High-LET radiation induces large amounts of rapidly-repaired sublethal damage

Francisco D. C. Guerra Liberal, Shannon J. Thompson, Kevin M. Prise, Stephen J. McMahon*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

2 Citations (Scopus)
43 Downloads (Pure)

Abstract

There is agreement that high-LET radiation has a high Relative Biological Effectiveness (RBE) when delivered as a single treatment, but how it interacts with radiations of different qualities, such as X-rays, is less clear. We sought to clarify these effects by quantifying and modelling responses to X-ray and alpha particle combinations. Cells were exposed to X-rays, alpha particles, or combinations, with different doses and temporal separations. DNA damage was assessed by 53BP1 immunofluorescence, and radiosensitivity assessed using the clonogenic assay. Mechanistic models were then applied to understand trends in repair and survival. 53BP1 foci yields were significantly reduced in alpha particle exposures compared to X-rays, but these foci were slow to repair. Although alpha particles alone showed no inter-track interactions, substantial interactions were seen between X-rays and alpha particles. Mechanistic modelling suggested that sublethal damage (SLD) repair was independent of radiation quality, but that alpha particles generated substantially more sublethal damage than a similar dose of X-rays, RBESLD > 2.8. This high RBE may lead to unexpected synergies for combinations of different radiation qualities which must be taken into account in treatment design, and the rapid repair of this damage may impact on mechanistic modelling of radiation responses to high LETs.
Original languageEnglish
Article number11198
Number of pages12
JournalScientific Reports
Volume13
DOIs
Publication statusPublished - 11 Jul 2023

Keywords

  • Alpha Particles
  • Biological Assay
  • DNA Damage
  • Radiation Tolerance
  • Radiation, Ionizing

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