SHOC2 is a scaffold protein that activates the RAS-MAPK signal. Our recent study showed that SHOC2 is also a negative regulator of the mTORC1 signal in lung cancer cells. Whether and how SHOC2 differentially regulates the RAS-MAPK vs. the mTORC1 signals in liver cancer remains unknown. Here, we showed that S HOC2 is overexpressed in human liver cancer tissues, and SHOC2 overexpression promotes the growth and survival of liver cancer cells via activation of the RAS-MAPK signal, although the mTORC1 signal is inactivated. SHOC2 knockdown suppresses the growth of liver cancer cells mainly through inactivating the RAS-MAPK signal. Thus, in the cell culture models, SHOC2 regulation of growth is dependent of the RAS-MAPK but not the mTORC1 signal. Interestingly, in a mouse liver cancer model induced by diethylnitrosamine (DEN)-high-fat diet (HFD), hepatocyte-specific Shoc2 deletion inactivates the Ras-Mapk signal but has no effect in liver tumorigenesis. However, in the Pten loss-induced liver cancer model, Shoc2 deletion further activates mTorc1 without affecting the Ras-Mapk signal and promotes liver tumorigenesis. Collectively, it appears that SHOC2 could act as either an oncogene (via activating the MAPK signal) or a tumor suppressor (via inactivating the mTORC1 signal) in the manner dependent of the dominancy of the MAPK vs. mTORC1 signals.
Keywords: PTEN; RAS; SHOC2; liver cancer; mTORC1.
© The Author(s) 2024. Published by Oxford University Press on behalf of Higher Education Press.