Circumventing furin enhances factor VIII biological activity and ameliorates bleeding phenotypes in hemophilia models
Joshua I. Siner, Benjamin J. Samelson-Jones, Julie M. Crudele, Robert A. French, Benjamin J. Lee, Shanzhen Zhou, Elizabeth Merricks, Robin Raymer, Timothy C. Nichols, Rodney M. Camire, Valder R. Arruda
Joshua I. Siner, Benjamin J. Samelson-Jones, Julie M. Crudele, Robert A. French, Benjamin J. Lee, Shanzhen Zhou, Elizabeth Merricks, Robin Raymer, Timothy C. Nichols, Rodney M. Camire, Valder R. Arruda
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Research Article Hematology Therapeutics

Circumventing furin enhances factor VIII biological activity and ameliorates bleeding phenotypes in hemophilia models

Abstract

Processing by the proprotein convertase furin is believed to be critical for the biological activity of multiple proteins involved in hemostasis, including coagulation factor VIII (FVIII). This belief prompted the retention of the furin recognition motif (amino acids 1645–1648) in the design of B-domain–deleted FVIII (FVIII-BDD) products in current clinical use and in the drug development pipeline, as well as in experimental FVIII gene therapy strategies. Here, we report that processing by furin is in fact deleterious to FVIII-BDD secretion and procoagulant activity. Inhibition of furin increases the secretion and decreases the intracellular retention of FVIII-BDD protein in mammalian cells. Our new variant (FVIII-ΔF), in which this recognition motif is removed, efficiently circumvents furin. FVIII-ΔF demonstrates increased recombinant protein yields, enhanced clotting activity, and higher circulating FVIII levels after adeno-associated viral vector–based liver gene therapy in a murine model of severe hemophilia A (HA) compared with FVIII-BDD. Moreover, we observed an amelioration of the bleeding phenotype in severe HA dogs with sustained therapeutic FVIII levels after FVIII-ΔF gene therapy at a lower vector dose than previously employed in this model. The immunogenicity of FVIII-ΔF did not differ from that of FVIII-BDD as a protein or a gene therapeutic. Thus, contrary to previous suppositions, FVIII variants that can avoid furin processing are likely to have enhanced translational potential for HA therapy.

Authors

Joshua I. Siner, Benjamin J. Samelson-Jones, Julie M. Crudele, Robert A. French, Benjamin J. Lee, Shanzhen Zhou, Elizabeth Merricks, Robin Raymer, Timothy C. Nichols, Rodney M. Camire, Valder R. Arruda

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Figure 4

Biochemical characterization of recombinant human factor VIII-ΔF (hFVIII-ΔF) compared with hFVIII-BDD.

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Biochemical characterization of recombinant human factor VIII-ΔF (hFVIII...
(A) SDS-PAGE analysis of 3 μg of purified recombinant hFVIII-BDD and hFVIII-ΔF staining with Coomassie blue before (−) or after (+) activation with 20 nM thrombin. Identified protein species are single chain (SC), heavy chain (HC), and light chain (LC). (B) Quantification of percentage single-chain of each hFVIII variant by densitometric analysis of SDS-PAGE. Each data point represents a distinct measurement. Similar results were obtained with at least 2 distinct protein preparations. (C) hFVIII clotting activity was determined by 1-stage or 2-stage clotting assay. Each data point represents a distinct dilution. Similar results were obtained with at least 2 distinct protein preparations. (D) Decay of activated hFVIII variants following thrombin activation. Residual activity was determined by 2-stage clotting assay and normalized by the 0 time point. Error bars represent SEM of at least 3 separate dilutions. Lines are single-exponential fittings. The half-lives of activated hFVIII-ΔF and hFVIII-BDD are 2.4 ± 0.3 minutes (R2 = 0.96) and 0.91 ± 0.2 minutes (R2 = 0.91), respectively. Means were compared by 2-tailed Student’s t test. P values greater than 0.05 were considered not significant (n.s.). Horizontal markers in whisker plots represent the mean and 1 SEM.