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Abstract

Elena Tonetto, Maria Francesca Testa, Rebecca Tarantino, Laura Peretto, Mirko Pinotti, Alessio Branchini

2022Research and Practice in Thrombosis and Haemostasis36 citationsDOIOpen Access PDF

Abstract

Background. In hemophilia with inhibitors, by-passing agents are aimed at increasing thrombin generation efficiency by restoring or boosting the activation of factor X (FX). However, although activated FX (FXa) should be the ideal therapeutic molecule, it is rapidly inhibited and displays very short half-life in vivo. In this context, the availability of a by-passing FX zymogen molecule would be of great relevance, with potentially low immunogenicity due to the presence of circulating FX in patients.
\nAims. To develop a novel hyper-activatable engineered FX variant (FXHA-BP, patent application in progress) able to by-pass the defective intrinsic pathway in hemophilia plasma.
\nMethods. The expression plasmid for the FXHA-BP variant was produced by site-directed mutagenesis of wild-type FX (FXwt) cDNA and transiently transfected into HEK293 cells. Secreted FX protein levels were evaluated by ELISA. Activity was assessed by PT-based (FX-deficient plasma) and aPTT-based (hemophilia A plasma) assays.
\nResults. The FXHA-BP variant was secreted at appreciable levels from transiently transfected HEK293 cells. As compared to FXwt, the specific activity of FXHA-BP was slightly increased in FX-deficient plasma (1.5±0.4 fold; p=0.0414) in PT-based assays. Importantly, upon intrinsic activation in aPTT-based assays, addition of 500 ng/ml FXHA-BP to hemophilia A plasma significantly shortened coagulation times (105±2 sec) over the baseline (118±4 sec; p<0.0001), whereas addition of an equivalent amount of FXwt, used as control, resulted in negligible effects (117±4 sec; p<0.0001). These data demonstrated the by-passing activity of the FXHA-BP variant even at the relatively low concentrations obtained after transient expression.
\nConclusions. Through rational engineering we created a novel improved FX variant acting as a by-passing agent in hemophilia plasma. The FXHA-BP molecule will be further engineered to prolong its half-life, with the aim of developing an extended half-life by-passing variant that might represent a novel therapeutic tool for hemophilia with inhibitors.

Topics & Concepts

Political scienceHemophilia Treatment and ResearchBlood Coagulation and Thrombosis MechanismsMonoclonal and Polyclonal Antibodies Research
Abstract | Litcius