Letter

Nature 455, 795-798 (9 October 2008) | doi:10.1038/nature07304; Received 9 January 2008; Accepted 29 July 2008; Published online 14 September 2008

Dual epithelial origin of vertebrate oral teeth

Vladimír Soukup1, Hans-Henning Epperlein2, Ivan Horácek1 & Robert Cerny1

  1. Department of Zoology, Charles University in Prague, Vinicna 7, 128 44 Prague, Czech Republic
  2. Department of Anatomy, TU Dresden, Fetscherstrasse 74, 01307 Dresden, Germany

Correspondence to: Robert Cerny1 Correspondence and requests for materials should be addressed to R.C. (Email: cerny8@natur.cuni.cz).

The oral cavity of vertebrates is generally thought to arise as an ectodermal invagination1, 2. Consistent with this, oral teeth are proposed to arise exclusively from ectoderm, contributing to tooth enamel epithelium, and from neural crest derived mesenchyme, contributing to dentin and pulp3, 4, 5. Yet in many vertebrate groups, teeth are not restricted only to the oral cavity6, 7, 8, 9, but extend posteriorly as pharyngeal teeth that could be derived either directly from the endodermal epithelium, or from the ectodermal epithelium that reached this location through the mouth or through the pharyngeal slits6. However, when the oropharyngeal membrane, which forms a sharp ecto/endodermal border10, is broken, the fate of these cells is poorly known. Here, using transgenic axolotls with a combination of fate-mapping approaches, we present reliable evidence of oral teeth derived from both the ectoderm and endoderm and, moreover, demonstrate teeth with a mixed ecto/endodermal origin. Despite the enamel epithelia having a different embryonic source, oral teeth in the axolotl display striking developmental uniformities and are otherwise identical. This suggests a dominant role for the neural crest mesenchyme over epithelia in tooth initiation and, from an evolutionary point of view, that an essential factor in teeth evolution was the odontogenic capacity of neural crest cells, regardless of possible 'outside-in'11 or 'inside-out'12 influx of the epithelium.

MORE ARTICLES LIKE THIS

These links to content published by NPG are automatically generated.

REVIEWS

A tense situation: forcing tumour progression

Nature Reviews Cancer Review (01 Feb 2009)

Cranial neural crest and the building of the vertebrate head

Nature Reviews Neuroscience Review (01 Oct 2003)

The cutting-edge of mammalian development; how the embryo makes teeth

Nature Reviews Genetics Review (01 Jul 2004)

See all 4 matches for Reviews

NEWS AND VIEWS

Developmental biology Teeth in double trouble

Nature News and Views (09 Oct 2008)