Abstract
Mutation of BRAF at the valine 600 residue occurs in approximately 10% of colorectal cancers, a group with particularly poor prognosis. The response of BRAF mutant colorectal cancer to recent targeted strategies such as anti-BRAF or combinations with MEK and EGFR inhibitors remains limited and highly heterogeneous within BRAF V600E cohorts. There is clearly an unmet need in understanding the biology of BRAF V600E colorectal cancers and potential subgroups within this population. In the biggest yet reported cohort of 218 BRAF V600E with gene expression data, we performed unsupervised clustering using non-negative matrix factorization to identify gene expression-based subgroups and characterized pathway activation. We found strong support for a split into two distinct groups, called BM1 and BM2. These subtypes are independent of MSI status, PI3K mutation, gender, and sidedness. Pathway analyses revealed that BM1 is characterized by KRAS/AKT pathway activation, mTOR/4EBP deregulation, and EMT whereas BM2 displays important deregulation of the cell cycle. Proteomics data validated these observations as BM1 is characterized by high phosphorylation levels of AKT and 4EBP1, and BM2 patients display high CDK1 and low cyclin D1 levels. We provide a global assessment of gene expression motifs that differentiate BRAF V600E subtypes from other colorectal cancers. We suggest that BRAF mutant patients should not be considered as having a unique biology and provide an in depth characterization of heterogeneous motifs that may be exploited for drug targeting. Clin Cancer Res; 23(1); 104-15. ©2016 AACR.
Highlights
Colorectal cancer is the third leading cause of cancer-related death in the United States [1]
Pathway analyses revealed that BM1 is characterized by KRAS/AKT pathway activation, mTOR/4EBP deregulation, and EMT whereas BM2 displays important deregulation of the cell cycle
We provide a global assessment of gene expression motifs that differentiate BRAF V600E subtypes from other colorectal cancers
Summary
Colorectal cancer is the third leading cause of cancer-related death in the United States [1]. The oncogenic contribution of mutated BRAF may vary between tumor types, as suggested by the very heterogeneous clinical benefit seen for BRAF inhibition strategies between melanoma and colon [6, 7]. This heterogeneity in drug resistance indicates cancer-type specificity of the biology underlying the BRAF mutation. The recent outcome data of trials targeting selected BRAF V600 mutated colorectal cancer cohorts with monotherapy [8, 9], double-targeted therapy [8, 10,11,12,13], and triple-targeted therapeutics [13,14,15] have shown a surprisingly strong heterogeneity in response, suggesting that further biological subdivisions may exist even within BRAF V600 mutant colorectal cancer
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