Gene Therapy of Bone Morphogenetic Protein for Periodontal Tissue Engineering

Background: The reconstruction of lost periodontal support including bone, ligament, and cementum is a major goal of therapy. Bone morphogenetic proteins (BMPs) have shown much potential in the regeneration of the periodontium. Limitations of BMP administration to periodontal lesions include need fo...

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Bibliographic Details
Published in:Journal of periodontology (1970) 2003-02, Vol.74 (2), p.202-213
Main Authors: Jin, Q‐M., Anusaksathien, O., Webb, S.A., Rutherford, R.B., Giannobile, W.V.
Format: Article
Language:English
Subjects:
Adenoviridae
Alkaline Phosphatase - metabolism
Alveolar Bone Loss - therapy
Animals
Blotting, Northern
Blotting, Western
Bone Morphogenetic Protein 7
Bone Morphogenetic Proteins - administration & dosage
bone regeneration
Bone Regeneration - drug effects
Carrier Proteins
Cell Division
Cells, Cultured
Cementogenesis - drug effects
Cloning, Molecular
dental cementum
Dentistry
Fibroblasts
Genetic Therapy - methods
Immunohistochemistry
periodontal regeneration
Protein Biosynthesis
Proteins
proteins, bone morphogenetic
Rats
Tissue Engineering - methods
Transduction, Genetic
Transforming Growth Factor beta
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Summary:Background: The reconstruction of lost periodontal support including bone, ligament, and cementum is a major goal of therapy. Bone morphogenetic proteins (BMPs) have shown much potential in the regeneration of the periodontium. Limitations of BMP administration to periodontal lesions include need for highdose bolus delivery, BMP transient biological activity, and low bioavailability of factors at the wound site. Gene transfer offers promise as an alternative treatment strategy to deliver BMPs to periodontal tissues. Methods: This study utilized ex vivo BMP‐7 gene transfer to stimulate tissue engineering of alveolar bone wounds. Syngeneic dermal fibroblasts (SDFs) were transduced ex vivo with adenoviruses encoding either green fluorescent protein (Ad‐GFP or control virus), BMP‐7 (Ad‐BMP‐7), or an antagonist of BMP bioactivity, noggin (Ad‐noggin). Transduced cells were seeded onto gelatin carriers and then transplanted to large mandibular alveolar bone defects in a rat wound repair model. Results: Ad‐noggin treatment tended to inhibit osteogenesis as compared to the control‐treated and Ad‐BMP‐7‐treated specimens. The osseous lesions treated by Ad‐BMP‐7 gene delivery demonstrated rapid chrondrogenesis, with subsequent osteogenesis, cementogenesis and predictable bridging of the periodontal bone defects. Conclusion: These results demonstrate the first successful evidence of periodontal tissue engineering using ex vivo gene transfer of BMPs and offers a new approach for repairing periodontal defects. J Periodontol 2003;74:202‐213.
ISSN:0022-3492
1943-3670
DOI:10.1902/jop.2003.74.2.202