Surface Modification of Biomimetic PLGA-(ASP-PEG) Matrix with RGD-Containing Peptide:a New Non-Viral Vector for Gene Transfer and Tissue Engineering 被引量：3

Surface Modification of Biomimetic PLGA-(ASP-PEG) Matrix with RGD-Containing Peptide:a New Non-Viral Vector for Gene Transfer and Tissue Engineering

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摘要 RGD-containing peptide （ K16-GRGDSPC） , characterized as non-viral gene vectors, was fabricated to modify the surface of PLGA-[ASP- PEG] matrix, which offered the foundation for gene transfer with porous matrix of gene activated later. Peptide was synthesized and matrix was executed into chips A, B and chip C. Chip C was regarded as control. Chips A and B were reacted with cross-linker. Then chip A was reacted with peptide. MS and HPLC were ased to detect the .14W and purity of peptide. Sulphur, existing on the surface of biomaterials, was detected by XPS. The purity of un-reacted peptide in residual solution was detected by a spectrophotometer. HPLC shows that the peptide purity was 94%- 95% , and MS shows that the MW was 2 741. 3307. XPS reveals that the binding energy of sulphur was 164 eV and the ratio of carbon to sulphur （C/S） was 99. 746 ：0. 1014 in reacted chip A. The binding energy of sulphur in reacted chip B was 164 eV and 162 eV, C/ S was 99.574：0.4255, aM there was no sulphur in chip C. Peptide was manufactured and linked to the surface of biomimetic and 3-D matrix, which offered the possibilities for gene transfer and tissue engineering with this new kind of non-viral gene vector. RGD-containing peptide （ K16-GRGDSPC） , characterized as non-viral gene vectors, was fabricated to modify the surface of PLGA-[ASP- PEG] matrix, which offered the foundation for gene transfer with porous matrix of gene activated later. Peptide was synthesized and matrix was executed into chips A, B and chip C. Chip C was regarded as control. Chips A and B were reacted with cross-linker. Then chip A was reacted with peptide. MS and HPLC were ased to detect the .14W and purity of peptide. Sulphur, existing on the surface of biomaterials, was detected by XPS. The purity of un-reacted peptide in residual solution was detected by a spectrophotometer. HPLC shows that the peptide purity was 94%- 95% , and MS shows that the MW was 2 741. 3307. XPS reveals that the binding energy of sulphur was 164 eV and the ratio of carbon to sulphur （C/S） was 99. 746 ：0. 1014 in reacted chip A. The binding energy of sulphur in reacted chip B was 164 eV and 162 eV, C/ S was 99.574：0.4255, aM there was no sulphur in chip C. Peptide was manufactured and linked to the surface of biomimetic and 3-D matrix, which offered the possibilities for gene transfer and tissue engineering with this new kind of non-viral gene vector.

作者郭晓东

机构地区 Department of Ortheopaedics

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2006年第3期41-43,共3页 武汉理工大学学报（材料科学英文版）

关键词 tissue engineering gene transfection biomimetic material non-viral vector RGD peptide tissue engineering gene transfection biomimetic material non-viral vector RGD peptide

分类号 R318 [医药卫生—生物医学工程]

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参考文献7

1Collins L;Gustafsson K;Fabre J.Tissue-binding Properties of a Synthetic Peptide DNA Vector Targeted to Cell Membrane Integrins:a Possible Universal Nonviral Vector for Organ and Tissue Transplantation[J],2000(06).
2Bianco P;Robey P.Stem Cells in Tissue Engineering,2001(6859).
3Nasseri B;Ogawa K;Vacanti J.Tissue Engineering:An Evolving 21st-century Science to Provide Biologic Replacement for Reconstruction and Transplantation,2001(05).
4Shewring L;Collins L;Lightmao SL.The Non-viral Vector System for Efficient Gene Transfering to Corneal Cell via Membrane Integrin,1997.
5Richardson T;Murphy W;Mooney D.Polymeric Delivery of Proteins and Plasmid DNA for Tissue Engineering and Gene Therapy[J],2001(1-3).
6Louise C;Kenth G;John W.Tissue-binding Properties of a Synthetic Peptide DNA Vector Targeted to Cell Membrane Integrins,2000(06).
7Ma H;Diamond S.Nonviral Gene Therapy and Its Delivery Systems[J],2001(01).

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2潘海涛,郑启新.TGF-beta 1 Gene-Activated Matrices Regulated the Osteogenic Differentiation of BMSCs[J].Journal of Wuhan University of Technology(Materials Science),2007,22(3):431-435. 被引量：1
3Zhao J,Quan D,Liao K,et al.PLGA- (L-Asp-alt-diol) (x)-PLGAs with different contents of pendant amino groups[].Macromol Biosci.2005
4Langer R,Vacanti JP.Tissue engineering[].Science.1993
5Bonassar L J,Vacanti C A.Tissue engineering: the first decade and beyond[].Journal Of Cellular Biochemistry Supplement.1998
6Quirk R A,Chan W C,Davies M C,et al.Poly(L-lysine)-GRGDS as a biomimetic surface modifier for poly (lactic acid)[].Biomaterials.2001
7Hersel U,Dahmen C,Kessler H.RGD modified polymers: biomaterials for stimulated cell adhesion and beyond[].Biomaterials.2003
8Lebaron R G,Athanasiou K A.Extracellular matrix cell adhesion peptides: functional applications in orthopedic materials[].Tissue Engineering.2000
9M. Wiedmann-AL-Ahmad,R. Gutwald,G. Lauer et al.How to optimize seeding and culturing of human osteoblast-like cells on various biomaterials[].Biomaterials.2002
10Jaiswal N,Haynesworth SE,Caplan AI,et al.Osteogenic differentiation of purified, culture-expanded human mesenchymal stem cells in vitro[].Journal of Cellular Biochemistry.1997

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Journal of Wuhan University of Technology(Materials Science)

2006年第3期

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Surface Modification of Biomimetic PLGA-(ASP-PEG) Matrix with RGD-Containing Peptide:a New Non-Viral Vector for Gene Transfer and Tissue Engineering 被引量：3

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