Taste buds are not derived from neural crest in mouse, chicken, and zebrafish.

Our lineage tracing studies using multiple Cre mouse lines showed a concurrent labeling of abundant taste bud cells and the underlying connective tissue with a neural crest (NC) origin, warranting a further examination on the issue of whether there is an NC derivation of taste bud cells. In this study, we mapped NC cell lineages in three different models, Sox10-iCreER T2 /tdT mouse, GFP+ neural fold transplantation to GFP− chickens, and Sox10-Cre/GFP-RFP zebrafish model. We found that in mice, Sox10-iCreER T2 specifically labels NC cell lineages with a single dose of tamoxifen at E7.5 and that the labeled cells were widely distributed in the connective tissue of the tongue. No labeled cells were found in taste buds or the surrounding epithelium in the postnatal mice. In the GFP+/GFP− chicken chimera model, GFP+ cells migrated extensively to the cranial region of chicken embryos ipsilateral to the surgery side but were absent in taste buds in the base of oral cavity and palate. In zebrafish, Sox10-Cre/GFP-RFP faithfully labeled known NC-derived tissues but did not label taste buds in lower jaw or the barbel. Our data, together with previous findings in axolotl, indicate that taste buds are not derived from NC cells in rodents, birds, amphibians or teleost fish. • Neural crest-derived cells are not seen in taste buds in mouse, chicken, and zebrafish. • Sox10-iCreER T2 is ideal for neural crest lineage mapping in mouse. • GFP+/GFP− chicken chimera is valuable for longitudinally tracking neural crest cells. [ABSTRACT FROM AUTHOR]