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Abstract
The type III connecting segment (IIICS) within fibronectin is the major binding site for the integrin α4β1. Most integrin ligands have an essential acidic residue within their integrin binding site, in IIICS this residue is hypothesized to be the aspartic acid at position 21. Alanine scanning mutagenesis was used to determine the amino acid residues within the intact IIICS domain required for interaction with α4β1. IIICS was cloned and expressed as a fusion protein with glutathione S-transferase. This recombinant form of IIICS supports the adhesion of CHO cells that express human α4β1in a cation dependent manner. Alanine scanning mutagenesis of the EILDVP sequence in recombinant IIICS demonstrated that only two of these residues are critical for adhesion of α4β1expressing cells. Mutations of leucine at position 20 and aspartic acid at position 21 to alanine significantly reduced cell adhesion. Conservative mutations of aspartic acid at position 21 to asparagine or glutamic acid also reduced the ability of the recombinant protein to support cell adhesion, although not to the same extent as the corresponding alanine replacement. Most importantly, we show that although the mutation of asp 21 impairs cell adhesion, an examination of cell adhesion as a function of time demonstrated that asp 21 is not necessary for cell adhesion through α4β1. In comparison to wild type IIICS, the asp 21 to ala mutant supported minimal adhesion at early time points (10-30 min.), but was equivalent to wild type IIICS in supporting adhesion over one hour.