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  • Cell-matrix interactions and dynamic mechanical loading influence chondrocyte gene expression and bioactivity in PEG-RGD hydrogels.

Cell-matrix interactions and dynamic mechanical loading influence chondrocyte gene expression and bioactivity in PEG-RGD hydrogels.

Acta biomaterialia (2009-06-11)
Idalis Villanueva, Courtney A Weigel, Stephanie J Bryant
ABSTRACT

The pericellular matrix (PCM) surrounding chondrocytes is thought to play an important role in transmitting biochemical and biomechanical signals to the cells, which regulates many cellular functions including tissue homeostasis. To better understand chondrocytes interactions with their PCM, three-dimensional poly(ethylene glycol) (PEG) hydrogels containing Arg-Gly-Asp (RGD), the cell-adhesion sequence found in fibronectin and which is present in the PCM of cartilage, were employed. RGD was incorporated into PEG hydrogels via tethers at 0.1, 0.4 and 0.8 mM concentrations. Bovine chondrocytes were encapsulated in the hydrogels and subjected to dynamic compressive strains (0.3 Hz, 18% amplitude strain) for 48h, and their response assessed by cell morphology, ECM gene expression, cell proliferation and matrix synthesis. Incorporation of RGD did not influence cell morphology under free swelling conditions. However, the level of cell deformation upon an applied strain was greater in the presence of RGD. In the absence of dynamic loading, RGD appears to have a negative effect on chondrocyte phenotype, as seen by a 4.7-fold decrease in collagen II/collagen I expressions in 0.8mM RGD constructs. However, RGD had little effect on early responses of chondrocytes (i.e. cell proliferation and matrix synthesis/deposition). When isolating RGD as a biomechanical cue, cellular response was very different. Chondrocyte phenotype (collagen II/collagen I ratio) and proteoglycan synthesis were enhanced with higher concentrations of RGD. Overall, our findings demonstrate that RGD ligands enhance cartilage-specific gene expression and matrix synthesis, but only when mechanically stimulated, suggesting that cell-matrix interactions mediate chondrocyte response to mechanical stimulation.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Poly(ethylene glycol), SAJ first grade, average Mw 1540
Sigma-Aldrich
Poly(ethylene glycol), SAJ first grade, average Mw 4000
Sigma-Aldrich
Poly(ethylene glycol), SAJ first grade, mol wt 7400-9000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 40,000
Sigma-Aldrich
Poly(ethylene glycol), average Mv ~8,000, powder (crystalline)
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Poly(ethylene glycol), average Mn 600, waxy solid (moist)
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 6,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 12,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 600
Sigma-Aldrich
Poly(ethylene glycol), average Mn 2,050, chips
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Poly(ethylene glycol), BioUltra, 200
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Poly(ethylene glycol), average Mn 6,000
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Poly(ethylene glycol), 12,000
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Poly(ethylene glycol), BioUltra, for molecular biology, 6,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 1,500
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 8,000
Sigma-Aldrich
Poly(ethylene glycol), BioUltra, for molecular biology, 8,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 1,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 200
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 400
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Poly(ethylene glycol), average Mn 4,600
Sigma-Aldrich
Poly(ethylene glycol), average Mn 300
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Poly(ethylene glycol), tested according to Ph. Eur., 6,000
Sigma-Aldrich
Poly(ethylene glycol), BioUltra, 20,000
Sigma-Aldrich
Poly(ethylene glycol), average Mw 1,500
Sigma-Aldrich
Poly(ethylene glycol), BioUltra, 300
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Poly(ethylene glycol), BioUltra, 600
Sigma-Aldrich
Poly(ethylene glycol), BioUltra, 1,000
Sigma-Aldrich
Poly(ethylene glycol), BioUltra, for molecular biology, 1,000
Supelco
Poly(ethylene glycol), analytical standard, for GPC, 108,000