Nature Communications (Nov 2023)

Cryo-electron tomography of NLRP3-activated ASC complexes reveals organelle co-localization

  • Yangci Liu,
  • Haoming Zhai,
  • Helen Alemayehu,
  • Jérôme Boulanger,
  • Lee J. Hopkins,
  • Alicia C. Borgeaud,
  • Christina Heroven,
  • Jonathan D. Howe,
  • Kendra E. Leigh,
  • Clare E. Bryant,
  • Yorgo Modis

DOI
https://doi.org/10.1038/s41467-023-43180-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract NLRP3 induces caspase-1-dependent pyroptotic cell death to drive inflammation. Aberrant activity of NLRP3 occurs in many human diseases. NLRP3 activation induces ASC polymerization into a single, micron-scale perinuclear punctum. Higher resolution imaging of this signaling platform is needed to understand how it induces pyroptosis. Here, we apply correlative cryo-light microscopy and cryo-electron tomography to visualize ASC/caspase-1 in NLRP3-activated cells. The puncta are composed of branched ASC filaments, with a tubular core formed by the pyrin domain. Ribosomes and Golgi-like or endosomal vesicles permeate the filament network, consistent with roles for these organelles in NLRP3 activation. Mitochondria are not associated with ASC but have outer-membrane discontinuities the same size as gasdermin D pores, consistent with our data showing gasdermin D associates with mitochondria and contributes to mitochondrial depolarization.