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MED12 controls the response to multiple cancer drugs through regulation of TGF-β receptor signaling.

Sidong Huang ,
Michael Hölzel ,
Theo Knijnenburg ,
Andreas Schlicker ,
Paul Roepman ,
Ultan McDermott ,
Mathew Garnett ,
Wipawadee Grernrum ,
Chong Sun ,
Anirudh Prahallad ,
Floris H Groenendijk ,
Lorenza Mittempergher ,
Wouter Nijkamp ,
Jacques Neefjes ,
Ramon Salazar ,
Peter Ten Dijke ,
Hidetaka Uramoto ,
Fumihiro Tanaka ,
Roderick L Beijersbergen ,
Lodewyk F A Wessels ,
René Bernards

Abstract

Inhibitors of the ALK and EGF receptor tyrosine kinases provoke dramatic but short-lived responses in lung cancers harboring EML4-ALK translocations or activating mutations of EGFR, respectively. We used a large-scale RNAi screen to identify MED12, a component of the transcriptional MEDIATOR complex that is mutated in cancers, as a determinant of response to ALK and EGFR inhibitors. MED12 is in part cytoplasmic where it negatively regulates TGF-βR2 through physical interaction. MED12 suppression therefore results in activation of TGF-βR signaling, which is both necessary and sufficient for drug resistance. TGF-β signaling causes MEK/ERK activation, and consequently MED12 suppression also confers resistance to MEK and BRAF inhibitors in other cancers. MED12 loss induces an EMT-like phenotype, which is associated with chemotherapy resistance in colon cancer patients and to gefitinib in lung cancer. Inhibition of TGF-βR signaling restores drug responsiveness in MED12(KD) cells, suggesting a strategy to treat drug-resistant tumors that have lost MED12.

More about this publication

Cell

Volume 151
Issue nr. 5
Pages 937-50
Publication date 21-11-2012

Full text links

Publisher website (DOI) 10.1016/j.cell.2012.10.035
Europe PubMed Central 23178117
Pubmed 23178117

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