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Merck

Pleiotropic Impact of DNA-PK in Cancer and Implications for Therapeutic Strategies.

Clinical cancer research : an official journal of the American Association for Cancer Research (2019-07-04)
Emanuela Dylgjeri, Christopher McNair, Jonathan F Goodwin, Heather K Raymon, Peter A McCue, Ayesha A Shafi, Benjamin E Leiby, Renée de Leeuw, Vishal Kothari, Jennifer J McCann, Amy C Mandigo, Saswati N Chand, Matthew J Schiewer, Lucas J Brand, Irina Vasilevskaya, Nicolas Gordon, Talya S Laufer, Leonard G Gomella, Costas D Lallas, Edouard J Trabulsi, Felix Y Feng, Ellen H Filvaroff, Kristin Hege, Dana Rathkopf, Karen E Knudsen
要旨

DNA-dependent protein kinase catalytic subunit (DNA-PK) is a pleiotropic kinase involved in DNA repair and transcriptional regulation. DNA-PK is deregulated in selected cancer types and is strongly associated with poor outcome. The underlying mechanisms by which DNA-PK promotes aggressive tumor phenotypes are not well understood. Here, unbiased molecular investigation in clinically relevant tumor models reveals novel functions of DNA-PK in cancer.Experimental Design: DNA-PK function was modulated using both genetic and pharmacologic methods in a series of in vitro models, in vivo xenografts, and patient-derived explants (PDE), and the impact on the downstream signaling and cellular cancer phenotypes was discerned. Data obtained were used to develop novel strategies for combinatorial targeting of DNA-PK and hormone signaling pathways. Key findings reveal that (i) DNA-PK regulates tumor cell proliferation; (ii) pharmacologic targeting of DNA-PK suppresses tumor growth both in vitro, in vivo, and ex vivo; (iii) DNA-PK transcriptionally regulates the known DNA-PK-mediated functions as well as novel cancer-related pathways that promote tumor growth; (iv) dual targeting of DNA-PK/TOR kinase (TORK) transcriptionally upregulates androgen signaling, which can be mitigated using the androgen receptor (AR) antagonist enzalutamide; (v) cotargeting AR and DNA-PK/TORK leads to the expansion of antitumor effects, uncovering the modulation of novel, highly relevant protumorigenic cancer pathways; and (viii) cotargeting DNA-PK/TORK and AR has cooperative growth inhibitory effects in vitro and in vivo. These findings uncovered novel DNA-PK transcriptional regulatory functions and led to the development of a combinatorial therapeutic strategy for patients with advanced prostate cancer, currently being tested in the clinical setting.

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