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Binding to SMN2 pre-mRNA-protein complex elicits specificity for small molecule splicing modifiers

Author

Listed:
  • Manaswini Sivaramakrishnan

    (Roche Innovation Center Basel
    Cold Spring Harbor Laboratory)

  • Kathleen D. McCarthy

    (Roche Innovation Center Basel)

  • Sébastien Campagne

    (ETH Zurich)

  • Sylwia Huber

    (Roche Innovation Center Basel)

  • Sonja Meier

    (Roche Innovation Center Basel
    Cold Spring Harbor Laboratory)

  • Angélique Augustin

    (Roche Innovation Center Basel)

  • Tobias Heckel

    (Roche Innovation Center Basel)

  • Hélène Meistermann

    (Roche Innovation Center Basel)

  • Melanie N. Hug

    (Roche Innovation Center Basel)

  • Pascale Birrer

    (Roche Innovation Center Basel)

  • Ahmed Moursy

    (ETH Zurich)

  • Sarah Khawaja

    (ETH Zurich)

  • Roland Schmucki

    (Roche Innovation Center Basel)

  • Nikos Berntenis

    (Roche Innovation Center Basel)

  • Nicolas Giroud

    (Roche Innovation Center Basel)

  • Sabrina Golling

    (Roche Innovation Center Basel)

  • Manuel Tzouros

    (Roche Innovation Center Basel)

  • Balazs Banfai

    (Roche Innovation Center Basel)

  • Gonzalo Duran-Pacheco

    (Roche Innovation Center Basel)

  • Jens Lamerz

    (Roche Innovation Center Basel)

  • Ying Hsiu Liu

    (Cold Spring Harbor Laboratory)

  • Thomas Luebbers

    (Roche Innovation Center Basel)

  • Hasane Ratni

    (Roche Innovation Center Basel)

  • Martin Ebeling

    (Roche Innovation Center Basel)

  • Antoine Cléry

    (ETH Zurich)

  • Sergey Paushkin

    (SMA Foundation)

  • Adrian R. Krainer

    (Cold Spring Harbor Laboratory)

  • Frédéric H.-T. Allain

    (ETH Zurich)

  • Friedrich Metzger

    (Roche Innovation Center Basel)

Abstract

Small molecule splicing modifiers have been previously described that target the general splicing machinery and thus have low specificity for individual genes. Several potent molecules correcting the splicing deficit of the SMN2 (survival of motor neuron 2) gene have been identified and these molecules are moving towards a potential therapy for spinal muscular atrophy (SMA). Here by using a combination of RNA splicing, transcription, and protein chemistry techniques, we show that these molecules directly bind to two distinct sites of the SMN2 pre-mRNA, thereby stabilizing a yet unidentified ribonucleoprotein (RNP) complex that is critical to the specificity of these small molecules for SMN2 over other genes. In addition to the therapeutic potential of these molecules for treatment of SMA, our work has wide-ranging implications in understanding how small molecules can interact with specific quaternary RNA structures.

Suggested Citation

  • Manaswini Sivaramakrishnan & Kathleen D. McCarthy & Sébastien Campagne & Sylwia Huber & Sonja Meier & Angélique Augustin & Tobias Heckel & Hélène Meistermann & Melanie N. Hug & Pascale Birrer & Ahmed , 2017. "Binding to SMN2 pre-mRNA-protein complex elicits specificity for small molecule splicing modifiers," Nature Communications, Nature, vol. 8(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01559-4
    DOI: 10.1038/s41467-017-01559-4
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