Abstract A129: A second-site mutation in BRAF confers resistance to RAF inhibition in a BRAF V600E-mutant brain tumor
| Autor: | Neal Rosen, Amy Allen, Christine A. Pratilas, David J. Pisapia, Barry S. Taylor, Jiawan Wang, Alice Can Ran Qin, Zhan Yao, Philip Jonsson |
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| Rok vydání: | 2018 |
| Předmět: | |
| Zdroj: | Molecular Cancer Therapeutics. 17:A129-A129 |
| ISSN: | 1538-8514 1535-7163 |
| Popis: | BRAF V600E drives tumors by hyperactivating ERK signaling, is activated in a RAS-independent manner, and signals as a monomer. Selective inhibitors of RAF potently inhibit BRAF V600E and downstream ERK signaling, and have been associated with impressive clinical responses in patients whose tumors harbor V600E mutations in BRAF. Almost all patients, however, ultimately develop resistance. To date, acquired resistance mechanisms validated in patient samples have included splice forms of BRAF, mutations in NRAS, and BRAF amplification, all of which promote formation of RAF dimers, and mutations in MEK. Second-site point mutations in BRAF that promote dimer formation and are associated with acquired resistance have not previously been identified in RAF inhibitor-resistant tumors. Here, we report a complete response followed by clinical progression of a BRAF V600E-mutant pediatric brain tumor treated with the RAF inhibitor dabrafenib. We identified a second-site mutation in BRAF at the time of progression that was not present in the pretreatment tumor. Further study indicated the acquired mutation is in cis with V600E. We demonstrate that the acquired resistance mutation induces RAF dimer formation, and is sufficient to confer resistance to dabrafenib. Moreover, we showed that ERK signaling activated by the double mutation is sensitive to MEK inhibition or to the RAF plus and MEK inhibitor combination. We also find that two novel RAF dimer inhibitors may overcome resistance mediated by the novel mutation in BRAF. This is the first study, to our knowledge, that demonstrates the emergence of a confirmed second-site mutation in BRAF V600E and validates that this mutation is responsible for acquired resistance in an initially responding patient treated with dabrafenib. The mechanism of acquired resistance can be abrogated by the novel RAF dimer inhibitors. Our data confirm that a novel class of RAF dimer inhibitors are active against an acquired resistance mutation, suggesting an improved personalized treatment option for patients who harbor similar second-site mutations in BRAF. Citation Format: Jiawan Wang, Zhan Yao, Philip Jonsson, Amy Allen, Alice Can Ran Qin, David Pisapia, Neal Rosen, Barry S. Taylor, Christine A. Pratilas. A second-site mutation in BRAF confers resistance to RAF inhibition in a BRAF V600E-mutant brain tumor [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2017 Oct 26-30; Philadelphia, PA. Philadelphia (PA): AACR; Mol Cancer Ther 2018;17(1 Suppl):Abstract nr A129. |
| Databáze: | OpenAIRE |
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