Characteristics of tenocyte adhesion to biologically-modified surface of polymer.
- Author:
Tingwu QIN
1
;
Zhiming YANG
;
Huiqi XIE
;
Hong LI
;
Jian QIN
;
Zezhi WU
;
Shirong XU
;
Shaoxi CAI
Author Information
1. Department of Orthopedic Surgery, West China Hospital of Sichuan University, Chengdu 610041. qtw@mcwcums.com
- Publication Type:Journal Article
- MeSH:
Biocompatible Materials;
chemistry;
Cell Adhesion;
drug effects;
physiology;
Cells, Cultured;
Extracellular Matrix Proteins;
pharmacology;
Growth Substances;
pharmacology;
Humans;
Lactic Acid;
chemistry;
Polyglycolic Acid;
chemistry;
Polylysine;
pharmacology;
Polymers;
chemistry;
Tendons;
cytology;
embryology;
physiology;
Tissue Engineering
- From:
Journal of Biomedical Engineering
2002;19(4):633-638
- CountryChina
- Language:Chinese
-
Abstract:
In this study we examined the in vitro characteristics of tenocyte adhesion to biologically-modified surface of polymer. Polylactic-co-glycolic acid (PLGA) 85/15 films were prepared by a solvent-casting technique. Each film was adhered onto the bottom of a chamber. The film was precoated with poly-D-lysine (PDL), and then coated with serum-free F12 medium containing various concentrations of fibronectin (FN), type I collagen (CN I), and insulin-like growth factor1 (IGF-1). The monoclonal antibodies (to FN and to CN I) with various dilutions were used to inhibit attachment of tenocytes to surface precoated with FN or CN I. Human embryonic tendon cells (HETCs) and transformed human embryonic tendon cells (THETCs) were used as the seeding cells. The system used for the measurement of adhesion force was the micropipette aspiration experiment system. The micropipette was manipulated to aspirate a small portion of the tenocyte body by using a small aspiration pressure. Then the pipette was pulled away from the adhesion area by micromanipulation. The minimum force required to detach the tenocyte from the substrate was defined as the adhesion force. The results showed that modification of FN or CN I by precoating significantly enhanced attachment of tenocytes to surface of polymer (P < 0.05). As antibodies to FN or CN I were added to a polymer film precoated with FN or CN I, the adhesion force decreased significantly (P < 0.05). We concluded that the specific adhesion forces of tenocytes to extracellular matrix adhesion proteins (FN and CN I) had coordinated action and showed good dependence on their precoating concentrations, and were inhibited by the antibodies to these adhesion proteins. Films precoated with IGF-1 strongly accelerated the adhesion of tenocytes to polymer. These results indicate that the specific adhesion of tenocytes to polymer can be promoted by coating extracellular matrix adhesive proteins and insulin-like growth factor1. It is of great importance to construct tissue-engineered tendon.
