Marek Kloczewiak

Localization of a site interacting with human platelet receptor on carboxy-terminal segment of human fibrinogen γ chain

Abstract We report that the 27-residue carboxy-terminal cyanogen bromide fragment of human fibrinogen γ chain inhibits binding of [ 125 I]fibrinogen to human platelet receptors and blocks fibrinogen-mediated aggregation of ADP-treated human platelets. The blocking activity of the peptide was preserved after proteolysis of the isolated peptide with staphylococcal protease to generate a mixture of a dodecapeptide and a pentadecapeptide. Trypsin treatment destroyed blocking activity of the isolated peptide. These results indicate that the site responsible for the interaction of human fibrinogen with the platelet receptor resides in the 27-residue carboxy-terminal region of the γ chain.

Recognition site for the platelet receptor is present on the 15-residue carboxy-terminal fragment of the γ chain of human fibrinogen and is not involved in the fibrin polymerization reaction

A pentadecapeptide, derived from a staphylococcal protease digest of the 27-residue carboxy-terminal cyanogen bromide fragment of human fibrinogen gamma chain, inhibits binding of 125I-fibrinogen to human platelet receptors and aggregation of platelets induced by ADP and fibrinogen. Amino acid composition and NH2 terminal analysis indicate that the isolated pentadecapeptide corresponds to residues 397 to 411 of the gamma chain. A synthetic peptide also inhibited binding of 125I-fibrinogen and aggregation of platelets. In contrast, the isolated pentadecapeptide and its parent 27-residue fragment lack inhibitory activity toward the polymerization reaction of fibrin monomer. Thus, the site recognizing the platelet receptor encompasses residues 397-411 of the gamma chain of fibrinogen and is distinct from the site(s) involved in polymerization of fibrin monomers.

INTERACTION OF FIBRINOGEN WITH STAPHYLOCOCCAL CLUMPING FACTOR AND WITH PLATELETS

Fibrinogen, a clottable plasma glycoprotein, participates in cell adhesion phenomena involving prokaryotic cells, e.g. staphylococci, and eukaryotic cell fragments, e.g. platelets. Among the three chains (alpha, beta, gamma) of human fibrinogen, the gamma chain bears the main site recognizing the staphylococcal clumping receptor and human platelet receptor induced by ADP. The platelet receptors are also recognized, albeit less avidly, by a site associated with the alpha chain. The gamma chain site recognizing staphylococcal clumping factor exists on the COOH-terminal segment of this chain encompassing the 15 residues (gamma 397-411) including the COOH-terminal valine. The location of the gamma chain site interacting with the human platelet receptor had been pinpointed to the 27 residue CNBr COOH-terminal segment (gamma 385-411). The results of enzymatic degradation of the 27-residue peptide indicate that the continuity of the last 15 amino acid residues at the COOH-terminal end of the gamma chain of human fibrinogen seems to be essential for its interaction with human platelets. The sequence of the gamma chain interacting with the platelet receptor (gamma 385-411) indicates that this segment is a unique region of fibrinogen endowed with three important functions: cross-linking of fibrin, clumping of staphylococci, and aggregation of platelets. [Note added in proof: Recently we obtained evidence that dodecapeptide gamma 393-411 fully retains platelet receptor recognition site (Kloczewiak et al. 1983. Clin. Res 31:534A.)]