Frontiers in Physiology (Jun 2023)

Postsynaptic density radiation signature following space irradiation

  • Soren Impey,
  • Soren Impey,
  • Carl Pelz,
  • Lara-Kirstie Riparip,
  • Amanuel Tafessu,
  • Fatema Fareh,
  • Damian G. Zuloaga,
  • Tessa Marzulla,
  • Blair Stewart,
  • Susanna Rosi,
  • Mitchell S. Turker,
  • Jacob Raber,
  • Jacob Raber

DOI
https://doi.org/10.3389/fphys.2023.1215535
Journal volume & issue
Vol. 14

Abstract

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Introduction: The response of the brain to space radiation is an important concern for astronauts during space missions. Therefore, we assessed the response of the brain to 28Si ion irradiation (600 MeV/n), a heavy ion present in the space environment, on cognitive performance and whether the response is associated with altered DNA methylation in the hippocampus, a brain area important for cognitive performance.Methods: We determined the effects of 28Si ion irradiation on object recognition, 6-month-old mice irradiated with 28Si ions (600 MeV/n, 0.3, 0.6, and 0.9 Gy) and cognitively tested two weeks later. In addition, we determined if those effects were associated with alterations in hippocampal networks and/or hippocampal DNA methylation.Results: At 0.3 Gy, but not at 0.6 Gy or 0.9 Gy, 28Si ion irradiation impaired cognition that correlated with altered gene expression and 5 hmC profiles that mapped to specific gene ontology pathways. Comparing hippocampal DNA hydroxymethylation following proton, 56Fe ion, and 28Si ion irradiation revealed a general space radiation synaptic signature with 45 genes that are associated with profound phenotypes. The most significant categories were glutamatergic synapse and postsynaptic density.Discussion: The brain’s response to space irradiation involves novel excitatory synapse and postsynaptic remodeling.

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