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A kinase-deficient NTRK2 splice variant predominates in glioma and amplifies several oncogenic signaling pathways

Author

Listed:
  • Siobhan S. Pattwell

    (Fred Hutchinson Cancer Research Center)

  • Sonali Arora

    (Fred Hutchinson Cancer Research Center)

  • Patrick J. Cimino

    (Fred Hutchinson Cancer Research Center
    University of Washington School of Medicine)

  • Tatsuya Ozawa

    (National Cancer Center Research Institute)

  • Frank Szulzewsky

    (Fred Hutchinson Cancer Research Center)

  • Pia Hoellerbauer

    (Fred Hutchinson Cancer Research Center
    University of Washington)

  • Tobias Bonifert

    (Fred Hutchinson Cancer Research Center)

  • Benjamin G. Hoffstrom

    (Fred Hutchinson Cancer Research Center)

  • Norman E. Boiani

    (Fred Hutchinson Cancer Research Center)

  • Hamid Bolouri

    (Fred Hutchinson Cancer Research Center
    Systems Immunology, Benaroya Research Institute at Virginia Mason)

  • Colin E. Correnti

    (Fred Hutchinson Cancer Research Center)

  • Barbara Oldrini

    (Spanish National Cancer Research Centre)

  • John R. Silber

    (University of Washington School of Medicine)

  • Massimo Squatrito

    (Spanish National Cancer Research Centre)

  • Patrick J. Paddison

    (Fred Hutchinson Cancer Research Center
    University of Washington)

  • Eric C. Holland

    (Fred Hutchinson Cancer Research Center
    University of Washington School of Medicine
    Seattle Tumor Translational Research Center, Fred Hutchinson Cancer Research Center)

Abstract

Independent scientific achievements have led to the discovery of aberrant splicing patterns in oncogenesis, while more recent advances have uncovered novel gene fusions involving neurotrophic tyrosine receptor kinases (NTRKs) in gliomas. The exploration of NTRK splice variants in normal and neoplastic brain provides an intersection of these two rapidly evolving fields. Tropomyosin receptor kinase B (TrkB), encoded NTRK2, is known for critical roles in neuronal survival, differentiation, molecular properties associated with memory, and exhibits intricate splicing patterns and post-translational modifications. Here, we show a role for a truncated NTRK2 splice variant, TrkB.T1, in human glioma. TrkB.T1 enhances PDGF-driven gliomas in vivo, augments PDGF-induced Akt and STAT3 signaling in vitro, while next generation sequencing broadly implicates TrkB.T1 in the PI3K signaling cascades in a ligand-independent fashion. These TrkB.T1 findings highlight the importance of expanding upon whole gene and gene fusion analyses to include splice variants in basic and translational neuro-oncology research.

Suggested Citation

  • Siobhan S. Pattwell & Sonali Arora & Patrick J. Cimino & Tatsuya Ozawa & Frank Szulzewsky & Pia Hoellerbauer & Tobias Bonifert & Benjamin G. Hoffstrom & Norman E. Boiani & Hamid Bolouri & Colin E. Cor, 2020. "A kinase-deficient NTRK2 splice variant predominates in glioma and amplifies several oncogenic signaling pathways," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16786-5
    DOI: 10.1038/s41467-020-16786-5
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