ym-60828 and Thrombosis

Many populations suffer from thrombotic disorders such as stroke, myocardial infarction, unstable angina and thromboembolic disease. Thrombus is one of the major threatening factors to human health and the prevalence of cardio-cerebrovascular diseases induced by thrombus is growing worldwide, even some persons got rare and severe blood clots after receiving the AstraZeneca COVID vaccine unexpectedly. In terms of mechanism of thrombosis, antithrombotic drugs have been divided into three categories including anticoagulants, platelet inhibitors and fibrinolytics. Nowadays, a large number of new compounds possessing antithrombotic activities are emerging in an effort to remove the inevitable drawbacks of previously approved drugs such as the high risk of bleeding, a slow onset of action and a narrow therapeutic window. In this review, we describe the causes and mechanisms of thrombus formation firstly, and then summarize these reported active compounds as potential antithrombotic candidates based on their respective mechanism, hoping to promote the development of more effective bioactive molecules for treating thrombotic disorders.

Topics: Fibrinolytic Agents; Humans; Molecular Structure; Thrombosis

Topics: Administration, Oral; Animals; Anticoagulants; Biological Availability; Clinical Trials as Topic; Drug Design; Drug Evaluation, Preclinical; Factor Xa Inhibitors; Hemostasis; Humans; Models, Molecular; Protein Conformation; Structure-Activity Relationship; Thrombosis

Thrombosis and neointima formation limit the efficacy of coronary angioplasty. Factor Xa inhibitors and GPIIb/IIIa antagonists have shown to be effective on acute thrombosis and late neointima formation, however, their combined effects remain to be elucidated. Vascular injury was induced by FeCl(3) in the carotid artery in mice. For thrombosis studies, the test drug was orally administered 1 hour before vascular injury. For neointima studies, the test drug was orally administered 1 hour before and twice daily for 1 week after vascular injury, and then histological analysis was performed 3 weeks after vascular injury. YM466 inhibited thrombotic occlusion at 30 mg/kg with prolongation of prothrombin time (PT), and tail transection bleeding time (BT) was affected at 100 mg/kg. YM466 also inhibited neointima formation at 10 mg/kg. YM128 inhibited thrombotic occlusion and neointima formation at 10 and 30 mg/kg, respectively, with inhibition of platelet aggregation and prolongation of BT. In contrast, the combination of 10 mg/kg YM466 and 3 mg/kg YM128 inhibited thrombotic occlusion and neointima formation without affecting PT, platelet aggregation and BT. Concomitant inhibition of factor Xa and GPIIb/IIIa may provide a safer and more effective therapeutic regimen for treatment of coronary angioplasty.

Topics: Angioplasty; Animals; Bleeding Time; Blood Coagulation; Blood Platelets; Carotid Arteries; Carotid Artery Thrombosis; Chlorides; Dose-Response Relationship, Drug; Drug Synergism; Factor Xa; Factor Xa Inhibitors; Ferric Compounds; Mice; Mice, Inbred ICR; Naphthalenes; Piperazines; Piperidines; Platelet Aggregation; Platelet Aggregation Inhibitors; Platelet Glycoprotein GPIIb-IIIa Complex; Prothrombin Time; Thrombosis; Time Factors

1. The effects of YM-60828, a newly synthesized factor Xa inhibitor, were investigated to analyse the relationship between its antithrombotic effects and its prolongation of template bleeding time in rats. YM-60828 was compared with argatroban, heparin and dalteparin. All agents were intravenously administered as a bolus. 2. In ex vivo studies, YM-60828 and argatroban prolonged both prothrombin time and activated partial thromboplastin time in a dose-dependent manner, while heparin and dalteparin prolonged only activated partial thromboplastin time. 3. In a venous thrombosis model, all agents exerted antithrombotic effects in a dose-dependent manner. The ID50 values of YM-60828, argatroban, heparin and dalteparin were 0.0081 mg kg(-1), 0.011 mg kg(-1), 6.3 iu kg(-1) and 4.7 iu kg(-1), respectively. 4. In an arterio-venous shunt model, all agents exerted antithrombotic effects in a dose-dependent manner. The ID50 values of YM-60828, argatroban, heparin and dalteparin were 0.010 mg kg(-1), 0.011 mg kg(-1), 10 iu kg(-1) and 4.2 iu kg(-1), respectively. 5. In bleeding time studies, all agents prolonged template bleeding time in a dose-dependent manner. ED2 values, the doses causing a 2 fold prolongation of bleeding time in the saline group, of YM-60828, argatroban, heparin and dalteparin were 0.76 mg kg(-1), 0.081 mg kg(-1), 18 iu kg(-1) and 25 iu kg(-1), respectively. 6. The ratio (ED2/ID50) of YM-60828 was more than 30 fold greater than that of heparin and more than 10 fold greater than those of argatroban and dalteparin. 7. These data show that YM-60828 can exert its antithrombotic effects with little prolongation of bleeding time compared with the other currently used anticoagulant agents.

Topics: Animals; Anticoagulants; Arginine; Arteriovenous Shunt, Surgical; Bleeding Time; Blood Proteins; Dalteparin; Factor Xa Inhibitors; Fibrinolytic Agents; Heparin; In Vitro Techniques; Male; Naphthalenes; Partial Thromboplastin Time; Pipecolic Acids; Piperidines; Platelet Aggregation Inhibitors; Rats; Rats, Sprague-Dawley; Sulfonamides; Thrombophlebitis; Thrombosis

The antithrombotic effects of a novel factor Xa inhibitor, YM-60828 ([N-[4-[(1-acetimidoyl-4-piperidyl)oxy]phenyl]-N-[(7-amidino-2-nap hthyl)methyl]sulfamoyl]acetic acid dihydrochloride), in three thrombosis models in guinea pigs were studied in comparison with its effect on bleeding time. The antithrombotic effects of YM-60828 were most pronounced in the venous thrombosis and the arterio-venous shunt models but YM-60828 showed 10-fold weaker effects in the carotid thrombosis model. However, YM-60828 prolonged bleeding time at a much higher dose than that required in all thrombosis models. In conclusion, YM-60828 exerted its antithrombotic effects without prolonging bleeding time in all thrombosis models and may be of clinical value not only in venous thrombosis but also in arterial thrombosis.

Topics: Animals; Antithrombin III; Arteriovenous Shunt, Surgical; Bleeding Time; Carotid Artery Thrombosis; Carotid Artery, Internal; Disease Models, Animal; Factor Xa Inhibitors; Fibrinolytic Agents; Guinea Pigs; Male; Naphthalenes; Piperidines; Thrombophlebitis; Thrombosis