Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription

CDK7 associates with the 10-subunit TFIIH complex and regulates transcription by phosphorylating the C-terminal domain (CTD) of RNA polymerase II (RNAPII). Few additional CDK7 substrates are known. Here, using the covalent inhibitor SY-351 and quantitative phosphoproteomics, we identified CDK7 kinas...

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Autores principales: Rimel, Jenna K., Poss, Zachary C., Erickson, Benjamin, Maas, Zachary L., Ebmeier, Christopher C., Johnson, Jared L., Decker, Tim-Michael, Yaron, Tomer M., Bradley, Michael J., Hamman, Kristin B., Hu, Shanhu, Malojcic, Goran, Marineau, Jason J., White, Peter W., Brault, Martine, Tao, Limei, DeRoy, Patrick, Clavette, Christian, Nayak, Shraddha, Damon, Leah J., Kaltheuner, Ines H., Bunch, Heeyoun, Cantley, Lewis C., Geyer, Matthias, Iwasa, Janet, Dowell, Robin D., Bentley, David L., Old, William M., Taatjes, Dylan J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2020
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7608751/
https://www.ncbi.nlm.nih.gov/pubmed/33060135
http://dx.doi.org/10.1101/gad.341545.120
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author Rimel, Jenna K.
Poss, Zachary C.
Erickson, Benjamin
Maas, Zachary L.
Ebmeier, Christopher C.
Johnson, Jared L.
Decker, Tim-Michael
Yaron, Tomer M.
Bradley, Michael J.
Hamman, Kristin B.
Hu, Shanhu
Malojcic, Goran
Marineau, Jason J.
White, Peter W.
Brault, Martine
Tao, Limei
DeRoy, Patrick
Clavette, Christian
Nayak, Shraddha
Damon, Leah J.
Kaltheuner, Ines H.
Bunch, Heeyoun
Cantley, Lewis C.
Geyer, Matthias
Iwasa, Janet
Dowell, Robin D.
Bentley, David L.
Old, William M.
Taatjes, Dylan J.
author_facet Rimel, Jenna K.
Poss, Zachary C.
Erickson, Benjamin
Maas, Zachary L.
Ebmeier, Christopher C.
Johnson, Jared L.
Decker, Tim-Michael
Yaron, Tomer M.
Bradley, Michael J.
Hamman, Kristin B.
Hu, Shanhu
Malojcic, Goran
Marineau, Jason J.
White, Peter W.
Brault, Martine
Tao, Limei
DeRoy, Patrick
Clavette, Christian
Nayak, Shraddha
Damon, Leah J.
Kaltheuner, Ines H.
Bunch, Heeyoun
Cantley, Lewis C.
Geyer, Matthias
Iwasa, Janet
Dowell, Robin D.
Bentley, David L.
Old, William M.
Taatjes, Dylan J.
author_sort Rimel, Jenna K.
collection PubMed
description CDK7 associates with the 10-subunit TFIIH complex and regulates transcription by phosphorylating the C-terminal domain (CTD) of RNA polymerase II (RNAPII). Few additional CDK7 substrates are known. Here, using the covalent inhibitor SY-351 and quantitative phosphoproteomics, we identified CDK7 kinase substrates in human cells. Among hundreds of high-confidence targets, the vast majority are unique to CDK7 (i.e., distinct from other transcription-associated kinases), with a subset that suggest novel cellular functions. Transcription-associated factors were predominant CDK7 substrates, including SF3B1, U2AF2, and other splicing components. Accordingly, widespread and diverse splicing defects, such as alternative exon inclusion and intron retention, were characterized in CDK7-inhibited cells. Combined with biochemical assays, we establish that CDK7 directly activates other transcription-associated kinases CDK9, CDK12, and CDK13, invoking a “master regulator” role in transcription. We further demonstrate that TFIIH restricts CDK7 kinase function to the RNAPII CTD, whereas other substrates (e.g., SPT5 and SF3B1) are phosphorylated by the three-subunit CDK-activating kinase (CAK; CCNH, MAT1, and CDK7). These results suggest new models for CDK7 function in transcription and implicate CAK dissociation from TFIIH as essential for kinase activation. This straightforward regulatory strategy ensures CDK7 activation is spatially and temporally linked to transcription, and may apply toward other transcription-associated kinases.
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spelling pubmed-76087512020-11-12 Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription Rimel, Jenna K. Poss, Zachary C. Erickson, Benjamin Maas, Zachary L. Ebmeier, Christopher C. Johnson, Jared L. Decker, Tim-Michael Yaron, Tomer M. Bradley, Michael J. Hamman, Kristin B. Hu, Shanhu Malojcic, Goran Marineau, Jason J. White, Peter W. Brault, Martine Tao, Limei DeRoy, Patrick Clavette, Christian Nayak, Shraddha Damon, Leah J. Kaltheuner, Ines H. Bunch, Heeyoun Cantley, Lewis C. Geyer, Matthias Iwasa, Janet Dowell, Robin D. Bentley, David L. Old, William M. Taatjes, Dylan J. Genes Dev Research Paper CDK7 associates with the 10-subunit TFIIH complex and regulates transcription by phosphorylating the C-terminal domain (CTD) of RNA polymerase II (RNAPII). Few additional CDK7 substrates are known. Here, using the covalent inhibitor SY-351 and quantitative phosphoproteomics, we identified CDK7 kinase substrates in human cells. Among hundreds of high-confidence targets, the vast majority are unique to CDK7 (i.e., distinct from other transcription-associated kinases), with a subset that suggest novel cellular functions. Transcription-associated factors were predominant CDK7 substrates, including SF3B1, U2AF2, and other splicing components. Accordingly, widespread and diverse splicing defects, such as alternative exon inclusion and intron retention, were characterized in CDK7-inhibited cells. Combined with biochemical assays, we establish that CDK7 directly activates other transcription-associated kinases CDK9, CDK12, and CDK13, invoking a “master regulator” role in transcription. We further demonstrate that TFIIH restricts CDK7 kinase function to the RNAPII CTD, whereas other substrates (e.g., SPT5 and SF3B1) are phosphorylated by the three-subunit CDK-activating kinase (CAK; CCNH, MAT1, and CDK7). These results suggest new models for CDK7 function in transcription and implicate CAK dissociation from TFIIH as essential for kinase activation. This straightforward regulatory strategy ensures CDK7 activation is spatially and temporally linked to transcription, and may apply toward other transcription-associated kinases. Cold Spring Harbor Laboratory Press 2020-11-01 /pmc/articles/PMC7608751/ /pubmed/33060135 http://dx.doi.org/10.1101/gad.341545.120 Text en © 2020 Rimel et al.; Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by-nc/4.0/ This article, published in Genes & Development, is available under a Creative Commons License (Attribution-NonCommercial 4.0 International), as described at http://creativecommons.org/licenses/by-nc/4.0/.
spellingShingle Research Paper
Rimel, Jenna K.
Poss, Zachary C.
Erickson, Benjamin
Maas, Zachary L.
Ebmeier, Christopher C.
Johnson, Jared L.
Decker, Tim-Michael
Yaron, Tomer M.
Bradley, Michael J.
Hamman, Kristin B.
Hu, Shanhu
Malojcic, Goran
Marineau, Jason J.
White, Peter W.
Brault, Martine
Tao, Limei
DeRoy, Patrick
Clavette, Christian
Nayak, Shraddha
Damon, Leah J.
Kaltheuner, Ines H.
Bunch, Heeyoun
Cantley, Lewis C.
Geyer, Matthias
Iwasa, Janet
Dowell, Robin D.
Bentley, David L.
Old, William M.
Taatjes, Dylan J.
Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title_full Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title_fullStr Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title_full_unstemmed Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title_short Selective inhibition of CDK7 reveals high-confidence targets and new models for TFIIH function in transcription
title_sort selective inhibition of cdk7 reveals high-confidence targets and new models for tfiih function in transcription
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7608751/
https://www.ncbi.nlm.nih.gov/pubmed/33060135
http://dx.doi.org/10.1101/gad.341545.120
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