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The glutamate/cystine xCT antiporter antagonizes glutamine metabolism and reduces nutrient flexibility

Author

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  • Chun-Shik Shin

    (California Institute of Technology)

  • Prashant Mishra

    (California Institute of Technology
    Children’s Medical Center Research Institute, University of Texas Southwestern Medical Center)

  • Jeramie D. Watrous

    (University of California)

  • Valerio Carelli

    (IRCCS Istituto delle Scienze Neurologiche di Bologna
    University of Bologna)

  • Marilena D’Aurelio

    (Weill Medical College of Cornell University)

  • Mohit Jain

    (University of California)

  • David C. Chan

    (California Institute of Technology)

Abstract

As noted by Warburg, many cancer cells depend on the consumption of glucose. We performed a genetic screen to identify factors responsible for glucose addiction and recovered the two subunits of the xCT antiporter (system xc−), which plays an antioxidant role by exporting glutamate for cystine. Disruption of the xCT antiporter greatly improves cell viability after glucose withdrawal, because conservation of glutamate enables cells to maintain mitochondrial respiration. In some breast cancer cells, xCT antiporter expression is upregulated through the antioxidant transcription factor Nrf2 and contributes to their requirement for glucose as a carbon source. In cells carrying patient-derived mitochondrial DNA mutations, the xCT antiporter is upregulated and its inhibition improves mitochondrial function and cell viability. Therefore, although upregulation of the xCT antiporter promotes antioxidant defence, it antagonizes glutamine metabolism and restricts nutrient flexibility. In cells with mitochondrial dysfunction, the potential utility of xCT antiporter inhibition should be further tested.

Suggested Citation

  • Chun-Shik Shin & Prashant Mishra & Jeramie D. Watrous & Valerio Carelli & Marilena D’Aurelio & Mohit Jain & David C. Chan, 2017. "The glutamate/cystine xCT antiporter antagonizes glutamine metabolism and reduces nutrient flexibility," Nature Communications, Nature, vol. 8(1), pages 1-11, April.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15074
    DOI: 10.1038/ncomms15074
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    Cited by:

    1. Nidhi Rohatgi & Wei Zou & Yongjia Li & Kevin Cho & Patrick L. Collins & Eric Tycksen & Gaurav Pandey & Carl J. DeSelm & Gary J. Patti & Anwesha Dey & Steven L. Teitelbaum, 2023. "BAP1 promotes osteoclast function by metabolic reprogramming," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    2. Yuelong Yan & Hongqi Teng & Qinglei Hang & Lavanya Kondiparthi & Guang Lei & Amber Horbath & Xiaoguang Liu & Chao Mao & Shiqi Wu & Li Zhuang & M. James You & Masha V. Poyurovsky & Li Ma & Kellen Olsze, 2023. "SLC7A11 expression level dictates differential responses to oxidative stress in cancer cells," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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