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Application of in-vitro-cultured primary hepatocytes to evaluate species translatability and AAV transduction mechanisms of action

Su Liu, Lisa Razon, Olivia Ritchie, Choong‐Ryoul Sihn, Britta Handyside, Geoffrey Y. Berguig, Jill Woloszynek, Lening Zhang, Paul Batty, David Lillicrap, Vishal Agrawal, Christa L. Cortesio, Kahsay Gebretsadik, Hassibullah Akeefe, Peter Colosi, Benjamin Kim, Stuart Bunting, Sylvia Fong

2022Molecular Therapy — Methods & Clinical Development14 citationsDOIOpen Access PDF

Abstract

Recombinant adeno-associated virus (AAV) is an effective platform for therapeutic gene transfer; however, tissue-tropism differences between species are a challenge for successful translation of preclinical results to humans. We evaluated the use of in vitro primary hepatocyte cultures to predict in vivo liver-directed AAV expression in different species. We assessed whether in vitro AAV transduction assays in cultured primary hepatocytes from mice, nonhuman primates (NHPs), and humans could model in vivo liver-directed AAV expression of valoctocogene roxaparvovec (AAV5-hFVIII-SQ), an experimental gene therapy for hemophilia A with a hepatocyte-selective promoter. Relative levels of DNA and RNA in hepatocytes grown in vitro correlated with in vivo liver transduction across species. Expression in NHP hepatocytes more closely reflected expression in human hepatocytes than in mouse hepatocytes. We used this hepatocyte culture model to assess transduction efficacy of a novel liver-directed AAV capsid across species and identified which of 3 different canine factor VIII vectors produced the most transgene expression. Results were confirmed in vivo. Further, we determined mechanisms mediating inhibition of AAV5-hFVIII-SQ expression by concomitant isotretinoin using primary human hepatocytes. These studies support using in vitro primary hepatocyte models to predict species translatability of liver-directed AAV gene therapy and improve mechanistic understanding of drug-drug interactions. Recombinant adeno-associated virus (AAV) is an effective platform for therapeutic gene transfer; however, tissue-tropism differences between species are a challenge for successful translation of preclinical results to humans. We evaluated the use of in vitro primary hepatocyte cultures to predict in vivo liver-directed AAV expression in different species. We assessed whether in vitro AAV transduction assays in cultured primary hepatocytes from mice, nonhuman primates (NHPs), and humans could model in vivo liver-directed AAV expression of valoctocogene roxaparvovec (AAV5-hFVIII-SQ), an experimental gene therapy for hemophilia A with a hepatocyte-selective promoter. Relative levels of DNA and RNA in hepatocytes grown in vitro correlated with in vivo liver transduction across species. Expression in NHP hepatocytes more closely reflected expression in human hepatocytes than in mouse hepatocytes. We used this hepatocyte culture model to assess transduction efficacy of a novel liver-directed AAV capsid across species and identified which of 3 different canine factor VIII vectors produced the most transgene expression. Results were confirmed in vivo. Further, we determined mechanisms mediating inhibition of AAV5-hFVIII-SQ expression by concomitant isotretinoin using primary human hepatocytes. These studies support using in vitro primary hepatocyte models to predict species translatability of liver-directed AAV gene therapy and improve mechanistic understanding of drug-drug interactions.

Topics & Concepts

Transduction (biophysics)In vitroCell biologyAction (physics)Primary (astronomy)Primary cultureBiologySignal transductionChemistryGeneticsBiochemistryPhysicsAstronomyQuantum mechanicsVirus-based gene therapy researchRNA Interference and Gene DeliveryViral Infectious Diseases and Gene Expression in Insects