ABSTRACT
Spinal cord pMN progenitors sequentially produce motor neurons and oligodendrocyte precursor cells (OPCs). Some OPCs differentiate rapidly as myelinating oligodendrocytes, whereas others remain into adulthood. How pMN progenitors switch from producing motor neurons to OPCs with distinct fates is poorly understood. pMN progenitors express prdm8, which encodes a transcriptional repressor, during motor neuron and OPC formation. To determine whether prdm8 controls pMN cell fate specification, we used zebrafish as a model system to investigate prdm8 function. Our analysis revealed that prdm8 mutant embryos have fewer motor neurons resulting from a premature switch from motor neuron to OPC production. Additionally, prdm8 mutant larvae have excess oligodendrocytes and a concomitant deficit of OPCs. Notably, pMN cells of mutant embryos have elevated Shh signaling, coincident with the motor neuron to OPC switch. Inhibition of Shh signaling restored the number of motor neurons to normal but did not rescue the proportion of oligodendrocytes. These data suggest that Prdm8 regulates the motor neuron-OPC switch by controlling the level of Shh activity in pMN progenitors, and also regulates the allocation of oligodendrocyte lineage cell fates.
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Footnotes
Author contributions
Conceptualization: K.S., B.A.; Formal analysis: K.S., R.O., A.G.; Investigation: K.S.; Resources: B.A.; Writing - original draft: K.S.; Writing - review & editing: B.A.; Supervision: B.A.; Project administration: B.A.; Funding acquisition: B.A.
Funding
This work was supported by a National Institutes of Health grant (NS406668 to B.A.) and a gift from the Gates Frontiers Fund to B.A. Deposited in PMC for release after 12 months.
Data availability
The single cell RNA-seq data have been deposited in GEO under accession number GSE155988.
