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Activity of transgene-produced B-domain–deleted factor VIII in human plasma following AAV5 gene therapy

Activity of transgene-produced B-domain–deleted factor VIII in human plasma following AAV5 gene therapy
Activity of transgene-produced B-domain–deleted factor VIII in human plasma following AAV5 gene therapy
Adeno-associated virus (AAV)-based gene therapies can restore endogenous factor VIII (FVIII) expression in hemophilia A (HA). AAV vectors typically use a B-domain–deleted FVIII transgene, such as human FVIII-SQ in valoctocogene roxaparvovec (AAV5-FVIII-SQ). Surprisingly, the activity of transgene-produced FVIII-SQ was between 1.3 and 2.0 times higher in one-stage clot (OS) assays than in chromogenic-substrate (CS) assays, whereas recombinant FVIII-SQ products had lower OS than CS activity. Transgene-produced and recombinant FVIII-SQ showed comparable specific activity (international units per milligram) in the CS assay, demonstrating that the diverging activities arise in the OS assay. Higher OS activity for transgene-produced FVIII-SQ was observed across various assay kits and clinical laboratories, suggesting that intrinsic molecular features are potential root causes. Further experiments in 2 participants showed that transgene-produced FVIII-SQ accelerated early factor Xa and thrombin formation, which may explain the higher OS activity based on a kinetic bias between OS and CS assay readout times. Despite the faster onset of coagulation, global thrombin levels were unaffected. A correlation with joint bleeds suggested that both OS and CS assay remained clinically meaningful to distinguish hemophilic from nonhemophilic FVIII activity levels. During clinical development, the CS activity was chosen as a surrogate end point to conservatively assess hemostatic efficacy and enable comparison with recombinant FVIII-SQ products. Relevant trials are registered on clinicaltrials.gov as #NCT02576795 and #NCT03370913 and, respectively, on EudraCT (European Union Drug Regulating Authorities Clinical Trials Database; https://eudract.ema.europa.eu) as #2014-003880-38 and #2017-003215-19.
0006-4971
2524-2534
Rosen, Steffen
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Tiefenbacher, Stefan
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Robinson, Mary
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Huang, Mei
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Srimani, Jaydeep
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Mackenzie, Donnie
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Christianson, Terri
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Pasi, K. John
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Rangarajan, Savita
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Symington, Emily
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Giermasz, Adam
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Pierce, Glenn F.
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Kim, Benjamin
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Zoog, Stephen J.
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Vettermann, Christian
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Rosen, Steffen
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Tiefenbacher, Stefan
147171d1-ef0b-4b92-8ccc-4a3ddf525544
Robinson, Mary
7da4179b-c976-4b23-808a-a02012638304
Huang, Mei
c70eee64-3c8c-4285-b853-a827310df4c8
Srimani, Jaydeep
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Mackenzie, Donnie
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Christianson, Terri
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Pasi, K. John
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Rangarajan, Savita
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Symington, Emily
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Giermasz, Adam
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Pierce, Glenn F.
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Kim, Benjamin
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Zoog, Stephen J.
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Vettermann, Christian
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Rosen, Steffen, Tiefenbacher, Stefan, Robinson, Mary, Huang, Mei, Srimani, Jaydeep, Mackenzie, Donnie, Christianson, Terri, Pasi, K. John, Rangarajan, Savita, Symington, Emily, Giermasz, Adam, Pierce, Glenn F., Kim, Benjamin, Zoog, Stephen J. and Vettermann, Christian (2020) Activity of transgene-produced B-domain–deleted factor VIII in human plasma following AAV5 gene therapy. Blood, 136 (22), 2524-2534. (doi:10.1182/blood.2020005683).

Record type: Article

Abstract

Adeno-associated virus (AAV)-based gene therapies can restore endogenous factor VIII (FVIII) expression in hemophilia A (HA). AAV vectors typically use a B-domain–deleted FVIII transgene, such as human FVIII-SQ in valoctocogene roxaparvovec (AAV5-FVIII-SQ). Surprisingly, the activity of transgene-produced FVIII-SQ was between 1.3 and 2.0 times higher in one-stage clot (OS) assays than in chromogenic-substrate (CS) assays, whereas recombinant FVIII-SQ products had lower OS than CS activity. Transgene-produced and recombinant FVIII-SQ showed comparable specific activity (international units per milligram) in the CS assay, demonstrating that the diverging activities arise in the OS assay. Higher OS activity for transgene-produced FVIII-SQ was observed across various assay kits and clinical laboratories, suggesting that intrinsic molecular features are potential root causes. Further experiments in 2 participants showed that transgene-produced FVIII-SQ accelerated early factor Xa and thrombin formation, which may explain the higher OS activity based on a kinetic bias between OS and CS assay readout times. Despite the faster onset of coagulation, global thrombin levels were unaffected. A correlation with joint bleeds suggested that both OS and CS assay remained clinically meaningful to distinguish hemophilic from nonhemophilic FVIII activity levels. During clinical development, the CS activity was chosen as a surrogate end point to conservatively assess hemostatic efficacy and enable comparison with recombinant FVIII-SQ products. Relevant trials are registered on clinicaltrials.gov as #NCT02576795 and #NCT03370913 and, respectively, on EudraCT (European Union Drug Regulating Authorities Clinical Trials Database; https://eudract.ema.europa.eu) as #2014-003880-38 and #2017-003215-19.

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blood.2020005683 - Accepted Manuscript
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Accepted/In Press date: 25 August 2020
e-pub ahead of print date: 11 September 2020
Published date: 26 November 2020
Additional Information: © 2020 by The American Society of Hematology.

Identifiers

Local EPrints ID: 445416
URI: http://eprints.soton.ac.uk/id/eprint/445416
DOI: doi:10.1182/blood.2020005683
ISSN: 0006-4971
PURE UUID: b55cee82-e446-46af-961c-ce5fe1c6abab
ORCID for Savita Rangarajan: ORCID iD orcid.org/0000-0001-7367-133X

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Date deposited: 08 Dec 2020 17:30
Last modified: 17 Mar 2024 06:07

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Contributors

Author: Steffen Rosen
Author: Stefan Tiefenbacher
Author: Mary Robinson
Author: Mei Huang
Author: Jaydeep Srimani
Author: Donnie Mackenzie
Author: Terri Christianson
Author: K. John Pasi
Author: Savita Rangarajan ORCID iD
Author: Emily Symington
Author: Adam Giermasz
Author: Glenn F. Pierce
Author: Benjamin Kim
Author: Stephen J. Zoog
Author: Christian Vettermann

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