Abstract
The 49-residue functional upstream domain (FUD) of Streptococcus pyogenes F1 adhesin interacts with fibronectin (FN) in a heretofore unknown manner that prevents assembly of a FN matrix. Biotinylated FUD (b-FUD) bound to adsorbed FN or its recombinant N-terminal 70-kDa fibrin- and gelatin-binding fragment (70K). Binding was blocked by FN or 70K, but not by fibrin- or gelatin-binding subfragments of 70K. Isothermal titration calorimetry showed that FUD binds with Kd values of 5.2 and 59 nm to soluble 70K and FN, respectively. We tested sets of FUD mutants and epitope-mapped monoclonal antibodies (mAbs) for ability to compete with b-FUD for binding to FN or to block FN assembly by cultured fibroblasts. Deletions or alanine substitutions throughout FUD caused loss of both activities. mAb 4D1 to the 2FNI module had little effect, whereas mAb 7D5 to the 4FNI module in the fibrin-binding region, 5C3 to the 9FNI module in the gelatin-binding region, or L8 to the G-strand of 1FNIII module adjacent to 9FNI caused loss of binding of b-FUD to FN and decreased FN assembly. Conversely, FUD blocked binding of 7D5, 5C3, or L8, but not of 4D1, to FN. Circular dichroism indicated that FUD binds to 70K by β-strand addition, a possibility supported by modeling based on crystal structures of peptides bound to 2FNI-5FNI of the fibrin-binding domain and 8FNI-9FNI of the gelatin-binding domain. Thus, the interaction likely involves an extensive anti-parallel β-zipper in which FUD interacts with the E-strands of 2FNI-5FNI and 8FNI-9FNI.
Highlights
The importance of 70-kDa region (70K) in FN assembly was demonstrated in studies showing that 70K as a proteolytic fragment binds to the surface of fibroblasts or platelets with the same affinity and location as full-length FN [12,13,14]. 70K thereby serves as a dominant negative inhibitor of assembly of exogenous FN into fibrils [12, 15, 16]
We used an enzyme-linked assay to quantify the ability of b-Functional upstream domain (FUD) to bind to surfaces coated with dimeric FN, monomeric 70K, or dimeric 1FNIII-C EDAϩ that lacked the 70K N-terminal regions. Biotinylated FUD (b-FUD) bound to FN and 70K, but not
FUD is a powerful antagonist of FN assembly and has become a tool to study the role of FN matrix in biological and pathobiological processes, e.g. angiogenesis, vascular remodeling, thrombosis, and deposition of other matrix proteins (49 – 52)
Summary
Plasma FNs and 70K Fragment—Human plasma FN was prepared by heat precipitation and anion exchange chromatography of a fibrinogen-rich fraction as described previously [32]. The cleared lysate was incubated overnight with nickel-nitrilotriacetic acid agarose (Qiagen), washed, and eluted with elution buffer (100 mM NaH2PO4, 10 mM Tris, 8 M urea, 250 mM imidazole, pH 8.0) The His tag was removed as described previously [37] except that 1 unit of biotinylated thrombin per mg of protein was added for 2 h. Direct Enzyme-linked Immunosorbent Assay (ELISA)—Antigen diluted to 10 g/ml in TBS or, for chicken FN, plasma diluted 1:10 was used to coat 96-well microtiter plates (Costar 3590, Corning Inc., Corning, NY), where blocking, washing, and antibody addition were carried out as described previously [39]. Minimization was terminated when the gradient of change was less than 0.05 kcal/(mol1⁄7Å)
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