Temporal Mapping of Radiation-Induced Neural Injury and Mitigation in Human Cortical Organoids

BackgroundRadiation therapy is a standard-of-care oncological treatment for central nervous system (CNS) malignancies. However, as survival outcomes improve, radiation-induced injury to normal brain tissue has increased in clinical significance. CNS radiation injury is a delayed, multifactorial process characterized by impaired neurogenesis, reactive gliosis, and persistent functional deficits. Mechanistic exploration and development of effective radiation mitigators have been limited by the lack of scalable, human-relevant models. MethodsMature human iPSC-derived cortical organoids were exposed to single-dose or clinically relevant fractionated radiation (5 x 2 Gy). DNA damage, apoptosis, and growth dynamics were assessed longitudinally. Structural organization, synaptic integrity, and neuroinflammatory responses were evaluated by immunofluorescence and real-time PCR. Transcriptomic profiling was performed at 72 hours and 2 weeks after fractionated radiation to capture acute and delayed effects. Two candidate radiation mitigators, NSPP and amisulpride, were tested for their therapeutic effects within the organoid system. ResultsCortical organoids exhibited partial recovery following single doses up to 4 Gy or fractioned irradiation. Transcriptomic analyses revealed that radiation not only reduced overall cell viability but also reshaped lineage trajectories, characterized by depletion of neural stem/progenitor populations, loss of neuronal identity, enhanced gliogenesis, increased inflammatory cytokines, and disrupted cortical layering and synaptic integrity. Treatment with NSPP or amisulpride attenuated injury-associated transcriptional and structural alterations. ConclusionHuman cortical organoids recapitulate key features of radiation-induced neural injury, recovery, and therapeutic modulation, providing a robust, scalable, and human-relevant platform for studying CNS radiation biology and preclinical screening of candidate radiation mitigators. Key pointsO_LIHuman iPSC-derived cortical organoids enable study of human CNS radiation responses. C_LIO_LIOrganoids recover after single-dose and fractionated radiation relevant to clinical exposure. C_LIO_LIThe platform supports scalable, human-relevant testing of radiation mitigation strategies. C_LI