Akt enhances the vulnerability of cancer cells to VCP/p97 inhibition-mediated paraptosis.
Dong Min LeeIn Young KimHong Jae LeeMin Ji SeoMi-Young ChoHae In LeeGyesoon YoonJae-Hoon JiSeok Soon ParkSeong-Yun JeongEun Kyung ChoiYong Hyeon ChoiChae-Ok YunMirae YeoEunhee KimKyeong Sook ChoiPublished in: Cell death & disease (2024)
Valosin-containing protein (VCP)/p97, an AAA+ ATPase critical for maintaining proteostasis, emerges as a promising target for cancer therapy. This study reveals that targeting VCP selectively eliminates breast cancer cells while sparing non-transformed cells by inducing paraptosis, a non-apoptotic cell death mechanism characterized by endoplasmic reticulum and mitochondria dilation. Intriguingly, oncogenic HRas sensitizes non-transformed cells to VCP inhibition-mediated paraptosis. The susceptibility of cancer cells to VCP inhibition is attributed to the non-attenuation and recovery of protein synthesis under proteotoxic stress. Mechanistically, mTORC2/Akt activation and eIF3d-dependent translation contribute to translational rebound and amplification of proteotoxic stress. Furthermore, the ATF4/DDIT4 axis augments VCP inhibition-mediated paraptosis by activating Akt. Given that hyperactive Akt counteracts chemotherapeutic-induced apoptosis, VCP inhibition presents a promising therapeutic avenue to exploit Akt-associated vulnerabilities in cancer cells by triggering paraptosis while safeguarding normal cells.