Treated dentin matrix-based scaffolds carrying TGF-β1/BMP4 for functional bio-root regeneration

Biomaterial scaffold-based bioengineered tooth root (bio-root) has been proven to be a prospective tool for the treatment of tooth loss. However, while emulating the mechanical integrity of native tooth root, the regenerated bio-root still has limited capacity to achieve long-term functional stability because of lacking the effective cervical seal. Enlightened by physiological cues from cervical seal development and recovery of native tooth, this study reports a bioinspired approach as incorporation of two pivotal odontogenic growth factors (TGF-beta 1 and BMP4) into biomaterial scaffold (treated dentin matrix, TDM) embodying a spatial interface gradient for functional enthesis formation to promote functional bio-root regeneration. The biological characteristics of dental follicle stem cells (DFSCs) induced by TGF beta 1/BMP4 were studied by relevant gene and protein expressions in vitro as well as ectopic subcutaneous transplantation and orthotopic jaw bone implantation in vivo. We further fabricated artificial crown-TDM/TGF beta 1/BMP4/DFSCs in beagle to verify the potential occlusional function of regenerated bio-root. Notably, TGF beta 1/BMP4 synergistically activated proliferation, migration and osteoinductivity related to the enthesis differentiation of DFSCs as increasing expressions of Periostin, BSP, OPN, ALP, Vinculin, and Paxillin and ascending numbers of migrated cells. The TDM/TGF beta 1/BMP4/DFSCs composites imparted the uniform and persistent inductive interface for neovascularization and canonical enthesis regeneration. During more than 5 months follow-up in beagle model, the effectively functional bio-roots were distinguished by outstanding biomechanical properties and healthy gingiva similar to native teeth. This notion of integrating TGF beta 1/BMP4 with TDM and DFSCs provides an alternative strategy for biomimetic bio-root regeneration and other interface tissue engineering. (c) 2020 Elsevier Ltd. All rights reserved.