RESUMO
Cell adhesion to extracellular matrix contributes to the organization of tissues and modulates cell behavior. In conventional cell adhesion assays, plastic wells are coated with matrix proteins and assayed for their adhesion-promoting activity. We show here that factors such as sample composition, coating buffers, and manufacturers' plastic treatment markedly affect cell adhesion to the extracellular matrix protein laminin-5 (Ln-5). These factors were shown to affect adsorption efficiency as determined by measuring total adsorbed protein with a polyclonal anti-Ln-5 antiserum. They also influence the availability of the epitope for an adhesion-blocking anti-Ln-5 monoclonal antibody, suggesting that coating conditions affect the orientation of Ln-5. Generally, cell adhesion correlates more strongly with the availability of the epitope for the adhesion-blocking antibody than with total adsorbed Ln-5. Our data further indicate that cell adhesion to other matrix proteins may be influenced by similar factors. Adding Ln-5 samples to plastic wells that had been precoated with non-adhesion-blocking anti-Ln-5 antibodies made cell adhesion independent of factors such as sample composition, coating buffers, and source of plastic. Thus, the control of adsorption efficiency and orientation of extracellular matrix proteins is essential for creation of reliable and reproducible conditions in cell adhesion assays.