Impact of epidermal growth factor tethering strategy on cellular response.

In an effort to evaluate the impact of various epidermal growth factor (EGF) grafting strategies upon cell surface receptor activation and cell adhesion, we generated low-fouling surfaces by homogeneously grafting carboxymethylated dextran (CMD) on amino-coated glass substrate. By preventing nonspecific cell adhesion while providing reactive groups facilitating subsequent protein grafting, CMD allowed achieving specific cell/tethered EGF interactions and therefore deriving unambiguous conclusions about various EGF grafting strategies. We demonstrate here that A-431 cell response to immobilized EGF is highly dependent on the bioactivity of the tagged protein being tethered, its proper orientation, and its surface density. Among all the approaches we tested, the oriented tethering of fully bioactive EGF via a de novo-designed coiled-coil capture system was shown to be the most efficient. That is, it led to the most intense and sustained phosphorylation of EGF receptors as well as to strong A-431 cell adhesion, the latter being comparable to that observed with amino-coated surfaces in the absence of CMD.