The forkhead box transcription factor FoxM1 is essential for hepatocellular carcinoma (HCC) development, and its overexpression coincides with poor prognosis. Here, we show that the mechanisms by which FoxM1 drives HCC progression involve overcoming the inhibitory effects of the liver differentiation gene FoxA2. First, the expression patterns of FoxM1 and FoxA2 in human HCC are opposite. We show that FoxM1 represses expression of FoxA2 in G1 phase. Repression of FoxA2 in G1 phase is important, as it is capable of inhibiting expression of the pluripotency genes that are expressed mainly in S-G2 phases. Using a transgenic mouse model for oncogenic Ras-driven HCC, we provide genetic evidence for a repression of FoxA2 by FoxM1. Conversely, FoxA2 inhibits expression of FoxM1 and inhibits FoxM1-induced tumorigenicity. Also, FoxA2 inhibits Ras-induced HCC progression that involves FoxM1. IMPLICATIONS: The observations provide strong genetic evidence for an opposing role of FoxM1 and FoxA2 in HCC progression. Moreover, FoxM1 drives high-grade HCC progression partly by inhibiting the hepatocyte differentiation gene FoxA2.
©2019 American Association for Cancer Research.