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Single cell sequencing of radial glia progeny reveals the diversity of newborn neurons in the adult zebrafish brain

Christian Lange, Fabian Rost, Anja Machate, Susanne Reinhardt, Mathias Lesche, Anke Weber, Veronika Kuscha, Andreas Dahl, Steffen Rulands, Michael Brand

2020Development87 citationsDOIOpen Access PDF

Abstract

ABSTRACT Zebrafish display widespread and pronounced adult neurogenesis, which is fundamental for their regeneration capability after central nervous system injury. However, the cellular identity and the biological properties of adult newborn neurons are elusive for most brain areas. Here, we have used short-term lineage tracing of radial glia progeny to prospectively isolate newborn neurons from the her4.1+ radial glia lineage in the homeostatic adult forebrain. Transcriptome analysis of radial glia, newborn neurons and mature neurons using single cell sequencing identified distinct transcriptional profiles, including novel markers for each population. Specifically, we detected two separate newborn neuron types, which showed diversity of cell fate commitment and location. Further analyses showed that these cell types are homologous to neurogenic cells in the mammalian brain, identified neurogenic commitment in proliferating radial glia and indicated that glutamatergic projection neurons are generated in the adult zebrafish telencephalon. Thus, we prospectively isolated adult newborn neurons from the adult zebrafish forebrain, identified markers for newborn and mature neurons in the adult brain, and revealed intrinsic heterogeneity among adult newborn neurons and their homology with mammalian adult neurogenic cell types.

Topics & Concepts

BiologyForebrainZebrafishNeurogenesisNeuroscienceCerebrumGlutamatergicDanioFate mappingTranscriptomeEmbryonic stem cellCentral nervous systemGlutamate receptorGeneticsGeneGene expressionReceptorSingle-cell and spatial transcriptomicsNeuroinflammation and Neurodegeneration MechanismsNeurogenesis and neuroplasticity mechanisms