Upregulated YB-1 protein promotes glioblastoma growth through a YB-1/CCT4/mLST8/mTOR pathway
Jin-Zhu Wang, … , Zefeng Wang, Jingyi Hui
Jin-Zhu Wang, … , Zefeng Wang, Jingyi Hui
Published March 3, 2022
Citation Information: J Clin Invest. 2022;132(8):e146536. https://doi.org/10.1172/JCI146536.
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Research Article Oncology

Upregulated YB-1 protein promotes glioblastoma growth through a YB-1/CCT4/mLST8/mTOR pathway

Abstract

Y-box–binding protein 1 (YB-1) is a multifunctional RNA binding protein involved in virtually every step of RNA metabolism. However, the functions and mechanisms of YB-1 in one of the most aggressive cancers, glioblastoma, are not well understood. In this study, we found that YB-1 protein was markedly overexpressed in glioblastoma and acted as a critical activator of both mTORC1 and mTORC2 signaling. Mechanistically, YB-1 bound the 5′UTR of CCT4 mRNA to promote the translation of CCT4, a component of the CCT chaperone complex, that in turn activated the mTOR signaling pathway by promoting mLST8 folding. In addition, YB-1 autoregulated its own translation by binding to its 5′UTR, leading to sustained activation of mTOR signaling. In patients with glioblastoma, high protein expression of YB-1 correlated with increased expression of CCT4 and mLST8 and activated mTOR signaling. Importantly, the administration of RNA decoys specifically targeting YB-1 in a mouse xenograft model resulted in slower tumor growth and better survival. Taken together, these findings uncover a disrupted proteostasis pathway involving a YB-1/CCT4/mLST8/mTOR axis in promoting glioblastoma growth, suggesting that YB-1 is a potential therapeutic target for the treatment of glioblastoma.

Authors

Jin-Zhu Wang, Hong Zhu, Pu You, Hui Liu, Wei-Kang Wang, Xiaojuan Fan, Yun Yang, Keren Xu, Yingfeng Zhu, Qunyi Li, Ping Wu, Chao Peng, Catherine C.L. Wong, Kaicheng Li, Yufeng Shi, Nu Zhang, Xiuxing Wang, Rong Zeng, Ying Huang, Liusong Yang, Zefeng Wang, Jingyi Hui

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Figure 4

YB-1 promotes mLST8 folding via CCT4.

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YB-1 promotes mLST8 folding via CCT4. (A) Immunopurification of mLST8-in...
(A) Immunopurification of mLST8-interacting proteins from U251 cells stably expressing FLAG-tagged mLST8 followed by SDS-PAGE and visualization with silver staining. The major specific interacting proteins are indicated by red dots. (B) The components of mTOR and CCT complexes and tubulin proteins were identified by mass spectrometry as mLST8-interacting proteins with high confidence. The percentage of peptide coverage and the number of peptide spectra matched for the protein are shown in the parentheses. (C) Immunoprecipitation of CCT components from HEK293T cells transiently transfected with a vector or FLAG-tagged mLST8 expression construct using an anti-FLAG antibody followed by immunoblotting analysis. (D) Western blot analysis of CCT components in control or YB-1–knockdown U251 cells. (E) Western blot analysis of CCT4 and mLST8 in U251 cells transfected with control or CCT4-specific siRNA. (F) RT-qPCR analysis of mLST8 mRNA in U251 cells expressing control or CCT4-specific shRNA. Data are presented as mean ± SEM (n = 3). (G) Western blot analysis of mLST8 in control or CCT4-knockdown U251 cells treated with Baf A1 followed by incubation with thermolysin for the indicated time. Data represent 3 independent experiments. (H) Quantitation of G. (I and J) Western blot analysis of YB-1, CCT4, mLST8, and the markers for mTORC1 and mTORC2 signaling in control, YB-1–knockdown, or YB-1 knockdown complemented with CCT4 in U251 (I) and U87 (J) cells.