In Vitro Inhibition of Blood Coagulation by Tripeptide Aldehydes - A Retrospective Screening Study Focused on the Stable D-MePhe-Pro-Arg-H · H2SO4

Bagdy, D; Barabás, Éva; Bajusz, S.; Széll, E.

doi:10.1055/s-0038-1648441

Cited by 26 publications

(11 citation statements)

References 9 publications

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“…Despite their differences in their site of action and kinetics, all of these anticoagulants are potent throm bin inhibitors. 6,11,14,15 The objective of these studies was to determine whether the differences in the mechanism of thrombin inhibition of each thrombin inhibitor correlate with their anticoagulant effects. It is clear from these studies that conventional tests such as the PT, PTT, and Heptest are of limited value in the potency evaluation of newly devel oped antithrombin agents, since the anticoagulant pro files of each of the thrombin inhibitors in the global tests do not correlate with their ability to inhibit coagulation feedback loops and generation of thrombin and factor Xa after extrinsic or intrinsic activation, as studied in defined systems.…”

Section: Discussionmentioning

confidence: 99%

Comparative Studies on the Anticoagulant and Protease Generation Inhibitory Actions of Newly Developed Site-Directed Thrombin Inhibitory Drugs

Callas¹,

Hoppensteadt²,

Fareed³

1995

Semin Thromb Hemost

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Site-directed thrombin inhibitors are being currently assessed clinically for their antithrombotic efficacy. Although these agents are claimed to be specific and direct thrombin inhibitors, their mechanism of inhibition varies. The objective of these studies was to compare four such agents in in vitro systems and to assess their relative anticoagulant efficacy. The four agents utilized in these studies were argatroban, Efegatran, hirulog, and hirudin. While hirulog and hirudin are specific irreversible inhibitors of thrombin, argatroban and Efegatran are reversible. All four agents were found to have a concentration-dependent anticoagulant effect when supplemented into normal human plasma, as assessed in the global clotting tests (PT, APTT, and Heptest). The most potent anticoagulant on a molar basis was hirudin in all three tests. The other three agents had similar anticoagulant actions. All four agents were also capable of inhibiting the generation of thrombin and factor Xa as determined by an amidolytic method after intrinsic or extrinsic activation of fibrinogen-deficient human plasma. Except for hirulog, all agents inhibited the extrinsic generation of thrombin, with hirudin being the most potent agent. The intrinsic generation of thrombin was blocked by the reversible thrombin inhibitors (argatroban and Efegatran) but not by the irreversible inhibitors (hirulog and hirudin). While all agents were capable of inhibiting the intrinsic generation of factor Xa at very low concentrations, only Efegatran was capable of blocking the extrinsic generation of the same factor.(ABSTRACT TRUNCATED AT 250 WORDS)

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Section: Discussionmentioning

confidence: 99%

Comparative Studies on the Anticoagulant and Protease Generation Inhibitory Actions of Newly Developed Site-Directed Thrombin Inhibitory Drugs

Callas¹,

Hoppensteadt²,

Fareed³

1995

Semin Thromb Hemost

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“…In contrast to the expectations only a very few of them proved to be effective also in vivo, opposed to the favourable results obtained in vitro biochemical experiments. The in vitro and in vivo anticoagulant and antiplatelet effects based on thrombin inhibition by D-Phe-Pro-Arg-H and D-MePhe-Pro-Arg-H were thoroughly proved and reported (9,10). The present studies were carried out to estimate the antithrombotic potency of the most efficient tripeptide aldehyde in several models of experimental thrombosis in rats and rabbits.…”

Section: Introductionmentioning

confidence: 90%

“…Control thrombus weight used in the calculation of data included the wet weight of the thread which was deducted from the total thrombus weight. Coagula tion parameters (whole blood clotting time, activated partial thromboplas tin time, thrombin time as well as cell counts -RBC and platelets) were determined as described in Bagdy et al (9).…”

Section: Extracorporeal Arterio-venous Shunt Thrombosis In Rabbitsmentioning

confidence: 99%

Inhibition by D-MePhe-Pro-Arg-H (GYKI-14766) of Thrombus Growth in Experimental Models of Thrombosis

Bagdy¹,

Szabó²,

Barabás³

et al. 1992

Thromb Haemost

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SummaryThe antithrombotic action of the highly effective synthetic thrombin inhibitor D-MePhe-Pro-Arg-H (GYKI-14766) was studied in various models of experimental thrombosis. The compound administered to rats and rabbits by i. v. bolus injections, continuous i. v. infusions, subcutaneously and orally, respectively, induced significant decrease in thrombus weight (i) in a quantitative venous thrombosis model with stasis based on vascular lesion in rats, (ii) in an extracorporeal arterio-venous shunt model in rabbits, and (iii) prevented the occlusion of the vessel in arterial thrombosis induced by mechanical damage in rats. By using the arterio-venous shunt model in rabbits the inhibitory effect on thrombus growth could be demonstrated as a function of dose and time in self-controlled experiments. Blood level of the inhibitor determined by a bioassay varied between 0.09-0.67 µg/ml whole blood when doses of 15 and 20 mg/kg were administered orally. A correlation was found between thrombin time, platelet aggregation induced by thrombin ex vivo and the weight of thrombi formed.

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“…The most extensively investigated direct antithrombins are the polypeptides hirudin and hirulog [11,12] and the low molecular weight inhibitors of the active site of thrombin melagatran, with its oral prodrug ximelagatran [13], and dabigatran etexilate [14]. Other direct thrombin inhibitors, including argatroban [15], napsagatran [16], inogatran [17], and efegatran [18] have been either investigated in different clinical conditions or withdrawn from the clinical development.…”

Section: Structure Of Direct Thrombin Inhibitorsmentioning

confidence: 99%

“…Melagatran is a competitive and rapid inhibitor of the active site of thrombin with a molecular weight of 429 daltons [13]. Argatroban (argidipine, MD805), a derivative of arginine with a molecular weight of 526 daltons [15], napsagatran (RO 46-6240), a cyclopropyl derivative with a molecular weight of 559 daltons [15,22], inogatran, (H 314/27) is a synthetic dipeptide with a molecular weight of 439 daltons [17,23] and efegatran sulfate (GYKI 14766, LY294468), a tripeptide aldehyde containing arginine [18,23] are direct, selective and reversible inhibitors of the active site of thrombin. The antithrombotic effect of direct antithrombins in the experimental model is reviewed in details elsewhere [24].…”

Section: Structure Of Direct Thrombin Inhibitorsmentioning

confidence: 99%

Direct Thrombin Inhibitors for the Prevention of Venous Thromboembolism after Major Orthopaedic Surgery

Agnelli

Sonaglia²,

Becattini³

2005

CPD

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Unfractionated heparin, low-molecular-weight heparins and vitamin K antagonists are established antithrombotic agents, but all have a number of limitations. Unfractionated heparin requires parenteral administration, has a short half-life and variable dose-response relationship. Low molecular weight heparins are more effective than low-fixed-dose unfractionated heparin in the prevention of postoperative venous thromboembolism in high-risk surgical patients but they still require subcutaneous administration. Vitamin K antagonists have a narrow therapeutic window and require a careful laboratory monitoring to minimize the risk of bleeding or thrombosis. Direct thrombin inhibitors are selective inhibitors of this key enzyme. Direct thrombin inhibitors inactivate thrombin without requiring any plasma cofactor, inhibit both free and fibrin-bound thrombin, and do not appreciably bind to plasma proteins. Ximelagatran, the first oral direct thrombin inhibitor, is rapidly absorbed and converted to its active form melagatran, which can itself be administered subcutaneously. Ximelagatran has been evaluated in the prevention of venous thromboembolism after major orthopaedic surgery, in the treatment of venous thromboembolism, in the prevention of stroke in patients with atrial fibrillation and in the prevention of recurrence after acute coronary syndromes. In the European studies in major orthopaedic surgery ximelagatran was administered orally after one or two days of melagatran, given subcutaneously. This review will report on the mechanism of action and clinical pharmacology of direct antithrombin agents and on the results of the clinical trials performed with direct thrombin inhibitors in the prevention of venous thromboembolism after major orthopaedic surgery. Taken together, these results indicate that direct thrombin inhibitors, ximelagatran in particular, have the potential to be a valid alternative to low molecular weight heparins and oral anticoagulants in the prevention of venous thromboembolism after major orthopaedic surgery.

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In Vitro Inhibition of Blood Coagulation by Tripeptide Aldehydes - A Retrospective Screening Study Focused on the Stable D-MePhe-Pro-Arg-H · H2SO4

Cited by 26 publications

References 9 publications

Comparative Studies on the Anticoagulant and Protease Generation Inhibitory Actions of Newly Developed Site-Directed Thrombin Inhibitory Drugs

Comparative Studies on the Anticoagulant and Protease Generation Inhibitory Actions of Newly Developed Site-Directed Thrombin Inhibitory Drugs

Inhibition by D-MePhe-Pro-Arg-H (GYKI-14766) of Thrombus Growth in Experimental Models of Thrombosis

Direct Thrombin Inhibitors for the Prevention of Venous Thromboembolism after Major Orthopaedic Surgery

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