Pin Liu1,2, Mengmeng Ge3, Junjie Hu2,4, Xiaolei Li2,5, Li Che2, Kun Sun3, Lili Cheng3, Yuedong Huang3, Maria G Pilo6, Antonio Cigliano6, Giovanni M Pes7, Rosa M Pascale7, Stefania Brozzetti8, Gianpaolo Vidili7, Alberto Porcu7, Antonio Cossu9, Giuseppe Palmieri10, Maria C Sini10, Silvia Ribback6, Frank Dombrowski6, Junyan Tao2, Diego F Calvisi6,7, Ligong Chen3,11, Xin Chen2,4. 1. Department of Pediatrics, Zhongnan Hospital of Wuhan University, Wuhan, Hubei, China. 2. Department of Bioengineering and Therapeutic Sciences and Liver Center, University of California, San Francisco, CA. 3. School of Pharmaceutical Sciences, Tsinghua University, Beijing, China. 4. School of Pharmacy, Hubei University of Chinese Medicine, Wuhan, Hubei, China. 5. Department of Thyroid and Breast Surgery, Jinan Military General Hospital of PLA, Jinan, Shandong, China. 6. Institute of Pathology, University of Greifswald, Greifswald, Germany. 7. Department of Clinical and Experimental Medicine, University of Sassari, Sassari, Italy. 8. Pietro Valdoni Surgery Department, University of Rome La Sapienza, Rome, Italy. 9. Unit of Pathology, Azienda Ospedaliero Universitaria Sassari, Sassari, Italy. 10. Institute of Biomolecular Chemistry, National Research Council, Sassari, Italy. 11. Collaborative Innovation Center for Biotherapy, State Key Laboratory of Biotherapy and Cancer Center, West China Hospital, West China Medical School, Sichuan University, Chengdu, China.
Abstract
Amplification and/or activation of the c-Myc proto-oncogene is one of the leading genetic events along hepatocarcinogenesis. The oncogenic potential of c-Myc has been proven experimentally by the finding that its overexpression in the mouse liver triggers tumor formation. However, the molecular mechanism whereby c-Myc exerts its oncogenic activity in the liver remains poorly understood. Here, we demonstrate that the mammalian target of rapamycin complex 1 (mTORC1) cascade is activated and necessary for c-Myc-dependent hepatocarcinogenesis. Specifically, we found that ablation of Raptor, the unique member of mTORC1, strongly inhibits c-Myc liver tumor formation. Also, the p70 ribosomal S6 kinase/ribosomal protein S6 and eukaryotic translation initiation factor 4E-binding protein 1/eukaryotic translation initiation factor 4E signaling cascades downstream of mTORC1 are required for c-Myc-driven tumorigenesis. Intriguingly, microarray expression analysis revealed up-regulation of multiple amino acid transporters, including solute carrier family 1 member A5 (SLC1A5) and SLC7A6, leading to robust uptake of amino acids, including glutamine, into c-Myc tumor cells. Subsequent functional studies showed that amino acids are critical for activation of mTORC1 as their inhibition suppressed mTORC1 in c-Myc tumor cells. In human hepatocellular carcinoma specimens, levels of c-Myc directly correlate with those of mTORC1 activation as well as of SLC1A5 and SLC7A6. CONCLUSION: Our current study indicates that an intact mTORC1 axis is required for c-Myc-driven hepatocarcinogenesis; thus, targeting the mTOR pathway or amino acid transporters may be an effective and novel therapeutic option for the treatment of hepatocellular carcinoma with activated c-Myc signaling. (Hepatology 2017;66:167-181).
Amplification and/or activation of the c-Myc proto-oncogene is one of the leading genetic events along hepatocarcinogenesis. The oncogenic potential of c-Myc has been proven experimentally by the finding that its overexpression in the mouse liver triggers tumor formation. However, the molecular mechanism whereby c-Myc exerts its oncogenic activity in the liver remains poorly understood. Here, we demonstrate that the mammalian target of rapamycin complex 1 (mTORC1) cascade is activated and necessary for c-Myc-dependent hepatocarcinogenesis. Specifically, we found that ablation of Raptor, the unique member of mTORC1, strongly inhibits c-Myc liver tumor formation. Also, the p70 ribosomal S6 kinase/ribosomal protein S6 and eukaryotic translation initiation factor 4E-binding protein 1/eukaryotic translation initiation factor 4E signaling cascades downstream of mTORC1 are required for c-Myc-driven tumorigenesis. Intriguingly, microarray expression analysis revealed up-regulation of multiple amino acid transporters, including solute carrier family 1 member A5 (SLC1A5) and SLC7A6, leading to robust uptake of amino acids, including glutamine, into c-Myctumor cells. Subsequent functional studies showed that amino acids are critical for activation of mTORC1 as their inhibition suppressed mTORC1 in c-Myctumor cells. In humanhepatocellular carcinoma specimens, levels of c-Myc directly correlate with those of mTORC1 activation as well as of SLC1A5 and SLC7A6. CONCLUSION: Our current study indicates that an intact mTORC1 axis is required for c-Myc-driven hepatocarcinogenesis; thus, targeting the mTOR pathway or amino acid transporters may be an effective and novel therapeutic option for the treatment of hepatocellular carcinoma with activated c-Myc signaling. (Hepatology 2017;66:167-181).
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