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

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

doi:10.1172/jci.insight.89371

Cited by 30 publications

(36 citation statements)

References 73 publications

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“…Importantly, the levels of light chain may be under-estimated owing to the short in vivo half-life of the light chain alone. Future experiments will indicate whether the use of mRNA encoding FVIII lacking the furin cleavage site 39,40 between the heavy and light chains, or FVIII mutants with increased FVIII A2 subunit stability 41 yields FVIII with improved specific activity. An alternative and non-exclusive explanation for the poor specific activity of the endogenously produced FVIII is the fact that the TransIT® used to formulate the mRNA does not target particular cell types.…”

Section: Discussionmentioning

confidence: 99%

“…Further work will indicate whether targeting mRNA delivery to hepatocytes or to endothelial cells using improved lipid nanoparticle-based formulating agents, 50 using mRNA encoding single chain or A2 variant stable FVIII 39,40,41 and including miRNA target sequences to prevent off-target expression in hematopoietic cells 51 are plausible strategies to improve the specific activity and reduce the immunogenicity of the endogenously produced molecule. For quantitation of the FVIII light chain in mouse plasma (which represents both the active and inactive levels of FVIII), plates were coated with the human anti-C2 monoclonal IgG BO2C11 (a kind gift from Prof Saint-Remy and Jacquemin, KUL, Leuven, Belgium) and the light chain was recognized with biotinylated EHS-8.…”

Section: Discussionmentioning

confidence: 99%

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Correction of bleeding in experimental severe hemophilia A by systemic delivery of factor VIII-encoding mRNA

et al. 2019

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The treatment or prevention of bleeding in patients with hemophilia A rely on replacement therapy with different factor VIII containing products or on the use of bypassing agents, i.e., activated prothrombin complex concentrates or recombinant activated factor VII. Emerging approaches include the use of bispecific anti-factor IXa/factor X antibodies, anti-Tissue Factor Pathway Inhibitor antibodies, interfering RNA to antithrombin, APC-specific serpins or gene therapy. The latter strategies however meet with short term clinical experience and potential adverse effects including the absence of tight temporal and spatial control of coagulation or risk for uncontrolled insertional mutagenesis. The systemic delivery of mRNA allows the endogenous production of the corresponding encoded protein. Thus, injection of lipid nanoparticles-formulated erythropoietin-encoding mRNA resulted in increased erythropoiesis in mice and macaques. Here, we demonstrate that a single injection of in vitro transcribed B domain-deleted factor VIII-encoding mRNA to factor VIII-deficient mice allows the endogenous production of pro-coagulant factor VIII. Circulating FVIII:C levels above 5% of normal levels were maintained for up to 72 hours, with an estimated half-life of factor VIII production of 17.9 hours, and corrected the bleeding phenotype in a tail clipping assay. The endogenously produced factor VIII however exhibited low specific activity and induced a potent neutralizing IgG response upon repeated administration of the mRNA. Our results suggest that the administration of mRNA is a plausible strategy for the endogenous production of proteins characterized by poor translational efficacy. At term, the use of alternative mRNA delivery systems and improved factor VIII-encoding mRNA should foster the production of functional molecules and reduce their immunogenicity.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Correction of bleeding in experimental severe hemophilia A by systemic delivery of factor VIII-encoding mRNA

et al. 2019

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“…There are reports of mutations within FIX or factor VIII (FVIII) genes leading to changes in protein configuration and poor secretion from the producer cells . The role of PACE/furin expression could also be considered as a potential limiting underlying mechanism for low hFIX‐fusion protein secretion . It is intriguing to speculate whether similar observations are made during the large‐scale manufacture of these proteins as recombinant concentrates, though it is possible that changes in secretion pattern of hFIX‐fusion protein may not be detected if the producer cells are lysed prior to purification of the hFIX‐fusion protein.…”

Section: Discussionmentioning

confidence: 99%

Potential limits of AAV‐based gene therapy with the use of new transgenes expressing factor IX fusion proteins

et al. 2018

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Introduction The variety of treatment for haemophilia B (HB) has recently improved with the emergence of both AAV‐based gene therapy and bioengineered human factor IX (hFIX) molecules with prolonged half‐life due to fusion to either albumin (Alb) or immunoglobulin Fc fragment (Fc). Aim Adeno‐associated viral vectors (AAV) mediating expression of hFIX‐Alb and hFIX‐Fc fusion proteins was investigated for gene therapy of HB to explore if their extended half‐life translates to higher plasma levels of FIX. Methods Single‐stranded cross‐packaged AAV2/8 vectors expressing hFIX‐Alb, hFIX‐Fc and hFIX were evaluated in vitro, and in mice. Results Both hFIX‐Alb and hFIX‐Fc fusion proteins were synthesized and expressed as single chains of expected size following AAV‐mediated gene transfer in vitro and in vivo. The procoagulant properties of these hFIX‐fusion proteins were comparable to wild‐type hFIX. However, their expression levels were threefold lower than wild‐type hFIX in vivo most likely due to inefficient secretion. Conclusion This, the first, evaluation of hFIX‐fusion proteins in the context of AAV gene transfer suggests that the hFIX‐fusion proteins are secreted inefficiently from the liver, thus preventing their optimal use in gene therapy approaches.

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“…The development of a codon‐optimized human FVIII cDNA in which a variant of a B‐domain deleted replaces the whole B domain with the liver‐specific promoter has improved expression efficacy and packaging in an AAV vector . Increased FVIII expression has been reported in in‐vivo gene expression experiments conducted in mice and non‐human primates …”

Section: Current Gene Therapy Clinical Trials For Haemophilia Amentioning

confidence: 99%

Clinical advances in gene therapy updates on clinical trials of gene therapy in haemophilia

Peyvandi

Garagiola

2019

Haemophilia

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Replacement therapy of the deficient coagulation factor using plasmaderived or recombinant concentrates is the mainstay of treatment for patients with haemophilia A and B, the most severe bleeding disorders. 1 Significant improvements have been achieved through the production of novel extended half-life products or non-replacement therapies. 2 These new drugs could overcome current prophylaxis limitations by reducing dosing frequency and changing the routes of administration (from intravenous infusions to subcutaneous injections), thereby improving compliance and rendering therapy less distressing for the patient. 3 A definitive cure for haemophilia may lie in gene therapy.Haemophilia A and B are an ideal target for gene therapy because both are monogenic disorders caused by genetic defects in the F8 and F9 genes, respectively. In addition, a modest increase in clotting factor activity (>1 IU/dL) can substantially attenuate bleeding risk, and even treatment efficacy can be assessed easily by routine laboratory assay. AbstractGene therapy is rapidly becoming a new therapeutic strategy for haemophilia A and B treatment. In the 1990s, studies in animal models showed that adeno-associated vectors (AAV) exhibited an efficient expression of factor IX (FIX). In the first clinical trial in patients with haemophilia B, therapeutic levels of FIX were documented but the expression remained only for few weeks. Subsequently, improvements in vector design, such as the use of different AAV serotypes, the development of the self-complementary vector, the engineering of the transgene with codon optimization and liver-specific expression cassette resulted in circulating FIX level between 2% and 5% for long-lasting period. Recently, a natural gain of function FIX variant (Padua) inserted in the F9 cDNA improved the expression of FIX achieving a level of more than 30% resulting in cessation of infusions and in a greatly reduction of bleeding events.Encouraging clinical progresses have been also obtained from trials of gene therapy for haemophilia A. Transgene expression persisted for three years with circulating FVIII activity levels of 52.3% in patients treated with AAV vector containing a codonoptimized F8 cDNA. A complication, reported in both clinical trials for haemophilia A and B, was the elevation of liver enzymes, which resolved with steroid treatment in a large group of patients. However, to date, the pathophysiological mechanism for the liver toxicity remains still unclear. Clinical trials with adeno-associated vectors have documented a significant success for haemophilia gene therapy demonstrating potential to transform haemophilia treatment offering hope for a long-term expression. K E Y W O R D Sadeno-associated virus, clinical trials, factor IX, factor VIII, gene therapy, haemophilia

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

Cited by 30 publications

References 73 publications

Correction of bleeding in experimental severe hemophilia A by systemic delivery of factor VIII-encoding mRNA

Correction of bleeding in experimental severe hemophilia A by systemic delivery of factor VIII-encoding mRNA

Potential limits of AAV‐based gene therapy with the use of new transgenes expressing factor IX fusion proteins

Clinical advances in gene therapy updates on clinical trials of gene therapy in haemophilia

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