by Keyword: Hydrolysis
Lagunas, Anna , Comelles, Jordi, Martínez, Elena, Prats-Alfonso, Elisabet , Acosta, Gerardo A., Albericio, Fernando , Samitier, Josep , (2012). Cell adhesion and focal contact formation on linear RGD molecular gradients: study of non-linear concentration dependence effects Nanomedicine: Nanotechnology, Biology and Medicine , 8, (4), 432-439
Cell adhesion onto bioengineered surfaces is affected by a number of variables, including the former substrate derivatization process. In this investigation, we studied the correlation between cell adhesion and cell–adhesive ligand surface concentration and organization due to substrate modification. For this purpose, Arg-Gly-Asp (RGD) gradient surfaces were created on poly(methyl methacrylate) substrates by continuous hydrolysis and were then grafted with biotin-PEG-RGD molecules. Cell culture showed that adhesion behavior changes in a nonlinear way in the narrow range of RGD surface densities assayed (2.8 to 4.4 pmol/cm2), with a threshold value of 4.0 pmol/cm2 for successful cell attachment and spreading. This nonlinear dependence may be explained by nonhomogeneous RGD surface distribution at the nanometre scale, conditioned by the stochastic nature of the hydrolysis process. Atomic force microscopy analysis of the gradient surface showed an evolution of surface morphology compatible with this hypothesis.
JTD Keywords: RGD gradient, Cell adhesion, Poly(methyl methacrylate), Hydrolysis, Biotin-streptavidin