Supplementary Material for: From the Transcription of Genes Involved in Ectodermal Dysplasias to the Understanding of Associated Dental Anomalies

Orodental anomalies are one aspect of rare diseases and are increasingly identified as diagnostic and predictive traits. To understand the rationale behind gene expression during tooth or other ectodermal derivative development and the disruption of odontogenesis or hair and salivary gland formation in human syndromes we analyzed the expression patterns of a set of genes <i>(Irf6, Nfkbia, Ercc3, Evc2, Map2k1) </i>involved in human ectodermal dysplasias in mouse by in situ hybridization. The expression patterns of <i>Nfkbia</i>, <i>Ercc3</i> and <i>Evc2</i> during odontogenesis had never been reported previously. All genes were indeed transcribed in different tissues/organs of ectodermal origin. However, for <i>Nfkbia, Ercc3, Evc2, </i>and<i> Map2k1</i>, signals were also present in the ectomesenchymal components of the tooth germs. These expression patterns were consistent in timing and localization with the known dental anomalies (tooth agenesis, microdontia, conical shape, enamel hypoplasia) encountered in syndromes resulting from mutations in those genes. They could also explain the similar orodental anomalies encountered in some of the corresponding mutant mouse models. Translational approaches in development and medicine are relevant to gain understanding of the molecular events underlying clinical manifestations.