Radiation-induced lymphopenia (RIL) remains a challenging side effect of radiation therapy, often associated with poor prognosis and reduced overall survival. Although CD8+ T cells are highly radiosensitive, the dynamics of quantitative and qualitative changes to the CD8 T cell pool following exposure to high doses of ionizing radiation (IR) remains understudied. Herein, we sought to determine the long-term impact of sublethal whole body irradiation (WBI) on antigen (Ag)-inexperienced CD8 T cell pool, comprised of naïve (TN) and virtual memory (TVM) CD8+ T cells. We show that although both TN and TVM cells gradually regenerate after WBI-induced loss, TN recovery only occurs through de novo thymic production. Despite the numerical restoration, the subset and phenotypic composition of post-recovery Ag-inexperienced CD8+ T cells do not qualitatively recapitulate the pre-WBI state. Specifically, the frequency of TVM cells is increased, especially during the early stages of recovery. Within the TN subset, a lasting overrepresentation of Ly6C+CD122+ cells and an altered TCR clonotype diversity are also observed. Overall, our data highlight the dynamic changes to the Ag-inexperienced CD8+ T cell pool upon recovery from RIL.
Heidarian et al. (Tue,) studied this question.