Genomic profiling of solid tumors harboring BRD4-NUT and response to immune checkpoint inhibitors

Jonathan W Riess; Shaila Rahman; Waleed Kian; Claire Edgerly; Andreas M Heilmann; Russell Madison; Shakti H Ramkissoon; Shai Shlomi Klaitman; Jon H Chung; Sally E Trabucco; Dexter X Jin; Brian M Alexander; Samuel J Klempner; Lee A Albacker; Garrett M Frampton; Laila C Roisman; Vincent A Miller; Jeffrey S Ross; Alexa B Schrock; Jeffrey P Gregg; Nir Peled; Ethan S Sokol; Siraj M Ali

doi:10.1016/j.tranon.2021.101184

Genomic profiling of solid tumors harboring BRD4-NUT and response to immune checkpoint inhibitors

Transl Oncol. 2021 Oct;14(10):101184. doi: 10.1016/j.tranon.2021.101184. Epub 2021 Jul 29.

Authors

Jonathan W Riess¹, Shaila Rahman², Waleed Kian³, Claire Edgerly⁴, Andreas M Heilmann⁴, Russell Madison⁴, Shakti H Ramkissoon⁴, Shai Shlomi Klaitman³, Jon H Chung⁴, Sally E Trabucco⁴, Dexter X Jin⁴, Brian M Alexander⁴, Samuel J Klempner⁵, Lee A Albacker⁴, Garrett M Frampton⁴, Laila C Roisman³, Vincent A Miller⁴, Jeffrey S Ross⁶, Alexa B Schrock⁴, Jeffrey P Gregg⁷, Nir Peled³, Ethan S Sokol⁴, Siraj M Ali⁸

Affiliations

¹ UC Davis Comprehensive Cancer Center, Sacramento, CA, United States.
² EQRx Inc, Cambridge, MA, United States.
³ Legacy Heritage Oncology Center/Larry Norton Cancer Institute, Soroka Medical Center, Ben-Gurion University, Beer Sheva, Israel.
⁴ Foundation Medicine, Cambridge, MA, United States.
⁵ Massachusetts General Hospital, Boston, MA, United States.
⁶ Foundation Medicine, Cambridge, MA, United States; SUNY Upstate Medical University.
⁷ UC Davis Comprehensive Cancer Center, Sacramento, CA, United States; Foundation Medicine, Cambridge, MA, United States.
⁸ Foundation Medicine, Cambridge, MA, United States. Electronic address: smalimdphd@gmail.com.

Abstract

Background: The translocation t(15:19) produces the oncogenic BRD4-NUT fusion which is pathognomonic for NUT carcinoma (NC), which is a rare, but extremely aggressive solid tumor. Comprehensive genomic profiling (CGP) by hybrid-capture based next generation sequencing of 186+ genes of a cohort of advanced cancer cases with a variety of initial diagnoses harboring BRD4-NUT may shed further insight into the biology of these tumors and possible options for targeted treatment.

Case presentation: Thirty-one solid tumor cases harboring a BRD4-NUT translocation are described, with only 16% initially diagnosed as NC and the remainder carrying other diagnoses, most commonly NSCLCNOS (22%) and lung squamous cell carcinoma (NSCLC-SCC) (16%). The cohort was all microsatellite stable and harbored a low Tumor Mutational Burden (TMB, mean 1.7 mut/mb, range 0-4). In two index cases, patients treated with immune checkpoint inhibitors (ICPI) had unexpected partial or better responses of varying duration. Notably, four cases - including the two index cases - were negative for PD-L1 expression. Neo-antigen prediction for BRD4-NUT and then affinity modeling of the peptide-MHC (pMHC) complex for an assessable index case predicted very high affinity binding, both on a ranked (99.9%) and absolute (33 nM) basis.

Conclusions: CGP identifies BRD4-NUT fusions in advanced solid tumors which carry a broad range of initial diagnoses and which should be re-diagnosed as NC per guidelines. A hypothesized mechanism underlying responses to ICPI in the low TMB, PD-L1 negative index cases is the predicted high affinity of the BRD4-NUT fusion peptide to MHC complexes. Further study of pMHC affinity and response to immune checkpoint inhibitors in patients with NC harboring BRD4-NUT is needed to validate this therapeutic hypothesis.

Keywords: BRD4; BRD4-NUT; Checkpoint inhibitor; NUT carcinoma; NUT midline carcinoma; PD-L1.