Stepwise Emergence of the Neuronal Gene Expression Program in Early Animal Evolution

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2023 Sep 20

PMID 37729907

Authors

Sebastian R Najle

Xavier Grau-Bove

Anamaria Elek

Cristina Navarrete

Damiano Cianferoni

Cristina Chiva

Didac Canas-Armenteros

Arrate Mallabiabarrena

Kai Kamm

Eduard Sabido

Harald Gruber-Vodicka

Bernd Schierwater

Luis Serrano

Arnau Sebe-Pedros

Affiliations

Soon will be listed here.

Abstract

The assembly of the neuronal and other major cell type programs occurred early in animal evolution. We can reconstruct this process by studying non-bilaterians like placozoans. These small disc-shaped animals not only have nine morphologically described cell types and no neurons but also show coordinated behaviors triggered by peptide-secreting cells. We investigated possible neuronal affinities of these peptidergic cells using phylogenetics, chromatin profiling, and comparative single-cell genomics in four placozoans. We found conserved cell type expression programs across placozoans, including populations of transdifferentiating and cycling cells, suggestive of active cell type homeostasis. We also uncovered fourteen peptidergic cell types expressing neuronal-associated components like the pre-synaptic scaffold that derive from progenitor cells with neurogenesis signatures. In contrast, earlier-branching animals like sponges and ctenophores lacked this conserved expression. Our findings indicate that key neuronal developmental and effector gene modules evolved before the advent of cnidarian/bilaterian neurons in the context of paracrine cell signaling.

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