The Contrasting Effects of <i>Bothrops lanceolatus</i> and <i>Bothrops atrox</i> Venom on Procoagulant Activity and Thrombus Stability under Blood Flow Conditions
Fatima Radouani,
Prisca Jalta,
Caroline Rapon,
Chloe Lezin,
Chelsea Branford,
Jonathan Florentin,
Jose Maria Gutierrez,
Dabor Resiere,
Remi Neviere,
Olivier Pierre-Louis
Affiliations
Fatima Radouani
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Prisca Jalta
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Caroline Rapon
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Chloe Lezin
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Chelsea Branford
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Jonathan Florentin
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Jose Maria Gutierrez
Clodomiro Picado Institute, School of Microbiology, University of Costa Rica, San José 11501, Costa Rica
Dabor Resiere
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Remi Neviere
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Olivier Pierre-Louis
Cardiovascular Research Team (UR5_3 PC2E), University of the French West Indies (Université des Antilles), 97200 Fort-de-France, France
Background: Consumption coagulopathy and hemorrhagic syndrome are the typical features of Bothrops sp. snake envenoming. In contrast, B. lanceolatus envenoming can induce thrombotic complications. Our aim was to test whether crude B. lanceolatus and B. atrox venoms would display procoagulant activity and induce thrombus formation under flow conditions. Methods and Principal Findings: Fibrin formation in human plasma was observed for B. lanceolatus venom at 250–1000 ng/mL concentrations, which also induced clot formation in purified human fibrinogen, indicating thrombin-like activity. The degradation of fibrinogen confirmed the fibrinogenolytic activity of B. lanceolatus venom. B. lanceolatus venom displayed consistent thrombin-like and kallikrein-like activity increases in plasma conditions. The well-known procoagulant B. atrox venom activated plasmatic coagulation factors in vitro and induced firm thrombus formation under high shear rate conditions. In contrast, B. lanceolatus venom induced the formation of fragile thrombi that could not resist shear stress. Conclusions: Our results suggest that crude B. lanceolatus venom displays amidolytic activity and can activate the coagulation cascade, leading to prothrombin activation. B. lanceolatus venom induces the formation of an unstable thrombus under flow conditions, which can be prevented by the specific monovalent antivenom Bothrofav®.
