Abstract
Accelerated glucose metabolism is critical in hepatocarcinogenesis, but the utilities of different glucose transporter inhibitors in treating hepatocellular carcinoma (HCC) remain largely uncharacterized. In this study, we examined a collection of glucose transporter inhibitors and found differential anti-HCC effects among these compounds. Canagliflozin (CANA), phloretin, and WZB117 decreased cellular glucose influx, but only CANA showed potent growth inhibition in HCC, which indicated a glucose-independent anti-HCC mechanism. Notably, we found that CANA treatment significantly downregulated the expression of β-catenin in HCC cells in. By co-treating cells with cycloheximide and MG-132, we proved that CANA promoted proteasomal degradation of β-catenin protein by increasing phosphorylation of β-catenin, and CANA-induced inactivation of protein phosphatase 2A was identified being responsible for this effect. Moreover, using Huh7 xenografted tumor model, CANA treatment was shown to delay tumor growth and improved the survival of HCC bearing mice. Our study highlights the unique dual β-catenin-inhibition mechanisms of CANA, which may provide new thoughts on treating HCC patient with concurrent diabetes, and, furthermore, on developing novel treatment targeting metabolic reprogram and/or WNT/β-catenin signaling in HCC.
Highlights
Hepatocellular carcinoma (HCC), one of the most fatal human malignant diseases worldwide, is characterized by complex and heterogeneous factors[1]
Canagliflozin treatment inhibits the maintenance of HCC cells and HCC stem cells To investigate the effects of CANA in HCC, we first exposed Huh[7] and Hep3B cells to various doses of CANA and examined the cells by MTT, colony formation assay and hepatoshpere formation assay
Because the best-known function of CANA is blocking sodium/ glucose cotransporter 2 (SGLT2)-mediated glucose uptake, we began our investigation on the anti-HCC mechanism of CANA by investigating whether glucose influx affected the viability of HCC cells, and, if so, how it related to the anti-HCC effects of CANA
Summary
Hepatocellular carcinoma (HCC), one of the most fatal human malignant diseases worldwide, is characterized by complex and heterogeneous factors[1]. Sorafenib and regorafenib are currently approved for patients with advanced HCC2,3, but the response rate and the actual survival improvement to all of above-mentioned. One of the hallmarks of cancer, describes changes in uptake and utilization of different nutrients by cancer cells to attain high growth and proliferation rates[4]. By preferentially expressing isomers of glucose transporters, such as glucose transporter (GLUT) 1, key enzymes, such as hexokinase 2, and pyruvate kinase M2 (PKM2), cancer cells modulate and hijack the whole process of glucose metabolism to balance their inefficient glucose utilization, aerobic glycolysis ( known as Warburg effect), and high anabolic demands[4,5]. The reprogrammed glucose metabolism cascade provides cancer cells with energy, it promotes the function of many oncoproteins, and drives the Official journal of the Cell Death Differentiation Association
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