Abstract
The synergistic effect of alcohol and HCV mediated through TLR4 signaling transactivates NANOG, a pluripotency transcription factor important for the stemness of tumor-initiating stem-like cells (TICs). NANOG together with the PRC2 complex suppresses expression of oxidative phosphorylation (OXPHOS) genes to generate TICs. The phosphodegron sequence PEST domain of NANOG binds EED to stabilize NANOG protein by blocking E3 ligase recruitment and proteasome-dependent degradation, while the tryptophan-rich domain of NANOG binds EZH2 and SUZ12. Human ARID1A gene loss results in the resistance to combined FAO and PRC2 inhibition therapies due to reduction of mitochondrial ROS levels. CRISPR-Cas9-mediated ARID1A knockout and/or constitutively active CTNNB1 driver mutations promoted tumor development in humanized FRG HCC mouse models, in which use of an interface inhibitor antagonizing PRC2-NANOG binding and/or FAO inhibitor blocked tumor growth. Together, the PRC2-NANOG interaction becomes a new drug target for HCC via inducing differentiation-related genes, destabilizing NANOG protein, and suppressing NANOG activity.
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