Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A

Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A

The delivery of factor VIII (FVIII) through gene and/or cellular platforms has emerged as a promising hemophilia A treatment. Herein, we investigated the suitability of human placental cells (PLCs) as delivery vehicles for FVIII and determined an optimal FVIII transgene to produce/secrete therapeuti...

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Main Authors: Nadia El-Akabawy, Martin Rodriguez, Ritu Ramamurthy, Andrew Rabah, Brady Trevisan, Alshaimaa Morsi, Sunil George, Jordan Shields, Diane Meares, Andrew Farland, Anthony Atala, Christopher B. Doering, H. Trent Spencer, Christopher D. Porada, Graça Almeida-Porada
Format: Article
Language:English
Published: Elsevier 2020-06-01
Series:Molecular Therapy: Methods & Clinical Development
Subjects:
hemophilia A
FVIII
gene therapy
cell therapy
ET3
HSQ
Online Access:http://www.sciencedirect.com/science/article/pii/S2329050120300310
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language English
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author Nadia El-Akabawy
Martin Rodriguez
Ritu Ramamurthy
Andrew Rabah
Brady Trevisan
Alshaimaa Morsi
Sunil George
Jordan Shields
Diane Meares
Andrew Farland
Anthony Atala
Christopher B. Doering
H. Trent Spencer
Christopher D. Porada
Graça Almeida-Porada
spellingShingle Nadia El-Akabawy
Martin Rodriguez
Ritu Ramamurthy
Andrew Rabah
Brady Trevisan
Alshaimaa Morsi
Sunil George
Jordan Shields
Diane Meares
Andrew Farland
Anthony Atala
Christopher B. Doering
H. Trent Spencer
Christopher D. Porada
Graça Almeida-Porada
Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
Molecular Therapy: Methods & Clinical Development
hemophilia A
FVIII
gene therapy
cell therapy
ET3
HSQ
author_facet Nadia El-Akabawy
Martin Rodriguez
Ritu Ramamurthy
Andrew Rabah
Brady Trevisan
Alshaimaa Morsi
Sunil George
Jordan Shields
Diane Meares
Andrew Farland
Anthony Atala
Christopher B. Doering
H. Trent Spencer
Christopher D. Porada
Graça Almeida-Porada
author_sort Nadia El-Akabawy
title Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
title_short Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
title_full Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
title_fullStr Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
title_full_unstemmed Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia A
title_sort defining the optimal fviii transgene for placental cell-based gene therapy to treat hemophilia a
publisher Elsevier
series Molecular Therapy: Methods & Clinical Development
issn 2329-0501
publishDate 2020-06-01
description The delivery of factor VIII (FVIII) through gene and/or cellular platforms has emerged as a promising hemophilia A treatment. Herein, we investigated the suitability of human placental cells (PLCs) as delivery vehicles for FVIII and determined an optimal FVIII transgene to produce/secrete therapeutic FVIII levels from these cells. Using three PLC cell banks we demonstrated that PLCs constitutively secreted low levels of FVIII, suggesting their suitability as a transgenic FVIII production platform. Furthermore, PLCs significantly increased FVIII secretion after transduction with a lentiviral vector (LV) encoding a myeloid codon-optimized bioengineered FVIII containing high-expression elements from porcine FVIII. Importantly, transduced PLCs did not upregulate cellular stress or innate immunity molecules, demonstrating that after transduction and FVIII production/secretion, PLCs retained low immunogenicity and cell stress. When LV encoding five different bioengineered FVIII transgenes were compared for transduction efficiency, FVIII production, and secretion, data showed that PLCs transduced with LV encoding hybrid human/porcine FVIII transgenes secreted substantially higher levels of FVIII than did LV encoding B domain-deleted human FVIII. In addition, data showed that in PLCs, myeloid codon optimization is needed to increase FVIII secretion to therapeutic levels. These studies have identified an optimal combination of FVIII transgene and cell source to achieve clinically meaningful levels of secreted FVIII.
topic hemophilia A
FVIII
gene therapy
cell therapy
ET3
HSQ
url http://www.sciencedirect.com/science/article/pii/S2329050120300310
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spelling doaj-921693f95a664e1dbedad0c986f3c1d32020-11-25T03:08:36ZengElsevierMolecular Therapy: Methods & Clinical Development2329-05012020-06-0117465477Defining the Optimal FVIII Transgene for Placental Cell-Based Gene Therapy to Treat Hemophilia ANadia El-Akabawy0Martin Rodriguez1Ritu Ramamurthy2Andrew Rabah3Brady Trevisan4Alshaimaa Morsi5Sunil George6Jordan Shields7Diane Meares8Andrew Farland9Anthony Atala10Christopher B. Doering11H. Trent Spencer12Christopher D. Porada13Graça Almeida-Porada14Wake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USA; Zagazig University Faculty of Medicine, Zagazig, EgyptWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USA; Zagazig University Faculty of Medicine, Zagazig, EgyptWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAAflac Cancer and Blood Disorders Center, Children’s Healthcare of Atlanta, Atlanta, GA, USA; Department of Pediatrics, Emory University, Atlanta, GA, USASpecial Hematology Laboratory, Wake Forest School of Medicine, Winston-Salem, NC 27157, USASpecial Hematology Laboratory, Wake Forest School of Medicine, Winston-Salem, NC 27157, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAAflac Cancer and Blood Disorders Center, Children’s Healthcare of Atlanta, Atlanta, GA, USA; Department of Pediatrics, Emory University, Atlanta, GA, USAAflac Cancer and Blood Disorders Center, Children’s Healthcare of Atlanta, Atlanta, GA, USA; Department of Pediatrics, Emory University, Atlanta, GA, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USAWake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, Winston-Salem, NC 27101, USA; Corresponding author: Graça Almeida-Porada, Wake Forest Institute for Regenerative Medicine, Fetal Research and Therapy Program, Wake Forest School of Medicine, 391 Technology Way, Winston-Salem, NC 27157-1083, USA.The delivery of factor VIII (FVIII) through gene and/or cellular platforms has emerged as a promising hemophilia A treatment. Herein, we investigated the suitability of human placental cells (PLCs) as delivery vehicles for FVIII and determined an optimal FVIII transgene to produce/secrete therapeutic FVIII levels from these cells. Using three PLC cell banks we demonstrated that PLCs constitutively secreted low levels of FVIII, suggesting their suitability as a transgenic FVIII production platform. Furthermore, PLCs significantly increased FVIII secretion after transduction with a lentiviral vector (LV) encoding a myeloid codon-optimized bioengineered FVIII containing high-expression elements from porcine FVIII. Importantly, transduced PLCs did not upregulate cellular stress or innate immunity molecules, demonstrating that after transduction and FVIII production/secretion, PLCs retained low immunogenicity and cell stress. When LV encoding five different bioengineered FVIII transgenes were compared for transduction efficiency, FVIII production, and secretion, data showed that PLCs transduced with LV encoding hybrid human/porcine FVIII transgenes secreted substantially higher levels of FVIII than did LV encoding B domain-deleted human FVIII. In addition, data showed that in PLCs, myeloid codon optimization is needed to increase FVIII secretion to therapeutic levels. These studies have identified an optimal combination of FVIII transgene and cell source to achieve clinically meaningful levels of secreted FVIII.http://www.sciencedirect.com/science/article/pii/S2329050120300310hemophilia AFVIIIgene therapycell therapyET3HSQ

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