AAV Gene Repair of HT1

Adeno-Assocciated Virus Gene Repair Corrects a Mouse Model of Hereditary Tyrosinemia In Vivo

Paulk et. al., 2010

– Study Summary

Nicole K. Paulk,  Karsten Wursthorn,  Zhongya Wang,  Milton J. Finegold,  Mark A. Kay, and  Markus Grompe

 2010 Apr;51(4):1200-8. doi: 10.1002/hep.23481.

Adeno-associated virus (AAV) vectors are ideal for performing gene repair due to their ability to target multiple different genomic loci, low immunogenicity, capability to achieve targeted and stable expression through integration, and low mutagenic and oncogenic potential. However, many handicaps to gene repair therapy remain. Most notable is the low frequency of correction in vivo. To date, this frequency is too low to be of therapeutic value for any disease. To address this, a point-mutation– based mouse model of the metabolic disease hereditary tyrosinemia type I was used to test whether targeted AAV integration by homologous recombination could achieve highlevel stable gene repair in vivo. Both neonatal and adult mice were treated with AAV serotypes 2 and 8 carrying a wild-type genomic sequence for repairing the mutated Fah (fumarylacetoacetate hydrolase) gene. Hepatic gene repair was quantified by immunohistochemistry and supported with reverse transcription polymerase chain reaction and serology for functional correction parameters. Successful gene repair was observed with both serotypes but was more efficient with AAV8. Correction frequencies of up to 10−3 were achieved and highly reproducible within typical dose ranges. In this model, repaired hepatocytes have a selective growth advantage and are thus able to proliferate to efficiently repopulate mutant livers and cure the underlying metabolic disease.

PUT OUR EXPERIENCE TO WORK FOR YOU

Subscribe For News and Information

Join our mailing list to receive the latest news and updates, sales promotions, and job opportunies.

You have Successfully Subscribed!