Splicing factor SRSF1 promotes gliomagenesis via oncogenic splice-switching of MYO1B
Xuexia Zhou, … , Qian Wang, Shizhu Yu
Xuexia Zhou, … , Qian Wang, Shizhu Yu
Published November 27, 2018
Citation Information: J Clin Invest. 2019;129(2):676-693. https://doi.org/10.1172/JCI120279.
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Research Article Cell biology Oncology

Splicing factor SRSF1 promotes gliomagenesis via oncogenic splice-switching of MYO1B

Abstract

Abnormal alternative splicing (AS) caused by alterations to splicing factors contributes to tumor progression. Serine/arginine splicing factor 1 (SRSF1) has emerged as a key oncodriver in numerous solid tumors, leaving its roles and mechanisms largely obscure in glioma. Here, we demonstrate that SRSF1 is increased in glioma tissues and cell lines. Moreover, its expression was correlated positively with tumor grade and Ki-67 index, but inversely with patient survival. Using RNA-Seq, we comprehensively screened and identified multiple SRSF1-affected AS events. Motif analysis revealed a position-dependent modulation of AS by SRSF1 in glioma. Functionally, we verified that SRSF1 promoted cell proliferation, survival, and invasion by specifically switching the AS of the myosin IB (MYO1B) gene and facilitating the expression of the oncogenic and membrane-localized isoform, MYO1B-fl. Strikingly, MYO1B splicing was dysregulated in parallel with SRSF1 expression in gliomas and predicted the poor prognosis of the patients. Further investigation revealed that SRSF1-guided AS of the MYO1B gene increased the tumorigenic potential of glioma cells through the PDK1/AKT and PAK/LIMK pathways. Taken together, we identify SRSF1 as an important oncodriver that integrates AS control of MYO1B into promotion of gliomagenesis and represents a potential prognostic biomarker and target for glioma therapy.

Authors

Xuexia Zhou, Run Wang, Xuebing Li, Lin Yu, Dan Hua, Cuiyun Sun, Cuijuan Shi, Wenjun Luo, Chun Rao, Zhendong Jiang, Ying Feng, Qian Wang, Shizhu Yu

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Figure 8

MYO1B-fl partially recapitulates the SRSF1-mediated tumor-promoting phenotypes in GBM cells.

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MYO1B-fl partially recapitulates the SRSF1-mediated tumor-promoting phen...
(A) Western blot of endogenous and exogenous MYO1B and SRSF1 in U87MG cells. Loading control: β-actin. (B) EdU staining and Transwell invasion assays of U87MG cells as indicated. Representative images from triplicate biological experiments are shown. Original magnification, ×400. (C) Bioluminescence images of the intracranial glioma xenografts formed by the indicated U87MG cells. Images of representative mice are shown. (D) Bioluminescence quantification results at days 4, 11, 18, and 25 after implantation (n = 8 for each group). Data are presented as mean ± SD. **P < 0.01; ***P < 0.001 by 1-way ANOVA with Dunnett’s post test. (E) Kaplan-Meier analysis of the OS of the glioma-bearing nude mice. **P < 0.01 for the difference of WT+vec vs. KD+vec, KD+SRSF1-mu vs. KD+vec, WT+vec vs. KD+MYO1B-t, and KD+SRSF1-mu vs. KD+MYO1B-t; *P < 0.05 for the difference of KD+MYO1B-fl vs. KD+vec and KD+MYO1B-fl vs. KD+MYO1B-t by the log-rank (Mantel-Cox) test. (F) IHC of SRSF1 and Ki-67 in outgrowing tumor slices and H&E staining images showing the junctions between glioma xenografts and surrounding brain tissues. Red dotted lines outline the boundaries of the tumors, and red double-sided arrows indicate invasion distances. Scale bars for IHC: 20 μm. Scale bars for H&E: 100 μm (×100) and 50 μm (×400). Images of representative tumors are shown.