Abstract
The most frequent genetic alterations in melanoma are gain-of-function (GOF) mutations in BRAF, which result in RAF-MEK-ERK signaling pathway addiction. Despite therapeutic success of RAF and MEK inhibitors in treating BRAFV600-mutant tumors, a major challenge is the inevitable emergence of drug resistance, which often involves reactivation of the MAPK pathway. Interestingly, resistant tumors are often sensitive to drug withdrawal, suggesting that hyperactivation of the MAPK pathway is not tolerated. To further characterize this phenomenon, isogenic models of inducible MAPK hyperactivation in BRAFV600E melanoma cells were generated by overexpression of ERK2. Using this model system, supraphysiologic levels of MAPK signaling led to cell death, which was reversed by MAPK inhibition. Furthermore, complete tumor regression was observed in an ERK2-overexpressing xenograft model. To identify mediators of MAPK hyperactivation-induced cell death, a large-scale pooled shRNA screen was conducted, which revealed that only shRNAs against BRAF and MAP2K1 rescued loss of cell viability. This suggested that no single downstream ERK2 effector was required, consistent with pleiotropic effects on multiple cellular stress pathways. Intriguingly, the detrimental effect of MAPK hyperactivation could be partially attributed to secreted factors, and more than 100 differentially secreted proteins were identified. The effect of ERK2 overexpression was highly context dependent, as RAS/RAF mutant but not RAS/RAF wild-type melanoma were sensitive to this perturbation. IMPLICATIONS: This vulnerability to MAPK hyperactivation raises the possibility of novel therapeutic approaches for RAS/RAF-mutant cancers.
Highlights
The MAPK signaling pathway, comprised of RAS, RAF, MEK and ERK, is involved in transduction of extracellular nutrient and growth factor signals to the interior of the cell
While ERK1 or ERK2 overexpression resulted in elevated levels of phosphorylated ERK1/2 substrates such as FRA, FOSB, and increased levels of DUSPs, overexpression of NRASQ61K, BRAFV600E, or MEK1C121S had much milder effects, consistent with the minimal effects on proliferation (Fig. 1B and E)
Cell viability was measured after 3 days using CellTiter-Glo, and normalized to the DMSO control and day 0 values
Summary
The MAPK signaling pathway, comprised of RAS, RAF, MEK and ERK, is involved in transduction of extracellular nutrient and growth factor signals to the interior of the cell. As such, it regulates a large number of cell processes including cell proliferation, differentiation, and survival. Fifty percent of all metastatic melanoma tumors harbor BRAFV600 mutations, which lead to elevated MAPK pathway signaling and promote tumor growth [1,2,3] These tumors exhibit exquisite dependence upon mutant BRAF for survival, making BRAF an attractive target for pharmacologic intervention.
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