Insulin-like growth factor 1 modulates bioengineered tooth morphogenesis

Toshihito Oyanagi,Daisuke Seki,Nobuo Takeshita,Masahiro Seiryu,Mamiko Hara,Toko Chida,Takashi Tsuji,Ikuko Takano,Seiji Kimura,Etsuko Ikeda,Masamitsu Oshima,Teruko Takano-Yamamoto,Michiko Yoshida

doi:10.1038/s41598-018-36863-6

Toshihito Oyanagi, Daisuke Seki + Show 11 more

Open Access

https://doi.org/10.1038/s41598-018-36863-6

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Abstract

Regenerative therapy to replace missing teeth is a critical area of research. Functional bioengineered teeth have been produced by the organ germ method using mouse tooth germ cells. However, these bioengineered teeth are significantly smaller in size and exhibit an abnormal crown shape when compared with natural teeth. The proper sizes and shapes of teeth contribute to their normal function. Therefore, a method is needed to control the morphology of bioengineered teeth. Here, we investigated whether insulin-like growth factor 1 (IGF1) can regulate the sizes and shapes of bioengineered teeth, and assessed underlying mechanisms of such regulation. IGF1 treatment significantly increased the size of bioengineered tooth germs, while preserving normal tooth histology. IGF1-treated bioengineered teeth, which were developed from bioengineered tooth germs in subrenal capsules and jawbones, showed increased sizes and cusp numbers. IGF1 increased the number of fibroblast growth factor (Fgf4)-expressing enamel knots in bioengineered tooth germs and enhanced the proliferation and differentiation of dental epithelial and mesenchymal cells. This study is the first to reveal that IGF1 increases the sizes and cusp numbers of bioengineered teeth via the induction of enamel knot formation, as well as the proliferation and differentiation of dental epithelial and mesenchymal cells.

Highlights

In the field of tooth regeneration, the ultimate goal is the regeneration of fully functional teeth in living bodies[1]
We demonstrated that Insulin-like growth factor 1 (IGF1) treatment significantly increased the size of bioengineered tooth germs while maintaining normal dental histological architecture
IGF1 receptor (IGF1R) expression was observed in ameloblasts, odontoblasts, and dental papilla cells during the development of bioengineered tooth germs; these IGF1R expression patterns were similar to those of normal tooth germs[33,34,35]

Summary

Introduction

In the field of tooth regeneration, the ultimate goal is the regeneration of fully functional teeth in living bodies[1]. The goal of dental regenerative therapy is to generate bioengineered teeth that erupt into the oral cavity, with sizes and shapes similar to those of natural teeth, in order to rehabilitate the aesthetics and stomatognathic function of individual patients. IGF1 and its receptor are expressed in both dental epithelial and mesenchymal tissues in tooth germs[13,14]; IGF1 signalling promotes cell proliferation, differentiation, and matrix secretion in mouse tooth germs[15,16]. Based on this previous evidence, we hypothesized that IGF1 regulates tooth morphogenesis, and can be used to control the size and shape of bioengineered teeth. We further analysed the effects of IGF1 on enamel knot formation, as well as on the proliferation and differentiation of dental epithelial and mesenchymal cells in vitro, in order to elucidate the underlying biological mechanisms that cause morphological changes in IGF1-treated bioengineered teeth

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