Periodontal disease is a leading cause of tooth loss in adults. In preclinical studies, the applicant and colleagues have shown that platelet-derived growth factor-BB (PDGF) used alone, or in combination with other growth factors, promotes regeneration of the periodontal attachment apparatus. A rate limiting factor has been the targeted delivery of growth factors (Gfs) to the wound site. Recent advances in DNA delivery systems for transient gene expression offer the potential for the efficient expression of recombinant proteins for transient periods of time in selected tissues. The long term goal of this research is to utilize PDGF-mediated gene transfer to promote periodontal wound healing in vivo. The study plan has three main objectives. The first objective is to construct replication deficient SV40 and adenoviral transient expression vectors containing the PDGF genes. Several vector constructs will be utilized in these studies: PDGF-B (c-sis); a negative control (the loss of function PDGF mutant (PDGF-1308); and lacZ. The applicant has constructed the loss of function mutant and has verified the expression of the mutant transgene at both the RNA and protein levels. The second objective is to use the engineered viral vectors for gene transfer experiments in primary cultures of rat osteoblasts, periodontal ligament fibroblasts, and gingival fibroblasts. The in vitro transduction efficiency of the viral vectors will be assessed initially by measuring lacZ expression. Southern and western blotting will be used for transgene and corresponding protein assessment. The effects of the transgenes on cell growth, differentiation and matrix synthesis will be evaluated. Activation of PDGF-beta receptors due to PDGF-B gene transfer will be monitored in situ using activation-state specific antibodies raised against the PDGF-beta receptor. The applicant has shown the specificity of the antibodies in cells following PDGF beta-receptor activation by PDGF-BB, as well as in constitutively activated PDGF-beta receptors (v-sis transformed cells). The third objective is to utilize the appropriate viral vectors tested in vitro to deliver the transgenes to periodontal wounds in rats. The delivery of the transgenes will be tested by using in vivo microseeding at the time of periodontal surgery. The applicant has demonstrated the targeted transient expression of a lacZ/adenoviral recombinant vector to periodontal wounds in rats. The transgene expression will be evaluated by in situ hybridization, beta-receptor activation and reporter gene assessment. The effects of the PDGF transgenes on periodontal wound healing will be measured by quantitative histomorphometry and fluorochrome bone labeling. The applicant hopes that these studies will provide important information on the use of growth factor-mediated gene transfer to affect periodontal repair, as well as to give insight into designing gene therapy strategies for oral wound healing.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
First Independent Research Support & Transition (FIRST) Awards (R29)
Project #
5R29DE011960-05
Application #
6379792
Study Section
Oral Biology and Medicine Subcommittee 1 (OBM)
Program Officer
Zhang, Guo He
Project Start
1997-07-15
Project End
2003-07-14
Budget Start
2001-07-15
Budget End
2003-07-14
Support Year
5
Fiscal Year
2001
Total Cost
$129,893
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Dentistry
Type
Schools of Dentistry
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Kaigler, Darnell; Cirelli, Joni A; Giannobile, William V (2006) Growth factor delivery for oral and periodontal tissue engineering. Expert Opin Drug Deliv 3:647-62
Anusaksathien, Orasa; Jin, Qiming; Zhao, Ming et al. (2004) Effect of sustained gene delivery of platelet-derived growth factor or its antagonist (PDGF-1308) on tissue-engineered cementum. J Periodontol 75:429-40
Jin, Q-M; Zhao, M; Economides, A N et al. (2004) Noggin gene delivery inhibits cementoblast-induced mineralization. Connect Tissue Res 45:50-9
Jin, Qiming; Anusaksathien, Orasa; Webb, Sarah A et al. (2004) Engineering of tooth-supporting structures by delivery of PDGF gene therapy vectors. Mol Ther 9:519-26
Jin, Q-M; Zhao, M; Webb, S A et al. (2003) Cementum engineering with three-dimensional polymer scaffolds. J Biomed Mater Res A 67:54-60
Jin, Q M; Anusaksathien, O; Webb, S A et al. (2003) Gene therapy of bone morphogenetic protein for periodontal tissue engineering. J Periodontol 74:202-13
Anusaksathien, Orasa; Webb, Sarah A; Jin, Qi-Ming et al. (2003) Platelet-derived growth factor gene delivery stimulates ex vivo gingival repair. Tissue Eng 9:745-56
Chen, Qi-Ping; Giannobile, William V (2002) Adenoviral gene transfer of PDGF downregulates gas gene product PDGFalphaR and prolongs ERK and Akt/PKB activation. Am J Physiol Cell Physiol 282:C538-44
Anusaksathien, Orasa; Giannobile, William V (2002) Growth factor delivery to re-engineer periodontal tissues. Curr Pharm Biotechnol 3:129-39
Giannobile, W V; Lee, C S; Tomala, M P et al. (2001) Platelet-derived growth factor (PDGF) gene delivery for application in periodontal tissue engineering. J Periodontol 72:815-23

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