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An interaction network of inner centriole proteins organised by POC1A-POC1B heterodimer crosslinks ensures centriolar integrity

Author

Listed:
  • Cornelia Sala

    (Universität Heidelberg)

  • Martin Würtz

    (Universität Heidelberg
    European Molecular Biology Laboratory (EMBL) Heidelberg)

  • Enrico Salvatore Atorino

    (European Molecular Biology Laboratory (EMBL) Heidelberg)

  • Annett Neuner

    (Universität Heidelberg)

  • Patrick Partscht

    (German Cancer Research Center (DKFZ))

  • Thomas Hoffmann

    (European Molecular Biology Laboratory (EMBL) Heidelberg)

  • Sebastian Eustermann

    (European Molecular Biology Laboratory (EMBL) Heidelberg)

  • Elmar Schiebel

    (Universität Heidelberg)

Abstract

Centriole integrity, vital for cilia formation and chromosome segregation, is crucial for human health. The inner scaffold within the centriole lumen composed of the proteins POC1B, POC5 and FAM161A is key to this integrity. Here, we provide an understanding of the function of inner scaffold proteins. We demonstrate the importance of an interaction network organised by POC1A-POC1B heterodimers within the centriole lumen, where the WD40 domain of POC1B localises close to the centriole wall, while the POC5-interacting WD40 of POC1A resides in the centriole lumen. The POC1A-POC5 interaction and POC5 tetramerization are essential for inner scaffold formation and centriole stability. The microtubule binding proteins FAM161A and MDM1 by binding to POC1A-POC1B, likely positioning the POC5 tetramer near the centriole wall. Disruption of POC1A or POC1B leads to centriole microtubule defects and deletion of both genes causes centriole disintegration. These findings provide insights into organisation and function of the inner scaffold.

Suggested Citation

  • Cornelia Sala & Martin Würtz & Enrico Salvatore Atorino & Annett Neuner & Patrick Partscht & Thomas Hoffmann & Sebastian Eustermann & Elmar Schiebel, 2024. "An interaction network of inner centriole proteins organised by POC1A-POC1B heterodimer crosslinks ensures centriolar integrity," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54247-5
    DOI: 10.1038/s41467-024-54247-5
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    2. Enrico S. Atorino & Shoji Hata & Charlotta Funaya & Annett Neuner & Elmar Schiebel, 2020. "CEP44 ensures the formation of bona fide centriole wall, a requirement for the centriole-to-centrosome conversion," Nature Communications, Nature, vol. 11(1), pages 1-15, December.
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