MEK1/2 inhibitor withdrawal reverses acquired resistance driven by BRAF V600E amplification whereas KRAS G13D amplification promotes EMT-chemoresistance

Acquired resistance to MEK1/2 inhibitors (MEKi) arises through amplification of BRAF V600E or KRAS G13D to reinstate ERK1/2 signalling. Here we show that BRAF V600E amplification and MEKi resistance are reversible following drug withdrawal. Cells with BRAF V600E amplification are addicted to MEKi to maintain a precise level of ERK1/2 signalling that is optimal for cell proliferation and survival, and tumour growth in vivo. Robust ERK1/2 activation following MEKi withdrawal drives a p57 KIP2 -dependent G1 cell cycle arrest and senescence or expression of NOXA and cell death, selecting against those cells with amplified BRAF V600E . p57 KIP2 expression is required for loss of BRAF V600E amplification and reversal of MEKi resistance. Thus, BRAF V600E amplification confers a selective disadvantage during drug withdrawal, validating intermittent dosing to forestall resistance. In contrast, resistance driven by KRAS G13D amplification is not reversible; rather ERK1/2 hyperactivation drives ZEB1-dependent epithelial-to-mesenchymal transition and chemoresistance, arguing strongly against the use of drug holidays in cases of KRAS G13D amplification.