Cell Death and Disease (Nov 2020)

Ionizing radiation results in a mixture of cellular outcomes including mitotic catastrophe, senescence, methuosis, and iron-dependent cell death

  • Sandy Adjemian,
  • Teodora Oltean,
  • Sofie Martens,
  • Bartosz Wiernicki,
  • Vera Goossens,
  • Tom Vanden Berghe,
  • Benjamin Cappe,
  • Maria Ladik,
  • Franck B. Riquet,
  • Liesbeth Heyndrickx,
  • Jolien Bridelance,
  • Marnik Vuylsteke,
  • Katrien Vandecasteele,
  • Peter Vandenabeele

DOI
https://doi.org/10.1038/s41419-020-03209-y
Journal volume & issue
Vol. 11, no. 11
pp. 1 – 15

Abstract

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Abstract Radiotherapy is commonly used as a cytotoxic treatment of a wide variety of tumors. Interestingly, few case reports underlined its potential to induce immune-mediated abscopal effects, resulting in regression of metastases, distant from the irradiated site. These observations are rare, and apparently depend on the dose used, suggesting that dose-related cellular responses may be involved in the distant immunogenic responses. Ionizing radiation (IR) has been reported to elicit immunogenic apoptosis, necroptosis, mitotic catastrophe, and senescence. In order to link a cellular outcome with a particular dose of irradiation, we performed a systematic study in a panel of cell lines on the cellular responses at different doses of X-rays. Remarkably, we observed that all cell lines tested responded in a similar fashion to IR with characteristics of mitotic catastrophe, senescence, lipid peroxidation, and caspase activity. Iron chelators (but not Ferrostatin-1 or vitamin E) could prevent the formation of lipid peroxides and cell death induced by IR, suggesting a crucial role of iron-dependent cell death during high-dose irradiation. We also show that in K-Ras-mutated cells, IR can induce morphological features reminiscent of methuosis, a cell death modality that has been recently described following H-Ras or K-Ras mutation overexpression.