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AMPKα1 confers survival advantage of colorectal cancer cells under metabolic stress by promoting redox balance through the regulation of glutathione reductase phosphorylation.

Ying-Nan WangYun-Xin LuJie LiuYing JinHui-Chang BiQi ZhaoZe-Xian LiuYing-Qin LiJia-Jia HuHui ShengYi-Ming JiangChao ZhangFeng TianYang ChenZhi-Zhong PanGong ChenZhao-Lei ZengKai-Yan LiuMarcia OgasawaraJin-Ping YunHuai-Qiang JuJian-Xiong FengDan XieSong GaoWei-Hua JiaScott KopetzRui-Hua XuFeng Wang
Published in: Oncogene (2019)
Patients with stage II or III colorectal cancer (CRC) exhibit various clinical outcomes after radical treatments. The 5-year survival rate was between 50 and 87%. However, the underlying mechanisms of the variation remain unclear. Here we show that AMPKα1 is overexpressed in CRC patient specimens and the high expression is correlated with poor patient survival. We further reveal a previously unrecognized function of AMPKα1, which maintains high level of reduced glutathione to keep reduction-oxidation reaction (redox) homeostasis under stress conditions, thus promoting CRC cell survival under metabolic stress in vitro and enhancing tumorigenesis in vivo. Mechanistically, AMPKα1 regulate the glutathione reductase (GSR) phosphorylation possibly through residue Thr507 which enhances its activity. Suppression of AMPKα1 by using nano-sized polymeric vector induces a favorable therapeutic effect, especially when in combination with oxaliplatin. Our study uncovers a novel function of AMPKα1 in redox regulation and identifies a promising therapeutic strategy for treatment of CRC.
Keyphrases
  • protein kinase
  • skeletal muscle
  • genome wide
  • gene expression
  • free survival
  • nitric oxide
  • dna methylation
  • long non coding rna
  • binding protein
  • amino acid
  • ultrasound guided