Systematic Kinase Inhibitor Profiling Identifies CDK9 as a Synthetic Lethal Target in NUT Midline Carcinoma | Zendy

Johannes Brägelmann | Zendy; Marcel A. Dammert | Zendy; Felix Dietlein | Zendy; Johannes M. Heuckmann | Zendy; Axel Choidas | Zendy; Stefanie Böhm | Zendy; André Richters | Zendy; Debjit Basu | Zendy; Verena Tischler | Zendy; Carina Lorenz | Zendy; Peter Habenberger | Zendy; Zhizhou Fang | Zendy; Sandra Ortiz-Cuarán | Zendy; Frauke Leenders | Zendy; Jan Eickhoff | Zendy; Uwe Koch | Zendy; Matthäus Getlik | Zendy; Martin Termathe | Zendy; Muhammad Sallouh | Zendy; Zoltán Greff | Zendy; Zoltán Varga | Zendy; Hyatt BalkeWant | Zendy; Christopher A. French | Zendy; Martin Peifer | Zendy; Hans Christian Reinhardt | Zendy; László Őrfi | Zendy; Gÿorgý Kéri | Zendy; Sascha Ansén | Zendy; Lukas C. Heukamp | Zendy; Reinhard Büttner | Zendy; Daniel Rauh | Zendy; Bert Klebl | Zendy; Roman K. Thomas | Zendy; Martin L. Sos | Zendy

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Systematic Kinase Inhibitor Profiling Identifies CDK9 as a Synthetic Lethal Target in NUT Midline Carcinoma

Author(s) -

Johannes Brägelmann,

Marcel A. Dammert,

Felix Dietlein,

Johannes M. Heuckmann,

Axel Choidas,

Stefanie Böhm,

André Richters,

Debjit Basu,

Verena Tischler,

Carina Lorenz,

Peter Habenberger,

Zhizhou Fang,

Sandra Ortiz-Cuarán,

Frauke Leenders,

Jan Eickhoff,

Uwe Koch,

Matthäus Getlik,

Martin Termathe,

Muhammad Sallouh,

Zoltán Greff,

Zoltán Varga,

Hyatt BalkeWant,

Christopher A. French,

Martin Peifer,

Hans Christian Reinhardt,

László Őrfi,

Gÿorgý Kéri,

Sascha Ansén,

Lukas C. Heukamp,

Reinhard Büttner,

Daniel Rauh,

Bert Klebl,

Roman K. Thomas,

Martin L. Sos

Publication year - 2017

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2017.08.082

Subject(s) - bromodomain , druggability , brd4 , cyclin dependent kinase 9 , biology , kinase , synthetic lethality , cancer research , microbiology and biotechnology , protein kinase a , genetics , cyclin dependent kinase 2 , dna repair , dna , gene , histone

Kinase inhibitors represent the backbone of targeted cancer therapy, yet only a limited number of oncogenic drivers are directly druggable. By interrogating the activity of 1,505 kinase inhibitors, we found that BRD4-NUT-rearranged NUT midline carcinoma (NMC) cells are specifically killed by CDK9 inhibition (CDK9i) and depend on CDK9 and Cyclin-T1 expression. We show that CDK9i leads to robust induction of apoptosis and of markers of DNA damage response in NMC cells. While both CDK9i and bromodomain inhibition over time result in reduced Myc protein expression, only bromodomain inhibition induces cell differentiation and a p21-induced cell-cycle arrest in these cells. Finally, RNA-seq and ChIP-based analyses reveal a BRD4-NUT-specific CDK9i-induced perturbation of transcriptional elongation. Thus, our data provide a mechanistic basis for the genotype-dependent vulnerability of NMC cells to CDK9i that may be of relevance for the development of targeted therapies for NMC patients

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