Journal of Extracellular Vesicles (Jul 2024)

Ceramide‐mediated orchestration of oxidative stress response through filopodia‐derived small extracellular vesicles

  • Zainuddin Quadri,
  • Ahmed Elsherbini,
  • Simone M. Crivelli,
  • Salim S. El‐Amouri,
  • Priyanka Tripathi,
  • Zhihui Zhu,
  • Xiaojia Ren,
  • Liping Zhang,
  • Stefka D. Spassieva,
  • Mariana Nikolova‐Karakashian,
  • Erhard Bieberich

DOI
https://doi.org/10.1002/jev2.12477
Journal volume & issue
Vol. 13, no. 7
pp. n/a – n/a

Abstract

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Abstract Extracellular vesicles (EVs) are shed from the plasma membrane, but the regulation and function of these EVs remain unclear. We found that oxidative stress induced by H2O2 in Hela cells stimulated filopodia formation and the secretion of EVs. EVs were small (150 nm) and labeled for CD44, indicating that they were derived from filopodia. Filopodia‐derived small EVs (sEVs) were enriched with the sphingolipid ceramide, consistent with increased ceramide in the plasma membrane of filopodia. Ceramide was colocalized with neutral sphingomyelinase 2 (nSMase2) and acid sphingomyelinase (ASM), two sphingomyelinases generating ceramide at the plasma membrane. Inhibition of nSMase2 and ASM prevented oxidative stress‐induced sEV shedding but only nSMase2 inhibition prevented filopodia formation. nSMase2 was S‐palmitoylated and interacted with ASM in filopodia to generate ceramide for sEV shedding. sEVs contained nSMase2 and ASM and decreased the level of these two enzymes in oxidatively stressed Hela cells. A novel metabolic labeling technique for EVs showed that oxidative stress induced secretion of fluorescent sEVs labeled with NBD‐ceramide. NBD‐ceramide‐labeled sEVs transported ceramide to mitochondria, ultimately inducing cell death in a proportion of neuronal (N2a) cells. In conclusion, using Hela cells we provide evidence that oxidative stress induces interaction of nSMase2 and ASM at filopodia, which leads to shedding of ceramide‐rich sEVs that target mitochondria and propagate cell death.

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