Rnf149-related is an FGF/MAPK-independent regulator of pharyngeal muscle fate specification

Author:

Vitrinel Burcu,Vogel Christine,Christiaen LionelORCID

Abstract

AbstractDuring embryonic development, cell fate specification gives rise to dedicated lineages that underlie tissue formation. In olfactores, which comprise tunicates and vertebrates, the cardiopharyngeal field is formed by multipotent progenitors to both cardiac and branchiomeric muscles. The ascidian Ciona is a powerful model to study the cardiopharyngeal fate specification with cellular resolution, as only 2 pairs of cardiopharyngeal multipotent progenitors give rise to the heart and to pharyngeal muscles (aka atrial siphon muscles, ASM). These progenitors are multilineage primed, in as much as they express a combination of early ASM- and heart-specific transcripts that become restricted to their corresponding precursors, following oriented asymmetric divisions. Here, we identify the primed gene Rnf149-related (Rnf149-r), which becomes restricted to the heart progenitors, but appears to regulate pharyngeal muscle fate specification in the cardiopharyngeal lineage. CRISPR/Cas9-mediated loss knock-out of Rnf149-r function impairs atrial siphon muscle morphogenesis, and down-regulates Tbx1/10 and Ebf, two key determinants of the pharyngeal muscle fate, while upregulating heart-specific gene expression. These phenotypes are reminiscent of loss of FGF-MAPK signaling in the cardiopharyngeal lineage, and integrated analysis of lineage-specific bulk RNA-seq profiling of loss-of-function perturbations identified a significant overlap between FGF-MAPK and Rnf149-r targets. However, functional interaction assays suggested the Rnf149-r does not directly modulate the activity of the FGF-MAPK-Ets1/2 pathway. Instead, we propose that Rnf149-r acts both in parallel to the FGF-MAPK signaling on shared targets, as well as on FGF-MAPK-independent targets through (a) separate pathway(s).

Publisher

Cold Spring Harbor Laboratory

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