Login / Signup

Suppression of mitochondrial ROS by prohibitin drives glioblastoma progression and therapeutic resistance.

Haohao HuangSongyang ZhangYuanyuan LiZhaodan LiuLanjuan MiYan CaiXinzheng WangLishu ChenHaowen RanDake XiaoFangye LiJiaqi WuTingting LiQiuying HanLiang ChenXin PanHuiyan LiTao LiKun HeAiling LiXue-Min ZhangTao ZhouQing XiaJianghong Man
Published in: Nature communications (2021)
Low levels of reactive oxygen species (ROS) are crucial for maintaining cancer stem cells (CSCs) and their ability to resist therapy, but the ROS regulatory mechanisms in CSCs remains to be explored. Here, we discover that prohibitin (PHB) specifically regulates mitochondrial ROS production in glioma stem-like cells (GSCs) and facilitates GSC radiotherapeutic resistance. We find that PHB is upregulated in GSCs and is associated with malignant gliomas progression and poor prognosis. PHB binds to peroxiredoxin3 (PRDX3), a mitochondrion-specific peroxidase, and stabilizes PRDX3 protein through the ubiquitin-proteasome pathway. Knockout of PHB dramatically elevates ROS levels, thereby inhibiting GSC self-renewal. Importantly, deletion or pharmacological inhibition of PHB potently slows tumor growth and sensitizes tumors to radiotherapy, thus providing significant survival benefits in GSC-derived orthotopic tumors and glioblastoma patient-derived xenografts. These results reveal a selective role of PHB in mitochondrial ROS regulation in GSCs and suggest that targeting PHB improves radiotherapeutic efficacy in glioblastoma.
Keyphrases