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Sleeping Beauty Insertional Mutagenesis Reveals Important Genetic Drivers of Central Nervous System Embryonal Tumors.

Pauline J BeckmannJon D LarsonAlex T LarssonJason P OstergaardSandra WagnerEric P RahrmannGhaidan A ShamsanGeorge M OttoRory L WilliamsJun WangCatherine LeeBarbara R TschidaParamita DasAdrian M DubucBranden S MoriarityDaniel PicardXiaochong WuFausto J RodriguezQuincy RosemarieRyan D KrebsAmy M MolanAddison M DemerMichelle M FreesAnthony E RizzardiStephen C SchmechelCharles G EberhartRobert B JenkinsRobert J Wechsler-ReyaDavid J OddeAnnie HuangMichael D TaylorAaron L SarverDavid A Largaespada
Published in: Cancer research (2019)
Medulloblastoma and central nervous system primitive neuroectodermal tumors (CNS-PNET) are aggressive, poorly differentiated brain tumors with limited effective therapies. Using Sleeping Beauty (SB) transposon mutagenesis, we identified novel genetic drivers of medulloblastoma and CNS-PNET. Cross-species gene expression analyses classified SB-driven tumors into distinct medulloblastoma and CNS-PNET subgroups, indicating they resemble human Sonic hedgehog and group 3 and 4 medulloblastoma and CNS neuroblastoma with FOXR2 activation. This represents the first genetically induced mouse model of CNS-PNET and a rare model of group 3 and 4 medulloblastoma. We identified several putative proto-oncogenes including Arhgap36, Megf10, and Foxr2. Genetic manipulation of these genes demonstrated a robust impact on tumorigenesis in vitro and in vivo. We also determined that FOXR2 interacts with N-MYC, increases C-MYC protein stability, and activates FAK/SRC signaling. Altogether, our study identified several promising therapeutic targets in medulloblastoma and CNS-PNET. SIGNIFICANCE: A transposon-induced mouse model identifies several novel genetic drivers and potential therapeutic targets in medulloblastoma and CNS-PNET.
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