生物
电池类型
神经发生
效应器
背景(考古学)
细胞生物学
发育生物学
基因表达
基因
细胞
神经科学
遗传学
古生物学
作者
Sebastian Rodrigo Najle,Xavier Grau‐Bové,Anamaria Elek,Cristina Navarrete,Damiano Cianferoni,Cristina Chiva,Didac Cañas-Armenteros,Arrate Mallabiabarrena,Kai Kamm,Eduard Sabidó,Harald R. Gruber‐Vodicka,Bernd Schierwater,Luís Serrano,Arnau Sebé-Pedrós
出处
期刊:Cell
[Elsevier]
日期:2023-09-19
卷期号:186 (21): 4676-4693.e29
被引量:20
标识
DOI:10.1016/j.cell.2023.08.027
摘要
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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