Molecular Systems Biology (Oct 2021)

Multistability maintains redox homeostasis in human cells

  • Jo‐Hsi Huang,
  • Hannah KC Co,
  • Yi‐Chen Lee,
  • Chia‐Chou Wu,
  • Sheng‐hong Chen

DOI
https://doi.org/10.15252/msb.202110480
Journal volume & issue
Vol. 17, no. 10
pp. 1 – 17

Abstract

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Abstract Cells metabolize nutrients through a complex metabolic and signaling network that governs redox homeostasis. At the core of this, redox regulatory network is a mutually inhibitory relationship between reduced glutathione and reactive oxygen species (ROS)—two opposing metabolites that are linked to upstream nutrient metabolic pathways (glucose, cysteine, and glutamine) and downstream feedback loops of signaling pathways (calcium and NADPH oxidase). We developed a nutrient‐redox model of human cells to understand system‐level properties of this network. Combining in silico modeling and ROS measurements in individual cells, we show that ROS dynamics follow a switch‐like, all‐or‐none response upon glucose deprivation at a threshold that is approximately two orders of magnitude lower than its physiological concentration. We also confirm that this ROS switch can be irreversible and exhibits hysteresis, a hallmark of bistability. Our findings evidence that bistability modulates redox homeostasis in human cells and provide a general framework for quantitative investigations of redox regulation in humans.

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