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A multi-factor trafficking site on the spliceosome remodeling enzyme BRR2 recruits C9ORF78 to regulate alternative splicing

Author

Listed:
  • Alexandra Bergfort

    (Laboratory of Structural Biochemistry
    Yale University, Molecular Biophysics and Biochemistry)

  • Marco Preußner

    (Laboratory of RNA Biochemistry)

  • Benno Kuropka

    (Laboratory of Protein Biochemistry
    Core Facility BioSupraMol)

  • İbrahim Avşar Ilik

    (Max Planck Institute for Molecular Genetics)

  • Tarek Hilal

    (Laboratory of Structural Biochemistry
    Core Facility BioSupraMol
    Research Center of Electron Microscopy and Core Facility BioSupraMol)

  • Gert Weber

    (Macromolecular Crystallography)

  • Christian Freund

    (Laboratory of Protein Biochemistry)

  • Tuğçe Aktaş

    (Max Planck Institute for Molecular Genetics)

  • Florian Heyd

    (Laboratory of RNA Biochemistry)

  • Markus C. Wahl

    (Laboratory of Structural Biochemistry
    Macromolecular Crystallography)

Abstract

The intrinsically unstructured C9ORF78 protein was detected in spliceosomes but its role in splicing is presently unclear. We find that C9ORF78 tightly interacts with the spliceosome remodeling factor, BRR2, in vitro. Affinity purification/mass spectrometry and RNA UV-crosslinking analyses identify additional C9ORF78 interactors in spliceosomes. Cryogenic electron microscopy structures reveal how C9ORF78 and the spliceosomal B complex protein, FBP21, wrap around the C-terminal helicase cassette of BRR2 in a mutually exclusive manner. Knock-down of C9ORF78 leads to alternative NAGNAG 3′-splice site usage and exon skipping, the latter dependent on BRR2. Inspection of spliceosome structures shows that C9ORF78 could contact several detected spliceosome interactors when bound to BRR2, including the suggested 3′-splice site regulating helicase, PRPF22. Together, our data establish C9ORF78 as a late-stage splicing regulatory protein that takes advantage of a multi-factor trafficking site on BRR2, providing one explanation for suggested roles of BRR2 during splicing catalysis and alternative splicing.

Suggested Citation

  • Alexandra Bergfort & Marco Preußner & Benno Kuropka & İbrahim Avşar Ilik & Tarek Hilal & Gert Weber & Christian Freund & Tuğçe Aktaş & Florian Heyd & Markus C. Wahl, 2022. "A multi-factor trafficking site on the spliceosome remodeling enzyme BRR2 recruits C9ORF78 to regulate alternative splicing," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-28754-2
    DOI: 10.1038/s41467-022-28754-2
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    References listed on IDEAS

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    1. Sergey Bessonov & Maria Anokhina & Cindy L. Will & Henning Urlaub & Reinhard Lührmann, 2008. "Isolation of an active step I spliceosome and composition of its RNP core," Nature, Nature, vol. 452(7189), pages 846-850, April.
    2. Karl Bertram & Dmitry E. Agafonov & Wen-Ti Liu & Olexandr Dybkov & Cindy L. Will & Klaus Hartmuth & Henning Urlaub & Berthold Kastner & Holger Stark & Reinhard Lührmann, 2017. "Cryo-EM structure of a human spliceosome activated for step 2 of splicing," Nature, Nature, vol. 542(7641), pages 318-323, February.
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    Cited by:

    1. Junqiao Jia & Tarek Hilal & Katherine E. Bohnsack & Aleksandar Chernev & Ning Tsao & Juliane Bethmann & Aruna Arumugam & Lane Parmely & Nicole Holton & Bernhard Loll & Nima Mosammaparast & Markus T. B, 2023. "Extended DNA threading through a dual-engine motor module of the activating signal co-integrator 1 complex," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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