Aug 09, 2019
A new method of tooth repair? Scientists uncover mechanisms that could help future dental treatment
Researchers from TU Dresden’s Biotechnology Center teamed up with international scientists that led to the discovery of a new stem cell population in the front teeth of mice
Stem cells hold the key for tissue engineering, as they develop into specialised cell types throughout the body including in teeth. An international team of researchers, including scientists from the Biotechnology Center of the TU Dresden (BIOTEC), has found a new mechanism that could offer a potential new solution to tooth repair. They discovered a new population of mesenchymal stromal cells in a continuously growing mouse incisor model. They have shown that these cells contribute to the formation of dentin, the hard tissue that covers the main body of a tooth. Importantly, the work showed that when these stem cells are activated, they send signals back to the mother cells of the tissue to control the number of cells produced, through a molecular gene called Dlk1. This study is the first to show that Dlk1 is vital for this process to work. In the same study, the researchers also demonstrated that Dlk1 can enhance stem cell activation and tissue regeneration in a wound healing model. This mechanism could provide an innovative solution for tooth repair, addressing problems such as tooth decay, crumbling and trauma treatment. Further studies are needed to validate the results for clinical applications to determine the appropriate duration and dose of treatment.
The study was led by Dr Bing Hu of the Peninsula Dental School of the University of Plymouth, UK. Co-authors were research group leader Dr. Denis Corbeil and his colleague Dr. Jana Karbanová from BIOTEC. "The discovery of this new population of stromal cells was very exciting and has enormous potential in regenerative medicine," says Dr. Denis Corbeil.
Publication:
Nature Communications: “Transit Amplifying Cells Coordinate Mouse Incisor Mesenchymal Stem Cell Activation” by Walker J.V., H. Zhuang, D. Singer, C. Illsle, W.L. Kok, K.K. Sivaraj, Y. Gao, C. Bolton, Y. Liu, M. Zhao, P.R.C. Grayson, S. Wang, J. Karbanová, T. Lee, S. Ardu, Q. Lai, J. Liu, M. Kassem, S. Chen, K. Yang, Y. Bai, C. Tredwin, A.C. Zambon, D. Corbeil, R. Adams, B M. Abdallah and B. Hu
The Biotechnology Center (BIOTEC) was founded in 2000 as a central scientific unit of the Technische Universität Dresden (TU Dresden) with the goal of combining modern approaches in molecular- and cell biology with the traditionally strong engineering in Dresden. Since 2016 the BIOTEC is part of the central scientific unit “Center for Molecular and Cellular Bioengineering” (CMCB) of the TU Dresden. The BIOTEC is fostering developments in research and teaching within the Molecular Bioengineering research field and combines approaches in cell biology, biophysics and bioinformatics. It plays a central role within the research priority area Health Sciences, Biomedicine and Bioengineering of the TU Dresden.
www.tu-dresden.de/biotec
www.tu-dresden.de/cmcb
Further media inquiries:
Dr. Denis Corbeil
Tel: +49 (0) 351 463-40118
http://www.biotec.tu-dresden.de/research/corbeil/