Targeting radiation-tolerant persister cells as a strategy for inhibiting radioresistance and recurrence in glioblastoma

抗辐射性 癌症研究 辐射敏感性 转录因子 染色质免疫沉淀 小RNA 生物 细胞生物学 基因表达 放射治疗 细胞培养 医学 基因 发起人 遗传学 内科学
作者
Jintao Gu,Nan Mu,Bo Jia,Qingdong Guo,Luxiang Pan,Maorong Zhu,Wangqian Zhang,Kuo Zhang,Weina Li,Meng Li,Lichun Wei,Xiaochang Xue,Yingqi Zhang,Wei Zhang
出处
期刊:Neuro-oncology [Oxford University Press]
卷期号:24 (7): 1056-1070 被引量:39
标识
DOI:10.1093/neuonc/noab288
摘要

Compelling evidence suggests that glioblastoma (GBM) recurrence results from the expansion of a subset of tumor cells with robust intrinsic or therapy-induced radioresistance. However, the mechanisms underlying GBM radioresistance and recurrence remain elusive. To overcome obstacles in radioresistance research, we present a novel preclinical model ideally suited for radiobiological studies. With this model, we performed a screen and identified a radiation-tolerant persister (RTP) subpopulation. RNA sequencing was performed on RTP and parental cells to obtain mRNA and miRNA expression profiles. The regulatory mechanisms among NF-κB, YY1, miR-103a, XRCC3, and FGF2 were investigated by transcription factor activation profiling array analysis, chromatin immunoprecipitation, western blot analysis, luciferase reporter assays, and the MirTrap system. Transferrin-functionalized nanoparticles (Tf-NPs) were employed to improve blood–brain barrier permeability and RTP targeting. RTP cells drive radioresistance by preferentially activating DNA damage repair and promoting stemness. Mechanistic investigations showed that continual radiation activates the NF-κB signaling cascade and promotes nuclear translocation of p65, leading to enhanced expression of YY1, the transcription factor that directly suppresses miR-103a transcription. Restoring miR-103a expression under these conditions suppressed the FGF2–XRCC3 axis and decreased the radioresistance capability. Moreover, Tf-NPs improved radiosensitivity and provided a significant survival benefit. We suggest that the NF-κB–YY1–miR-103a regulatory axis is indispensable for the function of RTP cells in driving radioresistance and recurrence. Thus, our results identified a novel strategy for improving survival in patients with recurrent/refractory GBM.
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