Rodney M Camire1. 1. Division of Hematology, Department of Pediatrics, Children's Hospital of Philadelphia and University of Pennsylvania, Perelman School of Medicine, Philadelphia, Pennsylvania, USA. rcamire@mail.med.upenn.edu
Abstract
PURPOSE OF REVIEW: Factor V plays an essential role in hemostasis and has a profound influence on thrombin generation. The aim of this review is to highlight recent advances in our understanding of the biology of factor V which shed light on the variable bleeding tendencies in severe factor V deficiency. Furthermore, new mechanistic insights responsible for maintaining factor V as an inactive procofactor will be discussed. RECENT FINDINGS: The bleeding manifestation of severe factor V-deficient patients varies dramatically. Phenotypic modifiers of the bleeding predisposition in these patients have recently been identified. These include platelet factor V and, surprisingly, plasma tissue factor pathway inhibitor, which is significantly reduced in these patients. An important step in robust thrombin generation is the activation of factor V to factor Va. In a mechanism distinct from factor VIII, factor V activation involves proteolytic removal of inhibitory and conserved sequences from the large central B domain which exposes binding sites for factor Xa and possibly prothrombin. Taking advantage of this mechanism, certain Australian snakes have a unique form of factor V in their venom with these inhibitory sequences removed, thereby creating a potent constitutively active procoagulant cofactor. SUMMARY: Basic biochemical and clinical studies continue to move our understanding of factor V forward. It is apparent that there is much to be learned about parahemophilia and factor V activation, two seemingly well studied areas of research. A full understanding of each may provide unanticipated insights into ways to modulate factor V/Va function for therapeutic benefit.
PURPOSE OF REVIEW: Factor V plays an essential role in hemostasis and has a profound influence on thrombin generation. The aim of this review is to highlight recent advances in our understanding of the biology of factor V which shed light on the variable bleeding tendencies in severe factor V deficiency. Furthermore, new mechanistic insights responsible for maintaining factor V as an inactive procofactor will be discussed. RECENT FINDINGS: The bleeding manifestation of severe factor V-deficientpatients varies dramatically. Phenotypic modifiers of the bleeding predisposition in these patients have recently been identified. These include platelet factor V and, surprisingly, plasma tissue factor pathway inhibitor, which is significantly reduced in these patients. An important step in robust thrombin generation is the activation of factor V to factor Va. In a mechanism distinct from factor VIII, factor V activation involves proteolytic removal of inhibitory and conserved sequences from the large central B domain which exposes binding sites for factor Xa and possibly prothrombin. Taking advantage of this mechanism, certain Australian snakes have a unique form of factor V in their venom with these inhibitory sequences removed, thereby creating a potent constitutively active procoagulant cofactor. SUMMARY: Basic biochemical and clinical studies continue to move our understanding of factor V forward. It is apparent that there is much to be learned about parahemophilia and factor V activation, two seemingly well studied areas of research. A full understanding of each may provide unanticipated insights into ways to modulate factor V/Va function for therapeutic benefit.
Authors: Bilgimol Chumappumkal Joseph; Byron Y Miyazawa; Charles T Esmon; Mitchell J Cohen; Annette von Drygalski; Laurent O Mosnier Journal: Blood Adv Date: 2022-02-08