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Disruption of β-catenin-mediated negative feedback reinforces cAMP-induced neuronal differentiation in glioma stem cells.

Cell death & disease (2022-05-25)
Zhijie Chen, Yingqian Zhong, Jiehong Chen, Shuxin Sun, Wenfeng Liu, Yu Han, Xincheng Liu, Cui Guo, Depei Li, Wanming Hu, Peiyu Zhang, Zhuopeng Chen, Zhongping Chen, Yonggao Mou, Guangmei Yan, Wenbo Zhu, Wei Yin, Ke Sai
RESUMEN

Accumulating evidence supports the existence of glioma stem cells (GSCs) and their critical role in the resistance to conventional treatments for glioblastoma multiforme (GBM). Differentiation therapy represents a promising alternative strategy against GBM by forcing GSCs to exit the cell cycle and reach terminal differentiation. In this study, we demonstrated that cAMP triggered neuronal differentiation and compromised the self-renewal capacity in GSCs. In addition, cAMP induced negative feedback to antagonize the differentiation process by activating β-catenin pathway. Suppression of β-catenin signaling synergized with cAMP activators to eliminate GSCs in vitro and extended the survival of animals in vivo. The cAMP/PKA pathway stabilized β-catenin through direct phosphorylation of the molecule and inhibition of GSK-3β. The activated β-catenin translocated into the nucleus and promoted the transcription of APELA and CARD16, which were found to be responsible for the repression of cAMP-induced differentiation in GSCs. Overall, our findings identified a negative feedback mechanism for cAMP-induced differentiation in GSCs and provided potential targets for the reinforcement of differentiation therapy for GBM.

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Milli-Mark® Anti-MAP2-PE Antibody, clone AP20, clone AP20, Milli-Mark®, from mouse