Research Papers:
BRAFV600E-dependent Mcl-1 stabilization leads to everolimus resistance in colon cancer cells
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Abstract
Kan He1,2, Dongshi Chen2,3, Hang Ruan1,2, Xiangyun Li1,2,4, Jingshan Tong2,3, Xiang Xu4, Lin Zhang2,3, Jian Yu1,2
1Department of Pathology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15213, USA
2University of Pittsburgh Cancer Institute, University of Pittsburgh School of Medicine, Pittsburgh, PA 15213, USA
3Department of Pharmacology and Chemical Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15213, USA
4The Third Military Medical University Daping Hospital, Daping, Yu Zhong District, Chongqing 400042, P.R. China
Correspondence to:
Jian Yu, email: [email protected]
Keywords: mTOR, everolimus, Mcl-1, BRAF V600E, ERK
Received: March 22, 2016 Accepted: June 09, 2016 Published: June 24, 2016
ABSTRACT
mTOR activation is commonly caused by oncogenic mutations in RAS/RAF/MAPK and PI3K/AKT pathways, and promotes cancer progression and therapeutic resistance. However, mTOR inhibitors show limited single agent efficacy in patients. mTOR inhibitors suppress tumor cell growth and angiogenesis, and have recently been shown to induce death receptor/FADD-dependent apoptosis in colon cancers. Using a panel of BRAF V600E and WT colorectal cancer cell lines and in vitro selected resistant culture, and xenograft models, we demonstrate here that BRAFV600E confers resistance to mTOR inhibitors. Everolimus treatment disrupts the S6K1-IRS-2/PI3K negative feedback loop, leading to BRAF V600E-dependent activation of ERK and Mcl-1 stabilization in colon cancer cells, which in turn blocks the crosstalk from the death receptor to mitochondria. Co-treatment with inhibitors to Mcl-1, PI3K, RAF or MEK restores mTOR inhibitor-induced apoptosis by antagonizing Mcl-1 or abrogating ERK activation in BRAFV600E cells. Our findings provide a rationale for genotype-guided patient stratification and potential drug combinations to prevent or mitigate undesired activation of survival pathways induced by mTOR inhibitors.
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PII: 10277