In Vitro FVIII Encoding Transgenic Mesenchymal Stem Cells Maintain A Successful Coagulation in FVIII- Deficient Plasma Mimicking Hemophilia A.

Abstract

Hemophilia A is an X-linked recessive bleeding disorder caused by deficiency of plasma coagulation factor VIII (FVIII), and accounts for about 80-85% of patients with hemophilia. Plasma-derived therapies or recombinant factor VIII concentrates and also FVIII mimicking antibodies are used to prevent and treat the bleeding symptoms. Recently, EMA granted a conditional marketing approval for the first gene therapy of Hemophilia A. Aim of this study was to determine the effectiveness of coagulation in correcting FVIII deficiency with FVIII secreting transgenic mesenchymal stem cells (MSC). A lentiviral vector encoding B-domain-deleted Factor VIII cDNA sequence with CD45 R0 truncated (CD45R0t) surface marker was designed to develop a transgenic FVIII expressing primary cell line by transducing MSC. Efficacy and functionality of secreted FVIII from MSCs was assessed with anti- FVIII ELISA, CD45R0t flow cytometry, FVIII Western Blot and Mixing Test analysis in vitro. Results of this study showed that the transgenic MSCs maintain a persistent FVIII secretion. There was no significant difference in FVIII secretion over time, suggesting stable FVIII expression from the MSCs. Functionality of FVIII protein secreted in MSC supernatant was demonstrated by using Mixing Test in coagulation analysis. In the Mixing Test analysis, FVIIIdeficient human plasma products were mixed either with saline control or FVIII-secreted MSC supernatant. Mean FVIII levels of saline control group were 0.41±0.03 IU/dL whereas mean FVIII levels were 25.41±33.38 IU/dL (p<0.01) in FVIII-secreting MSC supernatant mixed group. Mean activated partial thromboplastin time (aPTT) of saline control group was 92.69±11.38 seconds whereas in FVIII-secreting MSC supernatant mixed group, mean aPTT levels were decreased to 38.60±13.38 seconds (p<0.001). Findings of this in vitro study shows a promising new method applicable to treat Hemophilia A. Accordingly, a FVIII secreting transgenic mesenchymal stem cell study will be initiated in FVIII knock-out animal model.