Adhesion, spreading, and proliferation of cells on protein carpets: effects of stability of a carpet.

In the present report we have investigated the role that the physical properties of substrata play in modulating the effects which components of extracellular matrix (ECM) exert on adhesion, spreading, and growth of retinal pigmented epithelial cells. By simple modifications of conditions for protein adsorption on glass we obtained a set of substrata all coated with proteins of ECM (protein carpets) but with different physical properties. Using these protein carpets we have shown that their stability (desorption rate) in tissue culture conditions varies according to the technique with which they were prepared. Both semiremovable and immobilized carpets are stable, whereas removable protein carpets desorb readily. Therefore, the protein concentration or composition or both may change with time in tissue culture depending on the technique used to prepare the carpet. In addition, efficacy of cell attachment to given protein may vary depending on whether a technique used to prepare the protein carpet involves denaturation of the protein. Adherent cells quickly remove (clear) weakly adsorbed protein carpets and it seems that the carpet removal is a mechanical process. During the carpet removal cells are rounded, which indicates that a spread cell phenotype normally associated with stress fibers and focal contacts occurs when the substratum is rigid enough to sustain cell traction. In addition, substrata lacking the rigidity to support the spread phenotype do not support cell proliferation either.