Nature Communications (May 2023)

Identification of indocyanine green as a STT3B inhibitor against mushroom α-amanitin cytotoxicity

  • Bei Wang,
  • Arabella H. Wan,
  • Yu Xu,
  • Ruo-Xin Zhang,
  • Ben-Chi Zhao,
  • Xin-Yuan Zhao,
  • Yan-Chuan Shi,
  • Xiaolei Zhang,
  • Yongbo Xue,
  • Yong Luo,
  • Yinyue Deng,
  • G. Gregory Neely,
  • Guohui Wan,
  • Qiao-Ping Wang

DOI
https://doi.org/10.1038/s41467-023-37714-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract The “death cap”, Amanita phalloides, is the world’s most poisonous mushroom, responsible for 90% of mushroom-related fatalities. The most fatal component of the death cap is α-amanitin. Despite its lethal effect, the exact mechanisms of how α-amanitin poisons humans remain unclear, leading to no specific antidote available for treatment. Here we show that STT3B is required for α-amanitin toxicity and its inhibitor, indocyanine green (ICG), can be used as a specific antidote. By combining a genome-wide CRISPR screen with an in silico drug screening and in vivo functional validation, we discover that N-glycan biosynthesis pathway and its key component, STT3B, play a crucial role in α-amanitin toxicity and that ICG is a STT3B inhibitor. Furthermore, we demonstrate that ICG is effective in blocking the toxic effect of α-amanitin in cells, liver organoids, and male mice, resulting in an overall increase in animal survival. Together, by combining a genome-wide CRISPR screen for α-amanitin toxicity with an in silico drug screen and functional validation in vivo, our study highlights ICG as a STT3B inhibitor against the mushroom toxin.