ASSEMBLY OF FIBRONECTIN MOLECULES WITH MUTATIONS OR DELETIONS OF THE CARBOXYL-TERMINAL TYPE-I MODULES

Fibronectin is a large modular protein that is assembled into fibrils in a stepwise process that involves the binding of soluble fibronectin to the cell surface and formation of fibronectin multimers that are stabilized by disulfides. Fibronectin contains two types of disulfide-containing repeat modules, types I and II. The type I modules form units that mediate binding to assembly sites (I-1 through I-5), mediate binding to gelatin (I-6 through I-9 plus the type II modules), or have no known function other than fibrin binding (I-10 through I-12). All type I modules contain four cysteines that are disulfide-linked in a 1-3, 2-4 arrangement, except for I-12 that contains six cysteines disulfide-bonded in an unknown arrangement. I-12 contains the consensus sequence Cys-Xaa-Yaa-Cys found in a number of proteins involved in disulfide exchange reactions [Holmgren, A. (1985) Annu. Rev. Biochem. 54, 237; Boniface, J. J., & Reichert, L. E., Jr. (1990) Science 247, 61]. We explored the role of I-12 and adjacent type I modules of fibronectin in matrix assembly. We generated mutant fibronectins in which the second and sixth or fifth and sixth cysteine residues in I-12 were changed to serines (CS mutants) or that contained deletions of the 12th (DELTA12) or 10th through 12th (DELTA10-12) type I modules. Expression of I-12 as a fusion protein with the gelatin binding part of fibronectin indicated that this module folds independently and that the most likely disulfide pairing is 1-4, 2-6, 3-5. Full-length fibronectins lacking I-12 or I-10 through I-12 were produced and secreted by COS cells. These mutant fibronectins were assembled into fibrils and formed high molecular weight multimers that resist dissociation with sodium dodecyl sulfate. Thus, these results indicate that I-12 has no essential role in assembly or stabilization of fibronectin multimers.