Brian A Keller1,2,3, Brian J Laight4, Oliver Varette4,5, Aron Broom6, Marie-Ève Wedge4,7, Benjamin McSweeney4, Catia Cemeus4, Julia Petryk4, Bryan Lo4,8,9, Bruce Burns8, Carolyn Nessim4,10, Michael Ong4,11, Roberto A Chica6, Harold L Atkins4,5,12, Jean-Simon Diallo4,5, Carolina S Ilkow4,5, John C Bell4,5. 1. Centre for Innovative Cancer Therapeutics, Ottawa Hospital Research Institute, 501 Smyth Road, Ottawa, K1H 8L6, Canada. brkeller@toh.ca. 2. Department of Biochemistry, Microbiology and Immunology, Faculty of Medicine, University of Ottawa, 451 Smyth Road, Ottawa, K1H 8M5, Canada. brkeller@toh.ca. 3. Department of Pathology and Laboratory Medicine, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada. brkeller@toh.ca. 4. Centre for Innovative Cancer Therapeutics, Ottawa Hospital Research Institute, 501 Smyth Road, Ottawa, K1H 8L6, Canada. 5. Department of Biochemistry, Microbiology and Immunology, Faculty of Medicine, University of Ottawa, 451 Smyth Road, Ottawa, K1H 8M5, Canada. 6. Department of Chemistry and Biomolecular Sciences, University of Ottawa, 10 Marie-Curie Private, Ottawa, K1N 6N5, Canada. 7. Department of Cellular and Molecular Medicine, Faculty of Medicine, University of Ottawa, 451 Smyth Road, Ottawa, K1H 8M5, Canada. 8. Department of Pathology and Laboratory Medicine, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada. 9. Molecular Oncology Diagnostics Laboratory, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada. 10. Division of General Surgery, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada. 11. Division of Medical Oncology, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada. 12. The Ottawa Hospital Blood and Marrow Transplant Program, The Ottawa Hospital, 501 Smyth Road, Ottawa, K1H 8L6, Canada.
Abstract
PURPOSE: Mutations in BRAF are the most prominent activating mutations in melanoma and are increasingly recognized in other cancers. There is currently no accepted treatment regimen for patients with mutant BRAFK601N melanoma, and the study of melanoma driven by BRAF mutations at the 601 locus is lacking due to a paucity of cellular model systems. Therefore, we sought to better understand the treatment and clinical approach to patients with mutant BRAFK601N melanoma and subsequently develop a novel personalized oncology platform for rare or treatment-refractory cancers. METHODS: We developed and characterized the first patient-derived, naturally occurring BRAFK601N melanoma model, described herein as OHRI-MEL-13, and assessed efficacy using the Prestwick Chemical Library and select targeted therapeutics. RESULTS: OHRI-MEL-13 exhibits loss of heterozygosity of BRAF, closely mimics the original tumor's gene expression profile, is tumorigenic in immune-deficient murine models, and is available for public accession through American Type Culture Collection. We present in silico modeling data, which illustrates the therapeutic failure of BRAFV600E-targeted therapies in BRAFK601N mutants. Our platform elucidated a unique role for MEK inhibition with cobimetinib, which resulted in short-term clinical success by reducing the metastatic burden. CONCLUSION: Our model of BRAFK601N-activated melanoma was developed, thoroughly characterized, and made available for public accession. This model served to demonstrate the feasibility of a novel personalized oncology platform that could be optimized at an institutional level for rare variant or treatment-refractory cancers. We also demonstrate the clinical utility of monotherapy MEK inhibition in a case of BRAFK601N melanoma.
PURPOSE: Mutations in BRAF are the most prominent activating mutations in melanoma and are increasingly recognized in other cancers. There is currently no accepted treatment regimen for patients with mutant BRAFK601N melanoma, and the study of melanoma driven by BRAF mutations at the 601 locus is lacking due to a paucity of cellular model systems. Therefore, we sought to better understand the treatment and clinical approach to patients with mutant BRAFK601N melanoma and subsequently develop a novel personalized oncology platform for rare or treatment-refractory cancers. METHODS: We developed and characterized the first patient-derived, naturally occurring BRAFK601N melanoma model, described herein as OHRI-MEL-13, and assessed efficacy using the Prestwick Chemical Library and select targeted therapeutics. RESULTS: OHRI-MEL-13 exhibits loss of heterozygosity of BRAF, closely mimics the original tumor's gene expression profile, is tumorigenic in immune-deficient murine models, and is available for public accession through American Type Culture Collection. We present in silico modeling data, which illustrates the therapeutic failure of BRAFV600E-targeted therapies in BRAFK601N mutants. Our platform elucidated a unique role for MEK inhibition with cobimetinib, which resulted in short-term clinical success by reducing the metastatic burden. CONCLUSION: Our model of BRAFK601N-activated melanoma was developed, thoroughly characterized, and made available for public accession. This model served to demonstrate the feasibility of a novel personalized oncology platform that could be optimized at an institutional level for rare variant or treatment-refractory cancers. We also demonstrate the clinical utility of monotherapy MEK inhibition in a case of BRAFK601N melanoma.
Entities:
Keywords:
BRAFK601N; Drug discovery; Model development; Personalized oncology; Pipeline
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