FLIPL is critical for aerobic glycolysis in hepatocellular carcinoma

Background: Tumor cells use aerobic glycolysis to rapidly generate ATP and growth substrate which expenses a large amount of glucose. However, how tumor cells take in enough glucose from the tumor microenvironment of insufficient blood supply remains poorly understood. The cellular FLICE-like inhibitory protein (FLIP), a cell apoptosis inhibiting molecule, is highly expressed in hepatocellular carcinoma (HCC) and is implicated in HCC development. Methods: The effects of FLIPL (the long form of FLIP) on aerobic glycolysis and glucose uptake were assessed in HCC cells and xenograft tumors. The correlations between FLIPL expression and sodium/glucose cotransporter 1 (SGLT1) expression in clinical HCC tissues were analyzed. The consequences of FLIPL-induced regulation of SGLT1 at the transcription and translation levels and the interaction between FLIPL and SGLT1 were examined. FLIPL-mediated tolerance upon glucose limitation and its mechanism were detected. Results: We report a novel role for FLIPL in promoting the aerobic glycolysis of HCC cells. FLIPL overexpression induced a significant increase in cell aerobic glycolysis indexes including glucose uptake, glucose consumption, and lactate production. FLIPL co-localized and interacted with SGLT1, a major active glucose transporter in HCC cells. FLIPL increased the stability of SGLT1 protein by inhibiting its ubiquitination and degradation. The expression level of FLIPL was positively correlated with the expression level of SGLT1 in 79 HCC tissues from surgical operation. Furthermore, FLIPL increased cell tolerance ability and decreased cell apoptosis to low glucose by regulating SGLT1. Conclusions: Our results indicate that FLIPL plays an essential role in HCC aerobic glycolysis and that SGLT1 is required for FLIPL-modulated tumor proliferation under low glucose conditions. Targeting the actions of FLIPL in cell glucose-dependent aerobic glycolysis may provide an attractive strategy for therapeutic intervention in HCC.