PIK3CA‐mutated melanoma cells rely on cooperative signaling through mTORC1/2 for sustained proliferation

Malignant conversion of BRAF‐ or NRAS‐mutated melanocytes into melanoma cells can be promoted by PI3′‐lipid signaling. However, the mechanism by which PI3′‐lipid signaling cooperates with mutationally activated BRAF or NRAS has not been adequately explored. Using human NRAS‐ or BRAF‐mutated melanoma cells that co‐express mutationally activated PIK3CA, we explored the contribution of PI3′‐lipid signaling to cell proliferation. Despite mutational activation of PIK3CA, melanoma cells were more sensitive to the biochemical and antiproliferative effects of broader spectrum PI3K inhibitors than to an α‐selective PI3K inhibitor. Combined pharmacological inhibition of MEK1/2 and PI3K signaling elicited more potent antiproliferative effects and greater inhibition of the cell division cycle compared to single‐agent inhibition of either pathway alone. Analysis of signaling downstream of MEK1/2 or PI3K revealed that these pathways cooperate to regulate cell proliferation through mTORC1‐mediated effects on ribosomal protein S6 and 4E‐BP1 phosphorylation in an AKT‐dependent manner. Although PI3K inhibition resulted in cytostatic effects on xenografted NRAS^Q61H/PIK3CA^H1047R melanoma, combined inhibition of MEK1/2 plus PI3K elicited significant melanoma regression. This study provides insights as to how mutationally activated PIK3CA acts in concert with MEK1/2 signaling to cooperatively regulate mTORC1/2 to sustain PIK3CA‐mutated melanoma proliferation.