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Annelid adult cell type diversity and their pluripotent cellular origins

Author

Listed:
  • Patricia Álvarez-Campos

    (Oxford Brookes University
    Universidad Autónoma de Madrid)

  • Helena García-Castro

    (Oxford Brookes University
    University of Exeter)

  • Elena Emili

    (Oxford Brookes University)

  • Alberto Pérez-Posada

    (Oxford Brookes University
    University of Exeter)

  • Irene Olmo

    (Universidad Autónoma de Madrid)

  • Sophie Peron

    (Oxford Brookes University
    University of Exeter)

  • David A. Salamanca-Díaz

    (Oxford Brookes University
    University of Exeter)

  • Vincent Mason

    (Oxford Brookes University)

  • Bria Metzger

    (Marine Biological Laboratory
    Washington University in St. Louis. 1 Brookings Dr. Saint Louis)

  • Alexandra E. Bely

    (University of Maryland)

  • Nathan J. Kenny

    (Oxford Brookes University
    University of Otago)

  • B. Duygu Özpolat

    (Marine Biological Laboratory
    Washington University in St. Louis. 1 Brookings Dr. Saint Louis)

  • Jordi Solana

    (Oxford Brookes University
    University of Exeter)

Abstract

Many annelids can regenerate missing body parts or reproduce asexually, generating all cell types in adult stages. However, the putative adult stem cell populations involved in these processes, and the diversity of cell types generated by them, are still unknown. To address this, we recover 75,218 single cell transcriptomes of the highly regenerative and asexually-reproducing annelid Pristina leidyi. Our results uncover a rich cell type diversity including annelid specific types as well as novel types. Moreover, we characterise transcription factors and gene networks that are expressed specifically in these populations. Finally, we uncover a broadly abundant cluster of putative stem cells with a pluripotent signature. This population expresses well-known stem cell markers such as vasa, piwi and nanos homologues, but also shows heterogeneous expression of differentiated cell markers and their transcription factors. We find conserved expression of pluripotency regulators, including multiple chromatin remodelling and epigenetic factors, in piwi+ cells. Finally, lineage reconstruction analyses reveal computational differentiation trajectories from piwi+ cells to diverse adult types. Our data reveal the cell type diversity of adult annelids by single cell transcriptomics and suggest that a piwi+ cell population with a pluripotent stem cell signature is associated with adult cell type differentiation.

Suggested Citation

  • Patricia Álvarez-Campos & Helena García-Castro & Elena Emili & Alberto Pérez-Posada & Irene Olmo & Sophie Peron & David A. Salamanca-Díaz & Vincent Mason & Bria Metzger & Alexandra E. Bely & Nathan J., 2024. "Annelid adult cell type diversity and their pluripotent cellular origins," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47401-6
    DOI: 10.1038/s41467-024-47401-6
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    References listed on IDEAS

    as
    1. Ulrike Zinnall & Miha Milek & Igor Minia & Carlos H. Vieira-Vieira & Simon Müller & Guido Mastrobuoni & Orsalia-Georgia Hazapis & Simone Giudice & David Schwefel & Nadine Bley & Franka Voigt & Jeffrey, 2022. "HDLBP binds ER-targeted mRNAs by multivalent interactions to promote protein synthesis of transmembrane and secreted proteins," Nature Communications, Nature, vol. 13(1), pages 1-21, December.
    2. Ryan E. Hulett & Julian O. Kimura & D. Marcela Bolaños & Yi-Jyun Luo & Carlos Rivera-López & Lorenzo Ricci & Mansi Srivastava, 2023. "Acoel single-cell atlas reveals expression dynamics and heterogeneity of adult pluripotent stem cells," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
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