Christopher L. Heran scite author profile

The discovery and some of the basic structure-activity relationships of a series of novel nonpeptide inhibitors of blood coagulation Factor Xa is described. These inhibitors are functionalized beta-alanines, exemplified by 2a. Docking experiments placing 2a in the active site of Factor Xa implied that the most expeditious route to enhancing in vitro potency was to modify the group occupying the S3 site of the enzyme. Increasing the hydrophobic contacts between the inhibitor and the enzyme in this region led to 8, which has served as the prototype for this series. In addition, an enantioselective synthesis of these substituted beta-alanines was also developed.

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Low-Molecular-Weight Heparin (Fragmin) and Thrombin Active-Site Inhibitor (Argatroban) Compared in Experimental Arterial and Venous Thrombosis and Bleeding Time

Schumacher

Heran

Steinbacher

1996

Journal of Cardiovascular Pharmacology

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The antithrombotic and bleeding effects of a low-molecular-weight heparin (LMWH, fragmin) and a thrombin active-site inhibitor (argatroban) were determined in anesthetized rats. Occlusive thrombi were produced in the vena cava, either by partial stasis of blood flow or transmural vessel injury, and in the carotid artery by transmural vessel injury. Bleeding time was measured by puncturing small mesenteric arteries. Each drug was tested in multiple intravenous (i.v.) doses and inhibited venous and arterial thrombosis when the activated partial thromboplastin time (APTT) was increased as much as or more than twofold, although greater APTT increases were required with fragmin and against arterial thrombosis. Fragmin and argatroban decreased to an equivalent extent the weight of venous thrombi induced by stasis (> or = 99%) or vessel injury (90 and 96%, respectively). The maximum inhibition of arterial thrombosis was less with fragmin (69%) and argatroban (65%) and required higher doses of each drug relative to venous thrombosis. At doses that were just optimal against arterial thrombosis, bleeding time was increased moderately by fragmin (32%) and was unaffected by argatroban. These studies demonstrate that doses of fragmin and argatroban that exert comparable antithrombotic activity in large arteries and veins have only moderate effects on bleeding time in small arteries.

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Christopher L. Heran

pH-Dependent Dissolution in Vitro and Absorption in Vivo of Weakly Basic Drugs: Development of a Canine Model

Optimization of the β-Aminoester class of factor Xa inhibitors. part 2: Identification of FXV673 as a potent and selective inhibitor with excellent In vivo anticoagulant activity

Identification and Initial Structure−Activity Relationships of a Novel Class of Nonpeptide Inhibitors of Blood Coagulation Factor Xa

Low-Molecular-Weight Heparin (Fragmin) and Thrombin Active-Site Inhibitor (Argatroban) Compared in Experimental Arterial and Venous Thrombosis and Bleeding Time

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