Glucose deprivation induced aberrant FUT1-mediated fucosylation drives cancer stemness in hepatocellular carcinoma

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Abstract

Rapidly growing tumors often experience hypoxia and nutrient (e.g., glucose) deficiency because of poor vascularization. Tumor cells respond to the cytotoxic effects of such stresses by inducing molecular adaptations that promote clonal selection of a more malignant tumor-initiating cell phenotype, especially in the innermost tumor regions. Here, we report a regulatory mechanism involving fucosylation by which glucose restriction promotes cancer stemness to drive drug resistance and tumor recurrence. Using hepatocellular carcinoma (HCC) as a model, we showed that restricted glucose availability enhanced the PERK-eIF2α-ATF4 signaling axis to drive fucosyltransferase-1 (FUT1) transcription via direct binding of ATF4 to the FUT1 promoter. FUT1 overexpression is a poor prognostic indicator for HCC. FUT1 inhibition could mitigate tumor initiation, self-renewal and drug resistance. Mechanistically, we demonstrated that CD147, ICAM-1, EGFR and EPHA2 are glycoprotein targets of FUT1, where such fucosylation would consequently converge on deregulated AKT-mTOR-4EBP1 signaling to drive cancer stemness. Treatment with an α-(1,2)-fucosylation inhibitor sensitized HCC tumors to sorafenib, a first-line molecular targeted drug used for advanced HCC patients, and reduced the tumor-initiating subset. FUT1 overexpression and/or CD147, ICAM-1, EGFR and EPHA2 fucosylation may be good prognostic markers and therapeutic targets for cancer patients.

Authors

Jane H.C. Loong, Tin-Lok Wong, Man Tong, Rakesh Sharma, Lei Zhou, Kai-Yu Ng, Hua-Jian Yu, Chi Han Li, Kwan Man, Chung-Mau Lo, Xin-Yuan Guan, Terence K. Lee, Jing-Ping Yun, Stephanie Kwai Yee Ma