PRDM3 and PRDM16 define cranial neural crest cell states in zebrafish development

Cartilage and bone that comprise craniofacial structures as well as neurons and glia of the peripheral nervous system are derived from a multipotent population of cranial neural crest cells, that respond to both cell intrinsic and extrinsic cues to differentiate into precise cell states. Both a genetic and epigenetic regulatory network are required for each step in the differentiation process, involving transcription factors, histone modifiers and chromatin remodelers. Here, we examined the direct transcriptional targets of two histone methyltransferases, Prdm3 and Prdm16 in zebrafish neural crest cells at 48 hours post fertilization in zebrafish. Using CUT&RUN, we examined both direct DNA binding and nucleosome association. At this stage of development, CUT&RUN fragment size analysis indicated that Prdm3 and Prdm16 are largely associated with nucleosomes. We further analyzed these nucleosome peak sets to identify 6 clusters where differential binding of Prdm3 and Prdm16 and differential enrichment of gene ontology terms for target genes was observed. We validated gene expression in each cluster by in situ hybridization chain reaction (HCR) at 48 hpf demonstrating that prdm3 and prdm16 mutants exhibit corresponding changes in gene expression of the putative gene targets identified. Finally, we performed CUT&RUN-qPCR in prdm3 and prdm16 mutant zebrafish embryos and demonstrated reduced binding at putative target loci. Together these data suggest that Prdm3 and Prdm16 regulate their transcriptional targets primarily by binding nucleosomes around their putative target loci to control downstream gene expression.