Abstract
Mesenchyme is an embryonic precursor tissue that generates a range of structures in vertebrates including cartilage, bone, muscle, kidney, and the erythropoietic system. Mesenchyme originates from both mesoderm and the neural crest, an ectodermal cell population, via an epithelial to mesenchymal transition (EMT). Because ectodermal and mesodermal mesenchyme can form in close proximity and give rise to similar derivatives, the embryonic origin of many mesenchyme-derived tissues is still unclear. Recent work using genetic lineage tracing methods have upended classical ideas about the contributions of mesodermal mesenchyme and neural crest to particular structures. Using similar strategies in the Mexican axolotl (Ambystoma mexicanum), and the South African clawed toad (Xenopus laevis), we traced the origins of fin mesenchyme and tail muscle in amphibians. Here we present evidence that fin mesenchyme and striated tail muscle in both animals are derived solely from mesoderm and not from neural crest. In the context of recent work in zebrafish, our experiments suggest that trunk neural crest cells in the last common ancestor of tetrapods and ray-finned fish lacked the ability to form ectomesenchyme and its derivatives.
Highlights
Whether the neural plate, neural crest, or some unidentified cell population in the grafts, were giving rise to this tissue
We decided to re-examine the germ layer origins of the median fin mesenchyme and tail muscle in axolotl and X. laevis using genetically-labeled tissue grafts, vital dyes, and gene expression
In light of recent work in zebrafish, our results suggest that fin mesenchyme in the last common ancestor of all modern bony fish was derived entirely from posterior mesoderm
Summary
Whether the neural plate, neural crest, or some unidentified cell population in the grafts, were giving rise to this tissue. We first grafted three defined neural plate areas (plate regions1–3) and neural fold areas (fold regions1–3) one by one from GFP+ donors (stage 15) homo- or heterotopically into white (d/d) hosts (stage 15) for studying their potency for developing into striated tail muscle or fin mesenchyme (schematics Fig. 1).
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