Cell Metabolism
Volume 23, Issue 1, 12 January 2016, Pages 206-219
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Article
NANOG Metabolically Reprograms Tumor-Initiating Stem-like Cells through Tumorigenic Changes in Oxidative Phosphorylation and Fatty Acid Metabolism

https://doi.org/10.1016/j.cmet.2015.12.004Get rights and content
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Highlights

  • Stem cell marker NANOG is activated by the TLR4-E2F1 pathway

  • NANOG ChIP-seq identifies target genes involved in OXPHOS and FAO

  • Nanog represses OXPHOS and mitochondrial ROS in TICs

  • Restoration of OXPHOS and inhibition of FAO restores TIC susceptibility to drugs

Summary

Stem cell markers, including NANOG, have been implicated in various cancers; however, the functional contribution of NANOG to cancer pathogenesis has remained unclear. Here, we show that NANOG is induced by Toll-like receptor 4 (TLR4) signaling via phosphorylation of E2F1 and that downregulation of Nanog slows down hepatocellular carcinoma (HCC) progression induced by alcohol western diet and hepatitis C virus protein in mice. NANOG ChIP-seq analyses reveal that NANOG regulates the expression of genes involved in mitochondrial metabolic pathways required to maintain tumor-initiating stem-like cells (TICs). NANOG represses mitochondrial oxidative phosphorylation (OXPHOS) genes, as well as ROS generation, and activates fatty acid oxidation (FAO) to support TIC self-renewal and drug resistance. Restoration of OXPHOS activity and inhibition of FAO renders TICs susceptible to a standard care chemotherapy drug for HCC, sorafenib. This study provides insights into the mechanisms of NANOG-mediated generation of TICs, tumorigenesis, and chemoresistance through reprogramming of mitochondrial metabolism.

Keywords

tumor-initiating stem-like cells (TICs)
NANOG
metabolic reprogramming
OXPHOS
fatty acid
self-renewal
HCC
liver

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