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Single-cell analyses of axolotl telencephalon organization, neurogenesis, and regeneration

Katharina Lust, Ashley Maynard, Tomás Gomes, Jonas Simon Fleck, J. Gray Camp, Elly M. Tanaka, Barbara Treutlein

2022Science108 citationsDOI

Abstract

Salamanders are tetrapod models to study brain organization and regeneration; however, the identity and evolutionary conservation of brain cell types are largely unknown. We delineated the cell populations in the axolotl telencephalon during homeostasis and regeneration using single-cell genomic profiling. We identified glutamatergic neurons with similarities to amniote neurons of hippocampus, dorsal and lateral cortex, and conserved γ-aminobutyric acid-releasing (GABAergic) neuron classes. We inferred transcriptional dynamics and gene regulatory relationships of postembryonic, region-specific neurogenesis and unraveled conserved differentiation signatures. After brain injury, ependymoglia activate an injury-specific state before reestablishing lost neuron populations and axonal connections. Together, our analyses yield insights into the organization, evolution, and regeneration of a tetrapod nervous system.

Topics & Concepts

NeurogenesisBiologyCerebrumAmnioteNeuroscienceGlutamatergicAxolotlRegeneration (biology)ZebrafishNervous systemAnatomyVertebrateCentral nervous systemGlutamate receptorCell biologyGeneGeneticsReceptorNeuroinflammation and Neurodegeneration MechanismsNeurogenesis and neuroplasticity mechanismsSingle-cell and spatial transcriptomics
Single-cell analyses of axolotl telencephalon organization, neurogenesis, and regeneration | Litcius