Abstract
During cleavage of fibrinogen by thrombin, fibrinopeptide A (FpA) release precedes fibrinopeptide B (FpB) release. To examine the basis for this ordered release, we synthesized A'beta fibrinogen, replacing FpB with a fibrinopeptide A-like peptide, FpA' (G14V). Analyses of fibrinopeptide release from A'beta fibrinogen showed that FpA release and FpA' release were similar; the release of either peptide followed simple first-order kinetics. Specificity constants for FpA and FpA' were similar, demonstrating that these peptides are equally competitive substrates for thrombin. In the presence of Gly-Pro-Arg-Pro, an inhibitor of fibrin polymerization, the rate of FpB release from normal fibrinogen was reduced 3-fold, consistent with previous data; in contrast, the rate of FpA' release from A'beta fibrinogen was unaffected. Thus, with A'beta fibrinogen, fibrinopeptide release from the beta chain is similar to fibrinopeptide release from the alpha chain. We conclude that the ordered release of fibrinopeptides is dictated by the specificity of thrombin for its substrates. We analyzed polymerization, following changes in turbidity, and found that polymerization of A'beta fibrinogen was similar to that of normal fibrinogen. We analyzed clot structure by scanning electron microscopy and found that clots from A'beta fibrinogen were similar to clots from normal fibrinogen. We conclude that premature release of the fibrinopeptide from the N terminus of the beta chain does not affect polymerization of fibrinogen.
Highlights
Fibrinogen is a 340-kDa plasma protein that is involved in the final phase of the coagulation cascade
This fibrinogen was designed to probe the mechanism of fibrinopeptide release and to detertide B; FpAЈ, fibrinopeptide AЈ (FpA with a G14V mutation); AЈ␣, FpAЈ substituted on the N terminus of the ␣ chain; AЈ, FpAЈ substituted on the N terminus of the  chain; bp, base pair(s); HPLC, high performance liquid chromatography; GPRP, Gly-Pro-Arg-Pro acetate salt peptide
We have synthesized a recombinant fibrinogen (AЈ) to determine what effect the substitution of FpAЈ on the N terminus of the  chain has on the kinetics of fibrinopeptide release
Summary
16-residue peptide, exposes the “A” site, which noncovalently interacts with the “a” site in the ␥ chain of the D nodule of another molecule. To extend our understanding of the mechanism of thrombin on fibrinopeptide B and its resulting effect on polymerization, we have designed a variant recombinant fibrinogen (AЈ) that contains a fibrinopeptide A-like substrate on the N termini of the  chains This fibrinogen was designed to probe the mechanism of fibrinopeptide release and to detertide B; FpAЈ, fibrinopeptide AЈ (FpA with a G14V mutation); AЈ␣, FpAЈ substituted on the N terminus of the ␣ chain; AЈ, FpAЈ substituted on the N terminus of the  chain; bp, base pair(s); HPLC, high performance liquid chromatography; GPRP, Gly-Pro-Arg-Pro acetate salt peptide. Our studies have revealed that it is the specificity of thrombin for FpB that is responsible for the order of fibrinopeptide release during fibrin polymerization
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