Ex vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models

W. Lattanzi; C. Parrilla; A. Fetoni; G. Logroscino; G. Straface; G. Pecorini; E. Stigliano; A. Tampieri; R. Bedini; R. Pecci; F. Michetti; A. Gambotto; P. D. Robbins; E. Pola

doi:10.1038/gt.2008.116

Ex vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models

W. Lattanzi, C. Parrilla, A. Fetoni, G. Logroscino, G. Straface, G. Pecorini, E. Stigliano, A. Tampieri, R. Bedini, R. Pecci, F. Michetti, A. Gambotto, P. D. Robbins, E. Pola

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Abstract

Local gene transfer of the human Lim mineralization protein (LMP), a novel intracellular positive regulator of the osteoblast differentiation program, can induce efficient bone formation in rodents. To develop a clinically relevant gene therapy approach to facilitate bone healing, we have used primary dermal fibroblasts transduced ex vivo with Ad.LMP-3 and seeded on a hydroxyapatite/collagen matrix prior to autologous implantation. Here, we demonstrate that genetically modified autologous dermal fibroblasts expressing Ad.LMP-3 are able to induce ectopic bone formation following implantation of the matrix into mouse triceps and paravertebral muscles. Moreover, implantation of the Ad.LMP-3-modified dermal fibroblasts into a rat mandibular bone critical size defect model results in efficient healing, as determined by X-rays, histology and three-dimensional microcomputed tomography (3DμCT). These results demonstrate the effectiveness of the non-secreted intracellular osteogenic factor LMP-3 in inducing bone formation in vivo. Moreover, the utilization of autologous dermal fibroblasts implanted on a biomaterial represents a promising approach for possible future clinical applications aimed at inducing new bone formation.

Original language	English (US)
Pages (from-to)	1330-1343
Number of pages	14
Journal	Gene therapy
Volume	15
Issue number	19
DOIs	https://doi.org/10.1038/gt.2008.116
State	Published - 2008
Externally published	Yes

Bibliographical note

Funding Information:
Enrico Pola was supported by a grant of the Italian Society of Orthopaedics and Traumatology. We thank Kaori Okada and Sun Huijie (Department of Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USA), and Alessandro Sbriccoli (Institute of Anatomy and Cell Biology, Università Cattolica del Sacro Cuore, Rome, Italy), for their invaluable technical assistance.

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Lattanzi, W., Parrilla, C., Fetoni, A., Logroscino, G., Straface, G., Pecorini, G., Stigliano, E., Tampieri, A., Bedini, R., Pecci, R., Michetti, F., Gambotto, A., Robbins, P. D., & Pola, E. (2008). Ex vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models. Gene therapy, 15(19), 1330-1343. https://doi.org/10.1038/gt.2008.116

Lattanzi, W, Parrilla, C, Fetoni, A, Logroscino, G, Straface, G, Pecorini, G, Stigliano, E, Tampieri, A, Bedini, R, Pecci, R, Michetti, F, Gambotto, A, Robbins, PD & Pola, E 2008, 'Ex vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models', Gene therapy, vol. 15, no. 19, pp. 1330-1343. https://doi.org/10.1038/gt.2008.116

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abstract = "Local gene transfer of the human Lim mineralization protein (LMP), a novel intracellular positive regulator of the osteoblast differentiation program, can induce efficient bone formation in rodents. To develop a clinically relevant gene therapy approach to facilitate bone healing, we have used primary dermal fibroblasts transduced ex vivo with Ad.LMP-3 and seeded on a hydroxyapatite/collagen matrix prior to autologous implantation. Here, we demonstrate that genetically modified autologous dermal fibroblasts expressing Ad.LMP-3 are able to induce ectopic bone formation following implantation of the matrix into mouse triceps and paravertebral muscles. Moreover, implantation of the Ad.LMP-3-modified dermal fibroblasts into a rat mandibular bone critical size defect model results in efficient healing, as determined by X-rays, histology and three-dimensional microcomputed tomography (3DμCT). These results demonstrate the effectiveness of the non-secreted intracellular osteogenic factor LMP-3 in inducing bone formation in vivo. Moreover, the utilization of autologous dermal fibroblasts implanted on a biomaterial represents a promising approach for possible future clinical applications aimed at inducing new bone formation.",

author = "W. Lattanzi and C. Parrilla and A. Fetoni and G. Logroscino and G. Straface and G. Pecorini and E. Stigliano and A. Tampieri and R. Bedini and R. Pecci and F. Michetti and A. Gambotto and Robbins, {P. D.} and E. Pola",

note = "Funding Information: Enrico Pola was supported by a grant of the Italian Society of Orthopaedics and Traumatology. We thank Kaori Okada and Sun Huijie (Department of Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USA), and Alessandro Sbriccoli (Institute of Anatomy and Cell Biology, Universit{\`a} Cattolica del Sacro Cuore, Rome, Italy), for their invaluable technical assistance.",

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AU - Straface, G.

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AU - Gambotto, A.

AU - Robbins, P. D.

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PY - 2008

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Ex vivo-transduced autologous skin fibroblasts expressing human Lim mineralization protein-3 efficiently form new bone in animal models

Abstract

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