A next-generation BRAF inhibitor overcomes resistance to BRAF inhibition in patients with BRAF-mutant cancers using pharmacokinetics-informed dose escalation.

Rona Yaeger, Meredith A McKean, Rizwan Haq, J Thaddeus Beck, Matthew H Taylor, Jonathan Eliezer Cohen, Daniel W Bowles, Shirish M Gadgeel, Catalin Mihalcioiu, Kyriakos P Papadopoulos, Eli L Diamond, Keren B Sturtz, Gang Feng, Stefanie K Drescher, Micaela B Reddy, Bhaswati Sengupta, Arnab K Maity, Suzy A Brown, Anurag Singh, Eric N BrownBrian R Baer, Jim Wong, Tung-Chung Mou, Wen-I Wu, Dean R Kahn, Sunyana Gadal, Neal Rosen, John J Gaudino, Patrice A Lee, Dylan P Hartley, S Michael Rothenberg

Research output: Contribution to journalArticle

Abstract

RAF inhibitors have transformed treatment for BRAF V600-mutant cancer patients, but clinical benefit is limited by adaptive induction of ERK signaling, genetic alterations that induce BRAF V600 dimerization, and poor brain penetration. Next-generation pan-RAF dimer inhibitors are limited by narrow therapeutic index. PF-07799933 (ARRY-440) is a brain-penetrant, selective, pan-mutant BRAF inhibitor. PF-07799933 inhibited signaling in vitro, disrupted endogenous mutant-BRAF:wild-type-CRAF dimers, and spared wild-type ERK signaling. PF-07799933 ± binimetinib inhibited growth of mouse xenograft tumors driven by mutant BRAF that functions as dimers and by BRAF V600E with acquired resistance to current RAF inhibitors. We treated patients with treatment-refractory BRAF-mutant solid tumors in a first-in-human clinical trial (NCT05355701) that utilized a novel, flexible, pharmacokinetics-informed dose escalation design that allowed rapid achievement of PF-07799933 efficacious concentrations. PF-07799933 ± binimetinib was well-tolerated and resulted in multiple confirmed responses, systemically and in the brain, in BRAF-mutant cancer patients refractory to approved RAF inhibitors.

Original languageAmerican English
JournalArticles, Abstracts, and Reports
StatePublished - Apr 30 2024

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