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. 2025 Apr 16;16(4):101239.
doi: 10.1016/j.cels.2025.101239. Epub 2025 Mar 20.

Signaling and transcriptional dynamics underlying early adaptation to oncogenic BRAF inhibition

Cameron T Flower  1 Chunmei Liu  2 Hui-Yu Chuang  2 Xiaoyang Ye  2 Hanjun Cheng  2 James R Heath  3 Wei Wei  4 Forest M White  5
Affiliations

Signaling and transcriptional dynamics underlying early adaptation to oncogenic BRAF inhibition

Cameron T Flower et al. Cell Syst. .

Abstract

A major contributor to poor sensitivity to anti-cancer kinase inhibitor therapy is drug-induced cellular adaptation, whereby remodeling of signaling and gene regulatory networks permits a drug-tolerant phenotype. Here, we resolve the scale and kinetics of critical subcellular events following oncogenic kinase inhibition and preceding cell cycle re-entry, using mass spectrometry-based phosphoproteomics and RNA sequencing (RNA-seq) to monitor the dynamics of thousands of growth- and survival-related signals over the first minutes, hours, and days of oncogenic BRAF inhibition in human melanoma cells. We observed sustained inhibition of the BRAF-ERK axis, gradual downregulation of cell cycle signaling, and three distinct, reversible phase transitions toward quiescence. Statistical inference of kinetically defined regulatory modules revealed a dominant compensatory induction of SRC family kinase (SFK) signaling, promoted in part by excess reactive oxygen species, rendering cells sensitive to co-treatment with an SFK inhibitor in vitro and in vivo, underscoring the translational potential for assessing early drug-induced adaptive signaling. A record of this paper's transparent peer review process is included in the supplemental information.

Keywords: BRAF; SRC family kinase signaling; cancer systems biology; drug adaptation; gene regulatory network; kinase inhibition; melanoma; multi-omics integration; oncogenic signaling; phosphoproteomics.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

Update of

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