Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1

Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1

Primary hyperoxaluria type 1 (PH1) is a rare autosomal recessive disorder of the liver metabolism due to functional deficiency of the peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT). AGT deficiency results in overproduction of oxalate which complexes with calcium to form insoluble calci...

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Main Authors: Julie Estève, Jean-Marc Blouin, Magalie Lalanne, Lamia Azzi-Martin, Pierre Dubus, Audrey Bidet, Jérôme Harambat, Brigitte Llanas, Isabelle Moranvillier, Aurélie Bedel, François Moreau-Gaudry, Emmanuel Richard
Format: Article
Language:English
Published: Elsevier 2019-07-01
Series:Stem Cell Research
Online Access:http://www.sciencedirect.com/science/article/pii/S1873506119300972
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spelling doaj-476d4c6bd93d4628976d502a4aa2a62c2020-11-25T00:47:47ZengElsevierStem Cell Research1873-50612019-07-0138Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1Julie Estève0Jean-Marc Blouin1Magalie Lalanne2Lamia Azzi-Martin3Pierre Dubus4Audrey Bidet5Jérôme Harambat6Brigitte Llanas7Isabelle Moranvillier8Aurélie Bedel9François Moreau-Gaudry10Emmanuel Richard11Univ.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BARITON, U1053, CHU Bordeaux, 33076, FranceUniv.Bordeaux, INSERM, BARITON, U1053, CHU Bordeaux, 33076, FranceLaboratoire d'hématologie, CHU Bordeaux, Bordeaux, FranceService de Néphrologie pédiatrique, Centre de Référence Maladies Rénales Rares du Sud-Ouest, CHU Bordeaux, 33000 Bordeaux, FranceService de Néphrologie pédiatrique, Centre de Référence Maladies Rénales Rares du Sud-Ouest, CHU Bordeaux, 33000 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, FranceUniv.Bordeaux, INSERM, BMGIC, U1035, CHU Bordeaux, 33076 Bordeaux, France; Corresponding author at: Université de Bordeaux, INSERM U1035, 146 rue Léo Saignat, Bordeaux 33076, France.Primary hyperoxaluria type 1 (PH1) is a rare autosomal recessive disorder of the liver metabolism due to functional deficiency of the peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT). AGT deficiency results in overproduction of oxalate which complexes with calcium to form insoluble calcium-oxalate salts in urinary tracts, ultimately leading to end-stage renal disease. Currently, the only curative treatment for PH1 is combined liver-kidney transplantation, which is limited by donor organ shortage and lifelong requirement for immunosuppression. Transplantation of genetically modified autologous hepatocytes is an attractive therapeutic option for PH1. However, the use of fresh primary hepatocytes suffers from limitations such as organ availability, insufficient cell proliferation, loss of function, and the risk of immune rejection. We developed patient-specific induced pluripotent stem cells (PH1-iPSCs) free of reprogramming factors as a source of renewable and genetically defined autologous PH1-hepatocytes. We then investigated additive gene therapy using a lentiviral vector encoding wild-type AGT under the control of the liver-specific transthyretin promoter. Genetically modified PH1-iPSCs successfully provided hepatocyte-like cells (HLCs) that exhibited significant AGT expression at both RNA and protein levels after liver-specific differentiation process. These results pave the way for cell-based therapy of PH1 by transplantation of genetically modified autologous HLCs derived from patient-specific iPSCs. Keywords: Hyperoxaluria, Induced pluripotent stem cell, Gene therapy, Hepatic differentiation, Lentiviral vectorhttp://www.sciencedirect.com/science/article/pii/S1873506119300972
collection DOAJ
language English
format Article
sources DOAJ
author Julie Estève
Jean-Marc Blouin
Magalie Lalanne
Lamia Azzi-Martin
Pierre Dubus
Audrey Bidet
Jérôme Harambat
Brigitte Llanas
Isabelle Moranvillier
Aurélie Bedel
François Moreau-Gaudry
Emmanuel Richard
spellingShingle Julie Estève
Jean-Marc Blouin
Magalie Lalanne
Lamia Azzi-Martin
Pierre Dubus
Audrey Bidet
Jérôme Harambat
Brigitte Llanas
Isabelle Moranvillier
Aurélie Bedel
François Moreau-Gaudry
Emmanuel Richard
Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
Stem Cell Research
author_facet Julie Estève
Jean-Marc Blouin
Magalie Lalanne
Lamia Azzi-Martin
Pierre Dubus
Audrey Bidet
Jérôme Harambat
Brigitte Llanas
Isabelle Moranvillier
Aurélie Bedel
François Moreau-Gaudry
Emmanuel Richard
author_sort Julie Estève
title Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
title_short Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
title_full Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
title_fullStr Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
title_full_unstemmed Generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
title_sort generation of induced pluripotent stem cells-derived hepatocyte-like cells for ex vivo gene therapy of primary hyperoxaluria type 1
publisher Elsevier
series Stem Cell Research
issn 1873-5061
publishDate 2019-07-01
description Primary hyperoxaluria type 1 (PH1) is a rare autosomal recessive disorder of the liver metabolism due to functional deficiency of the peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT). AGT deficiency results in overproduction of oxalate which complexes with calcium to form insoluble calcium-oxalate salts in urinary tracts, ultimately leading to end-stage renal disease. Currently, the only curative treatment for PH1 is combined liver-kidney transplantation, which is limited by donor organ shortage and lifelong requirement for immunosuppression. Transplantation of genetically modified autologous hepatocytes is an attractive therapeutic option for PH1. However, the use of fresh primary hepatocytes suffers from limitations such as organ availability, insufficient cell proliferation, loss of function, and the risk of immune rejection. We developed patient-specific induced pluripotent stem cells (PH1-iPSCs) free of reprogramming factors as a source of renewable and genetically defined autologous PH1-hepatocytes. We then investigated additive gene therapy using a lentiviral vector encoding wild-type AGT under the control of the liver-specific transthyretin promoter. Genetically modified PH1-iPSCs successfully provided hepatocyte-like cells (HLCs) that exhibited significant AGT expression at both RNA and protein levels after liver-specific differentiation process. These results pave the way for cell-based therapy of PH1 by transplantation of genetically modified autologous HLCs derived from patient-specific iPSCs. Keywords: Hyperoxaluria, Induced pluripotent stem cell, Gene therapy, Hepatic differentiation, Lentiviral vector
url http://www.sciencedirect.com/science/article/pii/S1873506119300972
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