Clinical Response of Carcinomas Harboring the BRD4-NUT Oncoprotein to the Targeted Bromodomain Inhibitor OTX015/MK-8628.

UNLABELLED The antineoplastic, prodifferentiative effects of bromodomain and extra-terminal (BET) bromodomain (BRD) inhibitors were initially discovered in NUT midline carcinoma (NMC), an aggressive subtype of squamous cancer driven by the BRD4-NUT fusion oncoprotein. BRD4-NUT blocks differentiation and maintains tumor growth through a potent chromatin-modifying mechanism. OTX015/MK-8628, a novel oral BET inhibitor, targets BRD2/3/4/T with preclinical activity in NMC and several other tumor types and is currently in clinical development. Antitumor activity was evaluated in four patients with advanced-stage NMC with confirmed BRD4-NUT fusions who were treated with 80 mg OTX015/MK-8628 once daily in a compassionate-use context. Two patients responded rapidly with tumor regression and symptomatic relief, and a third had meaningful disease stabilization with a minor metabolic response. The main side effects were mild to moderate gastrointestinal toxicity and fatigue, and reversible grade 3 thrombocytopenia. This is the first proof-of-concept evidence of clinical activity of a BRD inhibitor in targeting BRD4-NUT. SIGNIFICANCE We present the first clinical proof-of-concept that targeting BRD4-NUT with a BET inhibitor results in impressive and rapid antitumor activity in NMC. It offers strong potential for future clinical application in this rare patient population as either a single agent or in combination with other agents. Cancer Discov; 6(5); 492-500. ©2016 AACR.This article is highlighted in the In This Issue feature, p. 461.

[1]  H. Dombret,et al.  Bromodomain inhibitor OTX015 in patients with acute leukaemia: a dose-escalation, phase 1 study. , 2016, The Lancet. Haematology.

[2]  G. Salles,et al.  Bromodomain inhibitor OTX015 in patients with lymphoma or multiple myeloma: a dose-escalation, open-label, pharmacokinetic, phase 1 study. , 2016, The Lancet. Haematology.

[3]  James E. Bradner,et al.  Response and resistance to BET bromodomain inhibitors in triple negative breast cancer , 2015, Nature.

[4]  Łukasz M. Boryń,et al.  Transcriptional plasticity promotes primary and acquired resistance to BET inhibition , 2015, Nature.

[5]  Mark A. Dawson,et al.  BET inhibitor resistance emerges from leukaemia stem cells , 2015, Nature.

[6]  P. Kharchenko,et al.  The oncogenic BRD4-NUT chromatin regulator drives aberrant transcription within large topological domains , 2015, Genes & development.

[7]  H. Dombret,et al.  BET inhibitor OTX015 targets BRD2 and BRD4 and decreases c-MYC in acute leukemia cells , 2015, Oncotarget.

[8]  Steven J. M. Jones,et al.  Comprehensive genomic characterization of head and neck squamous cell carcinomas , 2015, Nature.

[9]  L. Cascione,et al.  The BET Bromodomain Inhibitor OTX015 Affects Pathogenetic Pathways in Preclinical B-cell Tumor Models and Synergizes with Targeted Drugs , 2015, Clinical Cancer Research.

[10]  D. Reinberg,et al.  BRD4 assists elongation of both coding and enhancer RNAs by interacting with acetylated histones , 2014, Nature Structural &Molecular Biology.

[11]  C. Moskaluk,et al.  Discovery of biomarkers predictive of GSI response in triple-negative breast cancer and adenoid cystic carcinoma. , 2014, Cancer discovery.

[12]  C. Antonescu,et al.  NSD3-NUT fusion oncoprotein in NUT midline carcinoma: implications for a novel oncogenic mechanism. , 2014, Cancer discovery.

[13]  Zhaohui S. Qin,et al.  Therapeutic Targeting of BET Bromodomain Proteins in Castration-Resistant Prostate Cancer , 2014, Nature.

[14]  J. Aster,et al.  MYC, a downstream target of BRD-NUT, is necessary and sufficient for the blockade of differentiation in NUT midline carcinoma , 2014, Oncogene.

[15]  J. Noel,et al.  Abstract C244: Development of the BET bromodomain inhibitor OTX015. , 2013 .

[16]  David A. Orlando,et al.  Selective Inhibition of Tumor Oncogenes by Disruption of Super-Enhancers , 2013, Cell.

[17]  J. Bradner,et al.  Clinicopathologic Features and Long-term Outcomes of NUT Midline Carcinoma , 2012, Clinical Cancer Research.

[18]  C. French Pathogenesis of NUT midline carcinoma. , 2012, Annual review of pathology.

[19]  Nikhil Wagle,et al.  High-throughput detection of actionable genomic alterations in clinical tumor samples by targeted, massively parallel sequencing. , 2012, Cancer discovery.

[20]  S. Lowe,et al.  RNAi screen identifies Brd4 as a therapeutic target in acute myeloid leukaemia , 2011, Nature.

[21]  William B. Smith,et al.  Selective inhibition of BET bromodomains , 2010, Nature.

[22]  K. Ozato,et al.  Brd4 marks select genes on mitotic chromatin and directs postmitotic transcription. , 2009, Molecular biology of the cell.

[23]  M. Rubin,et al.  Diagnosis of NUT Midline Carcinoma Using a NUT-specific Monoclonal Antibody , 2009, The American journal of surgical pathology.

[24]  J. Aster,et al.  BRD–NUT oncoproteins: a family of closely related nuclear proteins that block epithelial differentiation and maintain the growth of carcinoma cells , 2008, Oncogene.

[25]  J. Fletcher,et al.  BRD4-NUT fusion oncogene: a novel mechanism in aggressive carcinoma. , 2003, Cancer research.