} and Chan-Salis, {Ka Yim} and Rajarshi Guha and Kelli Wilson and Xiaohu Zhang and Hongliang Zhang and Jason Piotrowski and Thomas, {Craig J.} and Singer, {Dinah S.} and Pugh, {B. Franklin} and Yves Pommier and Przytycka, {Teresa M.} and Fedor Kouzine and Lewis, {Brian A.} and Keji Zhao and David Levens",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier Inc.",

year = "2016",

month = apr,

day = "7",

doi = "10.1016/j.cell.2016.02.036",

language = "English (US)",

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Baranello, L, Wojtowicz, D, Cui, K, Devaiah, BN, Chung, HJ, Chan-Salis, KY, Guha, R, Wilson, K, Zhang, X, Zhang, H, Piotrowski, J, Thomas, CJ, Singer, DS, Pugh, BF, Pommier, Y, Przytycka, TM, Kouzine, F, Lewis, BA, Zhao, K & Levens, D 2016, 'RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription', Cell, vol. 165, no. 2, pp. 357-371. https://doi.org/10.1016/j.cell.2016.02.036

TY - JOUR

T1 - RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription

AU - Baranello, Laura

AU - Wojtowicz, Damian

AU - Cui, Kairong

AU - Devaiah, Ballachanda N.

AU - Chung, Hye Jung

AU - Chan-Salis, Ka Yim

AU - Guha, Rajarshi

AU - Wilson, Kelli

AU - Zhang, Xiaohu

AU - Zhang, Hongliang

AU - Piotrowski, Jason

AU - Thomas, Craig J.

AU - Singer, Dinah S.

AU - Pugh, B. Franklin

AU - Pommier, Yves

AU - Przytycka, Teresa M.

AU - Kouzine, Fedor

AU - Lewis, Brian A.

AU - Zhao, Keji

AU - Levens, David

PY - 2016/4/7

Y1 - 2016/4/7

N2 - Summary We report a mechanism through which the transcription machinery directly controls topoisomerase 1 (TOP1) activity to adjust DNA topology throughout the transcription cycle. By comparing TOP1 occupancy using chromatin immunoprecipitation sequencing (ChIP-seq) versus TOP1 activity using topoisomerase 1 sequencing (TOP1-seq), a method reported here to map catalytically engaged TOP1, TOP1 bound at promoters was discovered to become fully active only after pause-release. This transition coupled the phosphorylation of the carboxyl-terminal-domain (CTD) of RNA polymerase II (RNAPII) with stimulation of TOP1 above its basal rate, enhancing its processivity. TOP1 stimulation is strongly dependent on the kinase activity of BRD4, a protein that phosphorylates Ser2-CTD and regulates RNAPII pause-release. Thus the coordinated action of BRD4 and TOP1 overcame the torsional stress opposing transcription as RNAPII commenced elongation but preserved negative supercoiling that assists promoter melting at start sites. This nexus between transcription and DNA topology promises to elicit new strategies to intercept pathological gene expression.

AB - Summary We report a mechanism through which the transcription machinery directly controls topoisomerase 1 (TOP1) activity to adjust DNA topology throughout the transcription cycle. By comparing TOP1 occupancy using chromatin immunoprecipitation sequencing (ChIP-seq) versus TOP1 activity using topoisomerase 1 sequencing (TOP1-seq), a method reported here to map catalytically engaged TOP1, TOP1 bound at promoters was discovered to become fully active only after pause-release. This transition coupled the phosphorylation of the carboxyl-terminal-domain (CTD) of RNA polymerase II (RNAPII) with stimulation of TOP1 above its basal rate, enhancing its processivity. TOP1 stimulation is strongly dependent on the kinase activity of BRD4, a protein that phosphorylates Ser2-CTD and regulates RNAPII pause-release. Thus the coordinated action of BRD4 and TOP1 overcame the torsional stress opposing transcription as RNAPII commenced elongation but preserved negative supercoiling that assists promoter melting at start sites. This nexus between transcription and DNA topology promises to elicit new strategies to intercept pathological gene expression.

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DO - 10.1016/j.cell.2016.02.036

M3 - Article

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AN - SCOPUS:84964063194

SN - 0092-8674

VL - 165

SP - 357

EP - 371

JO - Cell

JF - Cell

IS - 2

ER -

RNA Polymerase II Regulates Topoisomerase 1 Activity to Favor Efficient Transcription

Abstract

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