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SON drives oncogenic RNA splicing in glioblastoma by regulating PTBP1/PTBP2 switching and RBFOX2 activity

Jung‐Hyun Kim, Kyuho Jeong, Jianfeng Li, James M. Murphy, Lana Vukadin, Joshua K. Stone, Alexander Richard, Johnny Tran, G. Yancey Gillespie, Erik K. Flemington, Robert W. Sobol, Ssang‐Taek Lim, E. Ahn

2021Nature Communications52 citationsDOIOpen Access PDF

Abstract

While dysregulation of RNA splicing has been recognized as an emerging target for cancer therapy, the functional significance of RNA splicing and individual splicing factors in brain tumors is poorly understood. Here, we identify SON as a master regulator that activates PTBP1-mediated oncogenic splicing while suppressing RBFOX2-mediated non-oncogenic neuronal splicing in glioblastoma multiforme (GBM). SON is overexpressed in GBM patients and SON knockdown causes failure in intron removal from the PTBP1 transcript, resulting in PTBP1 downregulation and inhibition of its downstream oncogenic splicing. Furthermore, SON forms a complex with hnRNP A2B1 and antagonizes RBFOX2, which leads to skipping of RBFOX2-targeted cassette exons, including the PTBP2 neuronal exon. SON knockdown inhibits proliferation and clonogenicity of GBM cells in vitro and significantly suppresses tumor growth in orthotopic xenografts in vivo. Collectively, our study reveals that SON-mediated RNA splicing is a GBM vulnerability, implicating SON as a potential therapeutic target in brain tumors.

Topics & Concepts

RNA splicingGene knockdownExonCancer researchBiologyDownregulation and upregulationIntronAlternative splicingRNA-binding proteinSmall hairpin RNAMinigeneHeterogeneous ribonucleoprotein particleExonic splicing enhancerRNACell biologyMolecular biologyGeneticsGeneRNA Research and SplicingRNA modifications and cancerCancer-related molecular mechanisms research
SON drives oncogenic RNA splicing in glioblastoma by regulating PTBP1/PTBP2 switching and RBFOX2 activity | Litcius