Neonatal gene therapy achieves sustained disease rescue of maple syrup urine disease in mice

Clément Pontoizeau; Marcelo Simon-Sola; Clovis Gaborit; Vincent Nguyen; Irina Rotaru; Nolan Tual; Pasqualina Colella; Muriel Girard; Maria-Grazia Biferi; Jean-Baptiste Arnoux; Agnès Rötig; Chris Ottolenghi; Pascale de Lonlay; Federico Mingozzi; Marina Cavazzana; Manuel Schiff

doi:10.1038/s41467-022-30880-w

Neonatal gene therapy achieves sustained disease rescue of maple syrup urine disease in mice

Nat Commun. 2022 Jun 7;13(1):3278. doi: 10.1038/s41467-022-30880-w.

Authors

Clément Pontoizeau^{1

2

3}, Marcelo Simon-Sola⁴, Clovis Gaborit⁴, Vincent Nguyen⁴, Irina Rotaru⁴, Nolan Tual⁴, Pasqualina Colella⁵, Muriel Girard^{6

7}, Maria-Grazia Biferi⁸, Jean-Baptiste Arnoux⁹, Agnès Rötig⁴, Chris Ottolenghi^{10

9

4}, Pascale de Lonlay^{9

7}, Federico Mingozzi⁵, Marina Cavazzana^{4

11}, Manuel Schiff^{12

13}

Affiliations

¹ Necker Hospital, APHP, Biochemistry, Metabolomics Unit, Paris Cité University, Paris, France. clement.pontoizeau@aphp.fr.
² Necker Hospital, APHP, Reference Center for Inborn Error of Metabolism, Pediatrics Department, Paris Cité University, Filière G2M, Paris, France. clement.pontoizeau@aphp.fr.
³ Inserm UMR_S1163, Institut Imagine, Paris, France. clement.pontoizeau@aphp.fr.
⁴ Inserm UMR_S1163, Institut Imagine, Paris, France.
⁵ Généthon INTEGRARE UMR-S951, University of Evry, Evry, France.
⁶ Necker Hospital, APHP, Pediatric Hepatology Unit, Pediatrics Department, Paris Cité University, Paris, France.
⁷ Inserm U1151, Institut Necker Enfants Malades, Paris, France.
⁸ Sorbonne University, Inserm, Institute of Myology, Centre of Research in Myology, Paris, France.
⁹ Necker Hospital, APHP, Reference Center for Inborn Error of Metabolism, Pediatrics Department, Paris Cité University, Filière G2M, Paris, France.
¹⁰ Necker Hospital, APHP, Biochemistry, Metabolomics Unit, Paris Cité University, Paris, France.
¹¹ Necker Hospital, APHP, Biotherapies Department, Paris Cité University, Paris, France.
¹² Necker Hospital, APHP, Reference Center for Inborn Error of Metabolism, Pediatrics Department, Paris Cité University, Filière G2M, Paris, France. manuel.schiff@aphp.fr.
¹³ Inserm UMR_S1163, Institut Imagine, Paris, France. manuel.schiff@aphp.fr.

Abstract

Maple syrup urine disease (MSUD) is a rare recessively inherited metabolic disorder causing accumulation of branched chain amino acids leading to neonatal death, if untreated. Treatment for MSUD represents an unmet need because the current treatment with life-long low-protein diet is challenging to maintain, and despite treatment the risk of acute decompensations and neuropsychiatric symptoms remains. Here, based on significant liver contribution to the catabolism of the branched chain amino acid leucine, we develop a liver-directed adeno-associated virus (AAV8) gene therapy for MSUD. We establish and characterize the Bckdha (branched chain keto acid dehydrogenase a)^-/- mouse that exhibits a lethal neonatal phenotype mimicking human MSUD. Animals were treated at P0 with intravenous human BCKDHA AAV8 vectors under the control of either a ubiquitous or a liver-specific promoter. BCKDHA gene transfer rescued the lethal phenotype. While the use of a ubiquitous promoter fully and sustainably rescued the disease (long-term survival, normal phenotype and correction of biochemical abnormalities), liver-specific expression of BCKDHA led to partial, though sustained rescue. Here we show efficacy of gene therapy for MSUD demonstrating its potential for clinical translation.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

3-Methyl-2-Oxobutanoate Dehydrogenase (Lipoamide) / genetics
3-Methyl-2-Oxobutanoate Dehydrogenase (Lipoamide) / metabolism
Amino Acids, Branched-Chain / metabolism
Animals
Genetic Therapy
Maple Syrup Urine Disease* / diagnosis
Maple Syrup Urine Disease* / genetics
Maple Syrup Urine Disease* / therapy
Mice
Phenotype

Substances

Amino Acids, Branched-Chain
3-Methyl-2-Oxobutanoate Dehydrogenase (Lipoamide)