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Cartilage Tissue Formation From Dedifferentiated Chondrocytes by Code livery of BMP-2 and SOX-9 Genes Encoding Bicistronic Vector

Cited 34 time in Web of Science Cited 36 time in Scopus
Authors

Cha, Byung-Hyun; Kim, Jae-Hwan; Kang, Sun-Woong; Do, Hyun-Jin; Jang, Ju-Woong; Choi, Yon Rak; Park, Hansoo; Kim, Byung-Soo; Lee, Soo-Hong

Issue Date
2013
Publisher
Cognizant Communication Corp.
Citation
Cell Transplantation, Vol.22 No.9, pp.1519-1528
Abstract
Articular cartilage, when damaged by degenerative disease or trauma, has limited ability for self-repair. Recently, many trials have demonstrated that gene therapy combined with tissue engineering techniques would be a promising approach for cartilage regeneration. Bone morphogenetic protein 2 (BMP-2) is an important signal for upregulation of osteogenesis and chondrogenesis of stem cells. Sex-determining region Y box gene 9 (SOX-9) has also been reported as one of the key transcription factors for chondrogenesis. We hypothesized that codelivery of BMP-2 and SOX-9 genes would result in improved efficiency of recovery of normal chondrogenic properties in dedifferentiated chondrocytes. To this aim, we constructed a bicistronic vector encoding the BMP-2 and SOX-9 genes linked to the "self-cleaving" 2A peptide sequence. After gene delivery to dedifferentiated chondrocytes using a microporator transfection system, we confirmed over 65% delivery efficiency of the BMP-2 and SOX-9 genes. According to RT-PCR analysis and Alcian blue staining, simultaneous delivery of BMP-2/SOX-9 resulted in significantly increased expression of chondrogenesis-related markers (type II collagen and aggrecan) and GAG matrix formation compared with individual delivery of the BMP-2 or SOX-9 gene. Six weeks after in vivo transplantation, BMP-2/SOX-9 genes also showed a significant increase in cartilage formation compared with the BMP-2 or SOX-9 gene. These results demonstrate that codelivery of two chondrogenic lineage-determining genes can enhance normal chondrogenic properties of dedifferentiated chondrocytes followed by improved cartilage formation.
ISSN
0963-6897
URI
https://hdl.handle.net/10371/204310
DOI
https://doi.org/10.3727/096368912X647261
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  • College of Engineering
  • School of Chemical and Biological Engineering
Research Area biomaterials, nanomedicine, regenerative medicine

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