Abstract
We have expressed in mammalian cells a fragment (residues 1-302) of the alpha chain of platelet glycoprotein (GP) Ib containing the von Willebrand factor- (vWF) binding site. The secreted soluble protein had an apparent molecular mass of 45 kDa and reacted with conformation-dependent monoclonal antibodies that bind only to native GP Ib, thus demonstrating its proper folding. After insolubilization on nitrocellulose membrane, the recombinant GP Ib alpha fragment bound soluble vWF in the presence of ristocetin or botrocetin with a dissociation constant similar to that exhibited by GP Ib.IX complex on platelets. Moreover, the interaction was blocked by anti-GP Ib monoclonal antibodies known to inhibit vWF binding to platelets. The sequence of GP Ib alpha between residues 269-287 has a strong net negative charge due to the presence of 10 glutamic or aspartic acid residues; 5 of these are contained in the sequence of a synthetic peptide (residues 251-279) previously shown to inhibit vWF-platelet interaction. In order to evaluate the possible functional role of these acidic residues, we employed site-directed mutagenesis to express two mutant GP Ib alpha fragments containing asparagine or glutamine instead of aspartic or glutamic acid, respectively. Mutant 1, with substitutions between residues 251-279, failed to bind vWF whether in the presence of ristocetin or botrocetin; in contrast, vWF binding to Mutant 2, with substitutions between residues 280-302, was nearly normal in the presence of ristocetin, but markedly decreased in the presence of botrocetin. Thus, mammalian cells transfected with a truncated cDNA sequence encoding the amino-terminal domain of GP Ib alpha synthesize a fully functional vWF-binding site; acidic residues in the sequence 252-287 are essential for normal function.
Highlights
We have expressed in mammalian cells a fragment hetero-oligomeric glycoprotein (GP) Ib.IX receptor complexof the a chain of platelet glycoprotein (Ruggeri, 1991)
In order to evaluatepotshsieble functional role of these acidic residuesw, e employed site-directed mutagenesis to express two mutant GPIba fragments be ineffective in one studybut maximally effective in the other.the GP Irbeasidues involved in von Willebrand factor (vWF) binding remain to be identified
Mutant 1, with substi- direct answer to this question, we have expressed in stable tutions between residues251-279,failed to bindvWF mammalian cell lines a soluble fragment of the a chain whether in the presenceof ristocetin or botrocetin; in essentially retaining the intactbinding function of the memcontrast, vWF binding to Mutant2,with substitutions brane-bound GP Ib-IX complex
Summary
The anti-GP Ib-IX antibodies (LJ- Structural Characterization of the Recombinant GP Zba. P3, LJ-P19, LJ-Ibl, and LJ-Ibal) are murine IgG, that react with the amino-terminal 45-kDa domain of GP Iha containing the vWF-. Iba-positive transfected cells with an anti-GP IIb-IIIa monoclonal antibody (Fig. 1). Ligand-binding Function of the Isolated Recombinant G P Iba Amino-terminal Fragment-The recombinant 45 kDa-GP Iba fragment present in culture media of pMW2-transfected clonal antibody W - I b a l , followed by l"I-labeled rabbit anti-mouse IgG. Cells failed to bind any appreciable amount of soluble vWF, markedly inhibited vWF binding to the recombinant GP Iba but binding became apparent when ristocetin or botrocetin fragment, while LJ-CP3, an anti-GP IIb-IIIa antibody, had were added to the reaction mixture (Fig. 3). Two mutant molecules were uon Willebrand Factor-GP Ib Interaction
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