American Society of Hirudotherapy

Fibrinolytic compromise by simultaneous administration of site-directed inhibitors of thrombin

Research article published in Thrombosis research (1994)

Last Updated: June 18, 2026Reviewed by: ASH Editorial Board
Research article — evidence reviewArticle reference
Evidence: In vitro / laboratorySalivary PharmacologyCallas et al. · Thrombosis research, 1994

Abstract

Newly developed synthetic and recombinant thrombin inhibitors possess strong anticoagulant effects. Despite these effects, interactions of these agents with enzymes in the fibrinolytic network result in the modulation of such proteases as t-PA, u-PA and streptokinase. The inhibitory spectrum of several thrombin inhibitors [D-Phe-Pro-Arg-H(GYKI 14166), D-MePhe-Pro-Arg-H(GYKI 14766), Boc-D-Phe-Pro-Arg-H (GYKI 14451), Ac-D-Phe-Pro-boroArg-OH (DuP 714), recombinant hirudin (r-Hir) and unfractionated porcine mucosal heparin complexed with antithrombin III (Heparin/AT-III)] was studied towards various serine proteases such as tissue plasminogen activator (t-PA), plasmin, plasminogen/streptokinase complex, urokinase and kallikrein. Aprotinin was also studied in the same systems as the thrombin inhibitors. All four tripeptide derivatives were found to inhibit t-PA, plasmin and plasminogen/streptokinase complex at micromolar concentrations (IC50: 0.57 mM-3.3 microM). Boc-D-Phe-Pro-Arg-H and Ac-D-Phe-Pro-boroArg-OH also inhibited urokinase, while Ac-D-Phe-Pro-boroArg-OH inhibited kallikrein as well (IC50: 0.15 mM-16 microM). In contrast, r-Hir and Heparin/AT-III did not inhibit any of these enzymes at millimolar concentrations (IC50 > or = 1 mM). Aprotinin inhibited plasmin, plasminogen/streptokinase complex and kallikrein at micromolar concentrations (IC50: 3.1-0.85 microM). In a rabbit thrombolysis model, where pre-formed clots are lysed by streptokinase, simultaneous administration of D-MePhe-Pro-Arg-H or Ac-D-Phe-Pro-boroArg-OH, at concentrations approximately 1 mumol/kg, i.v. resulted in complete inhibition of the fibrinolytic process. Aprotinin at 0.1 mumol/kg, i.v. produced similar inhibition. These results demonstrate that thrombin inhibitors may exert significant antiprotease actions against various fibrinolytic enzymes.

Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.

Publication typeJournal Article
Indexed MeSH termsAmino Acid SequenceAnimalsAntithrombin IIIAntithrombinsFibrinolysisHeparinHirudinsMolecular Sequence DataProtease InhibitorsRabbitsRecombinant ProteinsSerine Proteinase Inhibitors

Summary

Peer-reviewed research on leech salivary gland biology and the pharmacology of leech-derived peptides. Indexed in PubMed and verified against the NCBI record.

Why This Matters for Hirudotherapy

This study profiled the inhibitory spectrum of several thrombin inhibitors against fibrinolytic enzymes (t-PA, plasmin, plasminogen/streptokinase, urokinase, kallikrein), and reported that recombinant hirudin (r-Hir) and heparin/AT-III did NOT inhibit any of these enzymes even at millimolar concentrations, whereas the synthetic tripeptide thrombin inhibitors did. That negative result is genuinely informative for the leech-secretome story: hirudin, the prototypical Hirudo anticoagulant, here showed clean specificity for thrombin without spilling over to disrupt clot breakdown, unlike the synthetic agents tested alongside it. Caveat: these are in-vitro enzyme assays plus a rabbit thrombolysis model, the central focus is the synthetic inhibitors rather than hirudin, and animal/biochemical findings do not translate directly to clinical leech therapy.

Citation

Fibrinolytic compromise by simultaneous administration of site-directed inhibitors of thrombin.

Callas et al. · Thrombosis research, 1994

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