Our study thus not only supports GALK1 and GALT as being possible novel targets for treating HCC, but also uncovers new post-transcriptional regulatory mechanisms that link the galactose metabolic pathway to protein expression of the PI3K/AKT pathway in hepatoma.
Our findings open new avenues for the investigation of the mechanisms of DRAM-mediated autophagy and suggest that promoting DRAM-mediated autophagy together with PI3K/AKT inhibition might be more effective for autophagy-based therapy in hepatoma.
An expression vector with a constitutively active form of Akt1 was transfected in the rat hepatoma McArdle cells (McA RH-7777), McA cells stably expressing human apoB-15 and apoB-48 (15% and 48% of total apoB length), and human hepatoma HepG2.
Taken together, we found that ROS regulate hepatoma cell growth via specific signaling pathways (cross-talk between PI3-K/PKB and JNK pathway) which may provide a novel clue to elucidate the mechanism of hepatoma carcinogenesis.