OBJECTIVE: Gene therapy for severe von Willebrand disease (vWD) seems an interesting treatment alternative with long-term therapeutic potential. We investigated the feasibility of targeting the liver for ectopic expression of physiologically active von Willebrand factor (vWF). METHODS AND RESULTS: The capacity of transgene-encoded murine vWF to restore vWF function was studied in a mouse model of severe vWD after liver-specific gene transfer by hydrodynamic injection. By using a hepatocyte-specific alpha1 antitrypsin promoter, a considerably higher and longer-lasting vWF expression was obtained when compared with a cytomegalovirus promoter, reaching maximum vWF plasma levels that are 10+/-1 times higher than the wild-type level. Liver-expressed vWF showed the full range of multimers, including the high molecular weight multimers, and restored factor VIII plasma levels, consistent with correction of the bleeding time 3 but not 7 days after gene transfer. Importantly, transgene encoded plasma vWF restored proper platelet adhesion and aggregation in a FeCl(3) induced thrombosis model. CONCLUSIONS: High ectopic expression of transgene encoded plasma vWF can be obtained after gene transfer to the liver. Liver-expressed vWF was fully multimerized and able to restore proper platelet plug formation in severe vWD. The liver therefore seems an attractive target for gene therapy for severe vWD.
OBJECTIVE: Gene therapy for severe von Willebrand disease (vWD) seems an interesting treatment alternative with long-term therapeutic potential. We investigated the feasibility of targeting the liver for ectopic expression of physiologically active von Willebrand factor (vWF). METHODS AND RESULTS: The capacity of transgene-encoded murinevWF to restore vWF function was studied in a mouse model of severe vWD after liver-specific gene transfer by hydrodynamic injection. By using a hepatocyte-specific alpha1 antitrypsin promoter, a considerably higher and longer-lasting vWF expression was obtained when compared with a cytomegalovirus promoter, reaching maximum vWF plasma levels that are 10+/-1 times higher than the wild-type level. Liver-expressed vWF showed the full range of multimers, including the high molecular weight multimers, and restored factor VIII plasma levels, consistent with correction of the bleeding time 3 but not 7 days after gene transfer. Importantly, transgene encoded plasma vWF restored proper platelet adhesion and aggregation in a FeCl(3) induced thrombosis model. CONCLUSIONS: High ectopic expression of transgene encoded plasma vWF can be obtained after gene transfer to the liver. Liver-expressed vWF was fully multimerized and able to restore proper platelet plug formation in severe vWD. The liver therefore seems an attractive target for gene therapy for severe vWD.
Authors: Andrew Yee; Robert D Gildersleeve; Shufang Gu; Colin A Kretz; Beth M McGee; Keisha M Carr; Steven W Pipe; David Ginsburg Journal: Blood Date: 2014-05-21 Impact factor: 22.113
Authors: L Deforche; E Roose; A Vandenbulcke; N Vandeputte; H B Feys; T A Springer; L Z Mi; J Muia; J E Sadler; K Soejima; H Rottensteiner; H Deckmyn; S F De Meyer; K Vanhoorelbeke Journal: J Thromb Haemost Date: 2015-10-20 Impact factor: 5.824
Authors: Simon F De Meyer; Alexander S Savchenko; Michael S Haas; Daphne Schatzberg; Michael C Carroll; Alexandra Schiviz; Barbara Dietrich; Hanspeter Rottensteiner; Friedrich Scheiflinger; Denisa D Wagner Journal: Blood Date: 2012-08-22 Impact factor: 22.113