Muscle-directed AAV gene therapy rescues the maple syrup urine disease phenotype in a mouse model
- PMID: 34454844
- DOI: 10.1016/j.ymgme.2021.08.003
Muscle-directed AAV gene therapy rescues the maple syrup urine disease phenotype in a mouse model
Abstract
Maple syrup urine disease (MSUD) is a rare, inherited metabolic disorder characterized by a dysfunctional mitochondrial enzyme complex, branched-chain alpha-keto acid dehydrogenase (BCKDH), which catabolizes branched-chain amino acids (BCAAs). Without functional BCKDH, BCAAs and their neurotoxic alpha-keto intermediates can accumulate in the blood and tissues. MSUD is currently incurable and treatment is limited to dietary restriction or liver transplantation, meaning there is a great need to develop new treatments for MSUD. We evaluated potential gene therapy applications for MSUD in the intermediate MSUD (iMSUD) mouse model, which harbors a mutation in the dihydrolipoamide branched-chain transacylase E2 (DBT) subunit of BCKDH. Systemic delivery of an adeno-associated virus (AAV) vector expressing DBT under control of the liver-specific TBG promoter to the liver did not sufficiently ameliorate all aspects of the disease phenotype. These findings necessitated an alternative therapeutic strategy. Muscle makes a larger contribution to BCAA metabolism than liver in humans, but a muscle-specific approach involving a muscle-specific promoter for DBT expression delivered via intramuscular (IM) administration only partially rescued the MSUD phenotype in mice. Combining the muscle-tropic AAV9 capsid with the ubiquitous CB7 promoter via IM or IV injection, however, substantially increased survival across all assessed doses. Additionally, near-normal serum BCAA levels were achieved and maintained in the mid- and high-dose cohorts throughout the study; this approach also protected these mice from a lethal high-protein diet challenge. Therefore, administration of a gene therapy vector that expresses in both muscle and liver may represent a viable approach to treating patients with MSUD.
Keywords: Animal model; Branched-chain amino acids; Gene therapy; High protein diet; Intramuscular; Maple syrup urine disease.
Copyright © 2021 Elsevier Inc. All rights reserved.
Conflict of interest statement
Conflict of interest statement The authors declare having potential competing financial interests. JMW is a paid advisor to and holds equity in Scout Bio and Passage Bio; he also has sponsored research agreements with Amicus Therapeutics, Biogen, Elaaj Bio, FA212, Janssen, Passage Bio, and Scout Bio, which are licensees of Penn technology. He also has a sponsored research agreement with G2 Bio. JMW holds equity in the G2 Bio-associated asset companies. JMW and JAG are inventors on patents that have been licensed to various biopharmaceutical companies and for which they may receive payments.
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