Targeting NEK2 attenuates glioblastoma growth and radioresistance by destabilizing histone methyltransferase EZH2
Jia Wang, … , Maode Wang, Ichiro Nakano
Jia Wang, … , Maode Wang, Ichiro Nakano
Published July 24, 2017
Citation Information: J Clin Invest. 2017;127(8):3075-3089. https://doi.org/10.1172/JCI89092.
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Research Article Oncology

Targeting NEK2 attenuates glioblastoma growth and radioresistance by destabilizing histone methyltransferase EZH2

Abstract

Accumulating evidence suggests that glioma stem cells (GSCs) are important therapeutic targets in glioblastoma (GBM). In this study, we identified NIMA-related kinase 2 (NEK2) as a functional binding protein of enhancer of zeste homolog 2 (EZH2) that plays a critical role in the posttranslational regulation of EZH2 protein in GSCs. NEK2 was among the most differentially expressed kinase-encoding genes in GSC-containing cultures (glioma spheres), and it was required for in vitro clonogenicity, in vivo tumor propagation, and radioresistance. Mechanistically, the formation of a protein complex comprising NEK2 and EZH2 in glioma spheres phosphorylated and then protected EZH2 from ubiquitination-dependent protein degradation in a NEK2 kinase activity–dependent manner. Clinically, NEK2 expression in patients with glioma was closely associated with EZH2 expression and correlated with a poor prognosis. NEK2 expression was also substantially elevated in recurrent tumors after therapeutic failure compared with primary untreated tumors in matched GBM patients. We designed a NEK2 kinase inhibitor, compound 3a (CMP3a), which efficiently attenuated GBM growth in a mouse model and exhibited a synergistic effect with radiotherapy. These data demonstrate a key role for NEK2 in maintaining GSCs in GBM by stabilizing the EZH2 protein and introduce the small-molecule inhibitor CMP3a as a potential therapeutic agent for GBM.

Authors

Jia Wang, Peng Cheng, Marat S. Pavlyukov, Hai Yu, Zhuo Zhang, Sung-Hak Kim, Mutsuko Minata, Ahmed Mohyeldin, Wanfu Xie, Dongquan Chen, Violaine Goidts, Brendan Frett, Wenhao Hu, Hongyu Li, Yong Jae Shin, Yeri Lee, Do-Hyun Nam, Harley I. Kornblum, Maode Wang, Ichiro Nakano

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Figure 4

NEK2 signaling is mediated through the regulation of EZH2 protein stability in GSCs.

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NEK2 signaling is mediated through the regulation of EZH2 protein stabil...
(A and B) Immunoblotting (IB) for IP using a NEK2 antibody (A) or an EZH2 antibody (B) in 528 glioma spheres. IgG served as a control. (C) qRT-PCR for NEK2 and EZH2 expression in 528 glioma spheres transduced with shNEK2 no. 1, shNEK2 no. 2, or shNT (n = 3). *P < 0.05 and P > 0.05 (NS), by 1-way ANOVA followed by Dunnett’s post-hoc test. (D) Western blotting for NEK2, EZH2, p-EZH2 (Ser21), and H3K27me3 expression in 528 glioma spheres transduced with shNEK2 no. 1, shNEK2 no. 2, or shNT. (E) ICC for NEK2 and EZH2 in 528 glioma spheres transduced with shNEK2 no. 1, shNEK2 no. 2, or shNT. Scale bars: 5 μm. (F and G) Western blotting for EZH2 in CHX-treated 528 glioma spheres pretransduced with shNEK2 no. 2 or shNT (F). EZH2 had a shorter half-life in the presence of silenced NEK2 (G). n = 3. **P < 0.01, by 1-way ANOVA. (H) The absence of NEK2 increased the ubiquitination of EZH2 in 528 and 267 glioma spheres. (I) Western blotting for EZH2 expression in MG132-treated 528 glioma spheres pretransduced with shNEK2 no. 2 or shNT. (J) An in vitro clonogenicity assay indicated that NEK2 silencing decreased the clonogenicity of 267 glioma spheres, which could be partially rescued by EZH2 overexpression (n = 10). **P < 0.01 and ***P < 0.001, by ELDA. (K) Western blotting indicated that NEK2 silencing decreased EZH2 expression in 267 glioma spheres, which could be rescued by NEK2 WT but not K37R-mutant overexpression. (L) NEK2 WT or K37R-mutant proteins were subjected to a GST pull-down assay using GST-EZH2 and detected by immunoblotting. (M) Immunoblotting analysis indicated that EZH2 phosphorylation and H3K27me3 levels were decreased in K37R-overexpressed GBM-022 cells compared with WT-overexpressed cells. (N) An in vitro kinase phosphorylation assay showed that NEK2 phosphorylated EZH2 in a dose-dependent manner.