Nature Communications (May 2024)

Oxidative photocatalysis on membranes triggers non-canonical pyroptosis

  • Chaiheon Lee,
  • Mingyu Park,
  • W. C. Bhashini Wijesinghe,
  • Seungjin Na,
  • Chae Gyu Lee,
  • Eunhye Hwang,
  • Gwangsu Yoon,
  • Jeong Kyeong Lee,
  • Deok-Ho Roh,
  • Yoon Hee Kwon,
  • Jihyeon Yang,
  • Sebastian A. Hughes,
  • James E. Vince,
  • Jeong Kon Seo,
  • Duyoung Min,
  • Tae-Hyuk Kwon

DOI
https://doi.org/10.1038/s41467-024-47634-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Intracellular membranes composing organelles of eukaryotes include membrane proteins playing crucial roles in physiological functions. However, a comprehensive understanding of the cellular responses triggered by intracellular membrane-focused oxidative stress remains elusive. Herein, we report an amphiphilic photocatalyst localised in intracellular membranes to damage membrane proteins oxidatively, resulting in non-canonical pyroptosis. Our developed photocatalysis generates hydroxyl radicals and hydrogen peroxides via water oxidation, which is accelerated under hypoxia. Single-molecule magnetic tweezers reveal that photocatalysis-induced oxidation markedly destabilised membrane protein folding. In cell environment, label-free quantification reveals that oxidative damage occurs primarily in membrane proteins related to protein quality control, thereby aggravating mitochondrial and endoplasmic reticulum stress and inducing lytic cell death. Notably, the photocatalysis activates non-canonical inflammasome caspases, resulting in gasdermin D cleavage to its pore-forming fragment and subsequent pyroptosis. These findings suggest that the oxidation of intracellular membrane proteins triggers non-canonical pyroptosis.