Toshinaga Maeda

Distinct Structural Requirements for Interaction of the Integrins α5β1, αvβ5, and αvβ6 with the Central Cell Binding Domain in Fibronectin

At least 10 different members of the integrin family have been reported to bind to fibronectin, and eight of these interact with the arginine-glycine-aspartic acid (RGD) site in the tenth type III repeat. However, studies utilizing recombinant fibronectin fragments have shown that for three of these, α5β1, αIIbβ3, and αvβ3, the structural requirements for binding to fibronectin differ. In the present study. we report that two additional integrins, αvβ6. and αvβ5 also demonstrate unique requirements for interaction with recombinant fibronectin fragments. αvβ5, like αvβ3, can support cell adhesion to the RGD-containing tenth repeat alone, and does not require the presence of a synergy site in the adjacent ninth repeat. In the cells used in this study. αvβ5 only minimally supported adhesion to intact fibronectin. but did support adhesion to fragments composed of the eighth, ninth and tenth repeats or the tenth repeat. alone. Mutant fragments in which the eighth and tenth repeats were adjacent to one another ...

Matrix assembly of recombinant fibronectin polypeptide consisting of amino‐terminal 70 kDa and carboxyl‐terminal 37 kDa regions

Three different forms of recombinant human fibronectin polypeptides consisting of the amino‐terminal 70 kDa region, the carboxyl‐terminal 37 kDa region, or both, were expressed in mouse L cells. Although either the amino‐terminal or the carboxyl‐terminal region alone was only poorly incorporated into the extracellular matrix, the fused form of the polypeptide was highly capable of assembling into the matrix. These results indicate that matrix assembly of fibronectin requires both regions and can proceed in the absence of most of the type III repeats including the one containing the cell adhesive Arg‐Gly‐Asp sequence.