Repeated AAV-mediated gene transfer by serotype switching enables long-lasting therapeutic levels of hUgt1a1 enzyme in a mouse model of Crigler-Najjar Syndrome Type I.
L BočkorG BortolussiA IaconcigG ChiaruttiniC TiribelliMauro GiaccaF BenvenutiL ZentilinA F MuroPublished in: Gene therapy (2017)
Adeno-associated virus (AAV) -mediated gene therapy is a promising strategy to treat liver-based monogenic diseases. However, two major obstacles limit its success: first, vector dilution in actively dividing cells, such as hepatocytes in neonates/children, due to the non-integrating nature of the vector; second, development of an immune response against the transgene and/or viral vector. Crigler-Najjar Syndrome Type I is a rare monogenic disease with neonatal onset, caused by mutations in the liver-specific UGT1 gene, with toxic accumulation of unconjugated bilirubin in plasma, tissues and brain. To establish an effective and long lasting cure, we applied AAV-mediated liver gene therapy to a relevant mouse model of the disease. Repeated gene transfer to adults by AAV-serotype switching, upon neonatal administration, resulted in lifelong correction of total bilirubin (TB) levels in both genders. In contrast, vector loss over time was observed after a single neonatal administration. Adult administration resulted in lifelong TB levels correction in male, but not female Ugt1-/- mice. Our findings demonstrate that neonatal AAV-mediated gene transfer to the liver supports a second transfer of the therapeutic vector, by preventing the induction of an immune response and supporting the possibility to improve AAV-therapeutic efficacy by repeated administration.
Keyphrases
- gene therapy
- immune response
- mouse model
- copy number
- genome wide
- genome wide identification
- mycobacterium tuberculosis
- magnetic resonance
- gene expression
- sars cov
- dengue virus
- dendritic cells
- magnetic resonance imaging
- case report
- multiple sclerosis
- klebsiella pneumoniae
- oxidative stress
- inflammatory response
- dna methylation
- electron transfer
- liquid chromatography tandem mass spectrometry
- cell cycle arrest
- insulin resistance
- multidrug resistant
- pi k akt
- cerebral ischemia
- high fat diet induced