Pax3 and Pax7 function in combination with Mitf to generate melanophores and xanthophores in medaka and zebrafish

Abstract

AbstractNeural crest cells generate numerous derivatives, including pigment cells, and are a model for studying how fate specification from multipotent progenitors is controlled. In mammals, the core gene regulatory network (GRN) for melanocytes (their only pigment cell-type) contains three transcription factors Sox10, Pax3 and Mitf, with the latter considered a master regulator of melanocyte development. In teleosts, which have three to four pigment cell types (melanophores, iridophores and xanthophores, plus leucophores e.g. in medaka), GRNs governing fate specification are poorly understood, although Mitf function is considered conserved. Here, we show that the regulatory relationships between Sox10, Pax3 and Mitf are conserved in zebrafish, but the role for Mitf is more complex than previously emphasised, affecting xanthophore development too. Similarly, medaka Mitf is necessary for melanophore, xanthophore and leucophore formation. Furthermore, expression patterns and mutant phenotypes ofpax3andpax7suggest that Pax3 and Pax7 act sequentially, activatingmitfexpression. Pax7 modulates Mitf function, driving co-expressing cells to differentiate as xanthophores and leucophores rather than melanophores. We propose that pigment cell fate specification is better considered as resulting from the combinatorial activity of Mitf with other transcription factors.