Patterning of Molar Tooth Roots in Mammals

Abstract

Tooth morphogenesis is regulated by reciprocal interactions between the dental epithelium and odontogenic mesenchyme. As tooth roots are fundamental structures of the tooth support system, the morphology and functions of the roots are very important. However, basic information on the morphology of tooth root patterning and the molecular mechanism of root morphogenesis is largely unavailable. Following tooth crown formation, the dental epithelium forms a double-layered Hertwig's epithelial root sheath (HERS) derived from inner and outer enamel epithelium. Previous studies have reported that HERS plays an important role in tooth root development. Here, we report the correlation between the number of major cusps of the tooth crown and number of tooth roots of first molar and last premolar teeth in several extant mammals. We also discuss the molecular mechanism of tooth root patterning by introducing studies of mouse mutants and human syndromes associated with an abnormal molar morphology.