Surface characteristics and fibroblast adhesion behavior of RGD-immobilized biodegradable PLLA films

Authors
Jung, Hyun JungAhn, K.-D.Han, Dong KeunAhn, D.-J.
Issue Date
2005-10
Publisher
Polymer Society of Korea
Citation
Macromolecular Research, v.13, no.5, pp.446 - 452
Abstract
The interactions between the surface of scaffolds and specific cells play an important role in tissue engineering applications. Some cell adhesive ligand peptides including Arg-Gly-Asp (RGD) have been grafted into polymeric scaffolds to improve specific cell attachment. In order to make cell adhesive scaffolds for tissue regeneration, biodegradable nonporous poly(L-lactic acid) (PLLA) films were prepared by using a solvent casting technique with chloroform. The hydrophobic PLLA films were surface-modified by Argon plasma treatment and in situ direct acrylic acid (AA) grafting to get hydrophilic PLLA-g-PAA. The obtained carboxylic groups of PLLA-g-PAA were coupled with the amine groups of Gly-Arg-Asp-Gly (GRDG, control) and GRGD as a ligand peptide to get PLLA-g-GRDG and PLLA-g-GRGD, respectively. The surface properties of the modified PLLA films were examined by various surface analyses. The surface structures of the PLLA films were confirmed by ATR-FTIR and ESCA, whereas the immobilized amounts of the ligand peptides were 138-145 pmol/cm2. The PLLA surfaces were more hydrophilic after AA and/or RGD grafting but their surface morphologies showed still relatively smoothness. Fibroblast adhesion to the PLLA surfaces was improved in the order of PLLA control < PLLA-g-PAA=PLLA-g-GRDG < PLLA-g-GRGD, indicating that PLLA-g-GRGD has the highest cell adhesive property.
Keywords
TISSUE; PEPTIDES; POLYMERS; BIOMATERIALS; DENSITY; STERILIZATION; COPOLYMER; WELL; Direct AA grafting; Fibroblast adhesion; Plasma treatment; PLLA film; RGD immobilization; Tissue engineering
ISSN
1598-5032
URI
https://pubs.kist.re.kr/handle/201004/136108
DOI
10.1007/bf03218479
Appears in Collections:
KIST Article > 2005
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