<p>High-Linear Energy Transfer (LET) ion radiation, such as <sup>28</sup>Si ions, is densely ionizing and poses a significant risk to astronauts during long-duration space missions. We previously showed that mice exposed to high-LET ionizing radiation (IR) exhibit greater accumulation of senescent cells in the intestine than those exposed to equivalent doses of low-LET γ-rays. However, the mechanisms driving this persistent senescence remain unclear. Given the role of Natural killer (NK) cells in senescent cell clearance, we investigated the impact of IR on intestinal NK cell function. At 60&#xa0;days post-irradiation, intestinal tissues from <sup>28</sup>Si-exposed mice showed a significant reduction in NKp46⁺ NK cells and decreased expression of molecules associated with NK activation and epithelial interactions. NK cell subtype analysis further revealed a decline in functionally mature populations involved in recognizing stressed cells. In parallel, intestinal epithelial cells (IECs) displayed altered expression of NK cell regulatory ligands, including reduced activating signals and increased inhibitory signaling associated with Qa-1b (non-classical MHC class Ib). Mechanistically, these changes were linked to activation of p38 Mitogen-Activated Protein Kinase (MAPK) signaling. Using irradiated intestinal organoids, we observed that pharmacological inhibition of the p38 MAPK pathway decreased Qa-1b expression and enhanced NK cell cytotoxic activity. Causality experiments further demonstrated that Qa-1b directly regulates NK cell–mediated cytotoxicity against senescent IECs. Collectively, these findings indicate that high-LET IR compromises intestinal immune surveillance by impairing NK cell function through a p38 MAPK–Qa-1b signaling axis, providing mechanistic insight into radiation-induced immune dysregulation.</p>

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High-linear energy transfer radiation disrupts natural killer cell surveillance of senescent intestinal cells in the mouse intestine

  • Santosh Kumar,
  • Shubhankar Suman,
  • Heng-Hong Li,
  • Jerry Angdisen,
  • Kamal Datta,
  • Albert J. Fornace Jr.

摘要

High-Linear Energy Transfer (LET) ion radiation, such as 28Si ions, is densely ionizing and poses a significant risk to astronauts during long-duration space missions. We previously showed that mice exposed to high-LET ionizing radiation (IR) exhibit greater accumulation of senescent cells in the intestine than those exposed to equivalent doses of low-LET γ-rays. However, the mechanisms driving this persistent senescence remain unclear. Given the role of Natural killer (NK) cells in senescent cell clearance, we investigated the impact of IR on intestinal NK cell function. At 60 days post-irradiation, intestinal tissues from 28Si-exposed mice showed a significant reduction in NKp46⁺ NK cells and decreased expression of molecules associated with NK activation and epithelial interactions. NK cell subtype analysis further revealed a decline in functionally mature populations involved in recognizing stressed cells. In parallel, intestinal epithelial cells (IECs) displayed altered expression of NK cell regulatory ligands, including reduced activating signals and increased inhibitory signaling associated with Qa-1b (non-classical MHC class Ib). Mechanistically, these changes were linked to activation of p38 Mitogen-Activated Protein Kinase (MAPK) signaling. Using irradiated intestinal organoids, we observed that pharmacological inhibition of the p38 MAPK pathway decreased Qa-1b expression and enhanced NK cell cytotoxic activity. Causality experiments further demonstrated that Qa-1b directly regulates NK cell–mediated cytotoxicity against senescent IECs. Collectively, these findings indicate that high-LET IR compromises intestinal immune surveillance by impairing NK cell function through a p38 MAPK–Qa-1b signaling axis, providing mechanistic insight into radiation-induced immune dysregulation.