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The SNF2‐like helicase HELLS mediates E2F3‐dependent transcription and cellular transformation
Author(s) -
von Eyss Björn,
Maaskola Jonas,
Memczak Sebastian,
Möllmann Katharina,
Schuetz Anja,
Loddenkemper Christoph,
Tanh MaiDinh,
Otto Albrecht,
Muegge Kathrin,
Heinemann Udo,
Rajewsky Nikolaus,
Ziebold Ulrike
Publication year - 2012
Publication title -
the embo journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 7.484
H-Index - 392
eISSN - 1460-2075
pISSN - 0261-4189
DOI - 10.1038/emboj.2011.451
Subject(s) - biology , e2f , chromatin , transcription factor , helicase , retinoblastoma protein , promoter , transcription (linguistics) , cell growth , gene , microbiology and biotechnology , regulation of gene expression , cancer research , cell cycle , genetics , gene expression , rna , linguistics , philosophy
The activating E2F‐transcription factors are best known for their dependence on the Retinoblastoma protein and their role in cellular proliferation. E2F3 is uniquely amplified in specific human tumours where its expression is inversely correlated with the survival of patients. Here, E2F3B interaction partners were identified by mass spectrometric analysis. We show that the SNF2‐like helicase HELLS interacts with E2F3A in vivo and cooperates with its oncogenic functions. Depletion of HELLS severely perturbs the induction of E2F‐target genes, hinders cell‐cycle re‐entry and growth. Using chromatin immmunoprecipitation coupled to sequencing, we identified genome‐wide targets of HELLS and E2F3A/B. HELLS binds promoters of active genes, including the trithorax‐related MLL1 , and co‐regulates E2F3‐dependent genes. Strikingly, just as E2F3, HELLS is overexpressed in human tumours including prostate cancer, indicating that either factor may contribute to the malignant progression of tumours. Our work reveals that HELLS is important for E2F3 in tumour cell proliferation.