New directions in targeting the multifaceted BRAF in cancer

“Here we discuss the diverse forms of BRAF alterations found in human cancers and the strategies to inhibit them in patients harboring cancers of distinct origins.” Credit: 2024 Toye et al. “Here we discuss the diverse forms of BRAF alterations found in human cancers and the strategies to inhibit them in patients harboring cancers of […]

Aug 13, 2024 - 04:00
New directions in targeting the multifaceted BRAF in cancer

“Here we discuss the diverse forms of BRAF alterations found in human cancers and the strategies to inhibit them in patients harboring cancers of distinct origins.”

Targeting the multifaceted BRAF in cancer: New directions

Credit: 2024 Toye et al.

“Here we discuss the diverse forms of BRAF alterations found in human cancers and the strategies to inhibit them in patients harboring cancers of distinct origins.”

BUFFALO, NY- August 12, 2024 – A new research perspective was published in Oncotarget’s Volume 15 on July 16, 2024, entitled, “Targeting the multifaceted BRAF in cancer: New directions.”

In cancer patients, BRAF-targeting precision therapeutics are effective against Class I BRAF alterations (p.V600 hotspot mutations) in tumors such as melanoma, thyroid cancer, and colorectal cancer. However, numerous non-Class I BRAF inhibitors are also in development and have been explored in various cancers.

Researchers Eamon Toye, Alexander Chehrazi-Raffle, Justin Hwang, and Emmanuel S. Antonarakis from the Masonic Cancer Center, University of Minnesota-Twin Cities, Department of Medicine, University of Minnesota-Twin Cities, Perelman School of Medicine, University of Pennsylvania, and the City of Hope Comprehensive Cancer Center in Duarte, California, discuss the diverse forms of BRAF alterations found in human cancers and the strategies used to inhibit them in patients with cancers of various origins.

As part of their conclusion, the researchers highlighted that Class I BRAF inhibitors represent a landmark achievement in precision oncology, as demonstrated by the recent tissue-agnostic FDA approval of dabrafenib/trametinib for patients with metastatic BRAF p.V600E-mutant solid tumors. Additionally, the accelerated approval of tovorafenib for patients with relapsed/refractory BRAF-altered pediatric low-grade glioma underscores the therapeutic potential of this and other next-generation strategies targeting aberrant MAPK signaling.

Continue reading: DOI: https://doi.org/10.18632/oncotarget.28612 

Correspondence to: Emmanuel S. Antonarakis – anton401@umn.edu, and Justin Hwang – jhwang@umn.edu

Keywords: BRAF, MAPK, pan-cancer, precision oncology, genomics

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