Profiling cellular diversity in sponges informs animal cell type and nervous system evolution
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Jacob M Musser
Klaske J. Schippers
Michael Nickel
Giulia Mizzon
Andrea B Kohn
Constantin Pape
Paolo Ronchi
Nikolaos Papadopoulos
Alexander J Tarashansky
Jörg U Hammel
Florian Wolf
Cong Liang
Ana Hernándes-Plaza
Carlos P Cantalapiedra
Kaia Achim
Nicole L Schieber
Leslie Pan
Fabian Ruperti
Warren R Francis
Sergio Vargas
Svenja Kling
Maike Renkert
Maxim Polikarpov
Gleb Bourenkov
Roberto Feuda
Imre Gaspar
Pawel Burkhardt
Bo Wang
Peer Bork
Martin Beck
Thomas R Schneider
Anna Kreshuk
Gert Wörheide
Jaime Huerta-Cepas
Yannik Schwab
Leonid L Moroz
Detlev Arendt
Abstract
The evolutionary origin of metazoan cell types such as neurons and muscles is not known. Using whole-body single-cell RNA sequencing in a sponge, an animal without nervous system and musculature, we identified 18 distinct cell types. These include nitric oxide–sensitive contractile pinacocytes, amoeboid phagocytes, and secretory neuroid cells that reside in close contact with digestive choanocytes that express scaffolding and receptor proteins. Visualizing neuroid cells by correlative x-ray and electron microscopy revealed secretory vesicles and cellular projections enwrapping choanocyte microvilli and cilia. Our data show a communication system that is organized around sponge digestive chambers, using conserved modules that became incorporated into the pre- and postsynapse in the nervous systems of other animals.
Type
Publication
Science374,717-723(2021)
