Clonal selection confers distinct evolutionary trajectories in BRAF-driven cancers.
Priyanka GopalElif Irem SarihanEui Kyu ChieGwendolyn KuzmishinSemihcan DokenNathan A PennellDaniel P RaymondSudish C MurthyUsman AhmadSiva RajaFrancisco AlmeidaSonali SethiThomas R GildeaCraig D PeacockDrew J AdamsMohamed E AbazeedPublished in: Nature communications (2019)
Molecular determinants governing the evolution of tumor subclones toward phylogenetic branches or fixation remain unknown. Using sequencing data, we model the propagation and selection of clones expressing distinct categories of BRAF mutations to estimate their evolutionary trajectories. We show that strongly activating BRAF mutations demonstrate hard sweep dynamics, whereas mutations with less pronounced activation of the BRAF signaling pathway confer soft sweeps or are subclonal. We use clonal reconstructions to estimate the strength of "driver" selection in individual tumors. Using tumors cells and human-derived murine xenografts, we show that tumor sweep dynamics can significantly affect responses to targeted inhibitors of BRAF/MEK or DNA damaging agents. Our study uncovers patterns of distinct BRAF clonal evolutionary dynamics and nominates therapeutic strategies based on the identity of the BRAF mutation and its clonal composition.
Keyphrases
- metastatic colorectal cancer
- wild type
- signaling pathway
- depressive symptoms
- genome wide
- gene expression
- magnetic resonance
- electronic health record
- single cell
- young adults
- single molecule
- deep learning
- cell death
- oxidative stress
- cell proliferation
- circulating tumor cells
- endoplasmic reticulum stress
- image quality
- pluripotent stem cells