Hyperactivity of factor IX Padua (R338L) depends on factor VIIIa cofactor activity
Benjamin J. Samelson-Jones, Jonathan D. Finn, Lindsey A. George, Rodney M. Camire, Valder R. Arruda
Benjamin J. Samelson-Jones, Jonathan D. Finn, Lindsey A. George, Rodney M. Camire, Valder R. Arruda
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Research Article Hematology

Hyperactivity of factor IX Padua (R338L) depends on factor VIIIa cofactor activity

Abstract

Adeno-associated virus (AAV) vector liver-directed gene therapy (GT) for hemophilia B (HB) is limited by a vector dose–dependent hepatotoxicity. Recently, this obstacle has been partially circumvented by the use of a hyperactive factor IX (FIX) variant, R338L (Padua), which has an 8-fold increased specific activity compared with FIX-WT. FIX-R338L has emerged as the standard for HB GT. However, the underlying mechanism of its hyperactivity is undefined; as such, safety concerns of unregulated coagulation and the potential for thrombotic complications have not been fully addressed. To this end, we evaluated the enzymatic and clotting activity as well as the activation, inactivation, and cofactor dependence of FIX-R338L relative to FIX-WT. We observed that the high specific activity of FIX-R338L requires factor VIIIa (FVIIIa) cofactor. In a potentially novel system using emicizumab, an FVIII-mimicking bispecific antibody, the hyperactivity of both recombinant FIX-R338L and AAV-mediated transgene-expressed FIX-R338L from HB GT subjects was ablated without FVIIIa activity. We conclude that the molecular regulation of activation, inactivation, and cofactor dependence of FIX-R338L is similar to FIX-WT but that the FVIIIa-dependent hyperactivity of FIX-R338L is the result of a faster rate of factor X activation. This mechanism helps mitigate safety concerns of unregulated coagulation and supports the expanded use of FIX-R338L in HB therapy.

Authors

Benjamin J. Samelson-Jones, Jonathan D. Finn, Lindsey A. George, Rodney M. Camire, Valder R. Arruda

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Figure 2

Activation and inactivation of rFIX/FIXa–WT and rFIX/FIXa-R338L.

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Activation and inactivation of rFIX/FIXa–WT and rFIX/FIXa-R338L. (A) The...
(A) The rate of activation of FIX-WT and FIX-R338L by FXIa (30 pM) was determined by Western blotting. The amount of FIXa generated as a function of time starting with 100 or 12.5 nM FIX as indicated. The x axis scale is logarithmic for clarity. Each point is the determined [FIXa], and the error bars represent the standard error of the proportionality constants as detailed in Methods. Solid lines are exponential fittings. (B) Enzyme kinetics of FXIa activation of FIX-WT and FIX-R338L. Each data point represents the mean of the determined rate of FIXa formation and FIX decay, and the error bars show ± SD. Solid lines are Michaelis-Menten equation fittings. (C) Inactivation of FIXa-WT and FIXa-R338L by AT. FIXa-WT and FIXa-R338L protein (500 nM) was incubated with and without 2 μM AT. Pseudo–first order rate constants of FIXa-WT and FIXa-R338L inhibition by AT were determined by single-exponential fitting (R2 > 0.95) of residual FIXa activity.