USP9X deubiquitinates ALDH1A3 and maintains mesenchymal identity in glioblastoma stem cells
Zhengxin Chen, … , Yongping You, Huibo Wang
Zhengxin Chen, … , Yongping You, Huibo Wang
Published April 8, 2019
Citation Information: J Clin Invest. 2019;129(5):2043-2055. https://doi.org/10.1172/JCI126414.
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Research Article Cell biology Oncology

USP9X deubiquitinates ALDH1A3 and maintains mesenchymal identity in glioblastoma stem cells

Abstract

The mesenchymal (MES) subtype of glioblastoma (GBM) stem cells (GSCs) represents a subpopulation of cancer cells that are notorious for their highly aggressive nature and resistance to conventional therapy. Aldehyde dehydrogenase 1A3 (ALDH1A3) has been recently suggested as a key determinant for the maintenance of MES features of GSCs. However, the mechanisms underpinning aberrant ALDH1A3 expression remain elusive. Here, we identified ubiquitin-specific protease 9X (USP9X) as a bona fide deubiquitinase of ALDH1A3 in MES GSCs. USP9X interacted with, depolyubiquitylated, and stabilized ALDH1A3. Moreover, we showed that FACS-sorted USP9Xhi cells were enriched for MES GSCs with high ALDH1A3 activity and potent tumorigenic capacity. Depletion of USP9X markedly downregulated ALDH1A3, resulting in a loss of self-renewal and tumorigenic capacity of MES GSCs, which could be largely rescued by ectopic expression of ALDH1A3. Furthermore, we demonstrated that the USP9X inhibitor WP1130 induced ALDH1A3 degradation and showed marked therapeutic efficacy in MES GSC–derived orthotopic xenograft models. Additionally, USP9X strongly correlated with ALDH1A3 expression in primary human GBM samples and had a prognostic value for patients with the MES subgroup. Collectively, our findings unveil USP9X as a key deubiquitinase for ALDH1A3 protein stabilization and a potential target for GSC-directed therapy.

Authors

Zhengxin Chen, Hong-Wei Wang, Shuai Wang, Ligang Fan, Shuang Feng, Xiaomin Cai, Chenghao Peng, Xiaoting Wu, Jiacheng Lu, Dan Chen, Yuanyuan Chen, Wenting Wu, Daru Lu, Ning Liu, Yongping You, Huibo Wang

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Figure 1

USP9X maintains ALDH1A3 stability.

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USP9X maintains ALDH1A3 stability. (A) Four Flag-tagged DUBs (USP3, USP9...
(A) Four Flag-tagged DUBs (USP3, USP9X, USP22, and OTUD1) were expressed in HEK293T cells, and cell lysates were analyzed by IP with Flag beads followed by IB with antibodies against ALDH1A3 and Flag. (B) Increasing amounts of Flag-tagged USP9X (WT or C1566A mutant) were transfected into HEK293T cells, and cell lysates were analyzed by IB with antibody against ALDH1A3. (C) IB analysis of USP9X protein expression in ALDH1hi and ALDH1lo subpopulations isolated from MES 21 and 505 GSCs. (D) MES 21 and 505 GSCs transfected with 2 independent USP9X shRNA were treated with or without the proteasome inhibitor MG132 (20 μM, 8 hours), and then USP9X and ALDH1A3 were analyzed. (E) IB analysis of ALDH1A3 levels in MES 21 and 505 GSCs transduced with USP9X shRNA, together with either shRNA-resistant (sh-res) Flag-tagged USP9X WT or USP9X C1566A. (F) HEK293T cells were cotransfected with His-tagged ALDH1A3 and Flag-tagged USP9X WT or USP9X C1566A, treated with 100 μg/ml CHX, collected at the indicated times, and then subjected to IB with antibodies against His and Flag. Quantification of ALDH1A3 levels relative to β-actin is shown. (G and H) MES 21 (G) and 505 (H) GSCs stably expressing control shRNA or USP9X shRNA were treated with 100 μg/ml CHX, harvested at the indicated times, and then subjected to IB with antibodies against ALDH1A3 and USP9X. Quantification of ALDH1A3 levels relative to β-actin is shown. Data are represented as mean ± SD of 3 independent experiments. **P < 0.01, 1-way ANOVA with Dunnett’s post test (F); 2-tailed Student’s t test (G and H).