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Cerebral Organoids: A Human Model for AAV Capsid Selection and Therapeutic Transgene Efficacy in the Brain

Josse A. Depla, Marina Sogorb-González, Lance Mulder, Vivi M. Heine, Pavlina Konstantinova, S J van Deventer, Katja C. Wolthers, Dasja Pajkrt, Adithya Sridhar, Melvin M. Evers

2020Molecular Therapy — Methods & Clinical Development51 citationsDOIOpen Access PDF

Abstract

models to the clinic. Therefore, we developed induced pluripotent stem cell (iPSC)-derived cerebral organoids as a model for recombinant adeno-associated virus (rAAV) capsid selection and for testing efficacy of AAV-based gene therapy in a human context. Cerebral organoids are physiological 3D structures that better recapitulate the human brain compared with 2D cell lines. To validate the model, we compared the transduction efficiency and distribution of two commonly used AAV serotypes (rAAV5 and rAAV9). In cerebral organoids, transduction with rAAV5 led to higher levels of vector DNA, transgenic mRNA, and protein expression as compared with rAAV9. The superior transduction of rAAV5 was replicated in iPSC-derived neuronal cells. Furthermore, rAAV5-mediated delivery of a human sequence-specific engineered microRNA to cerebral organoids led to a lower expression of its target ataxin-3. Our studies provide a new tool for selecting and deselecting AAV serotypes, and for demonstrating therapeutic efficacy of transgenes in a human context. Implementing cerebral organoids during gene therapy development could reduce the usage of animal models and improve translation to the clinic.

Topics & Concepts

Transduction (biophysics)Adeno-associated virusOrganoidBiologyTransgeneGenetic enhancementInduced pluripotent stem cellGene deliveryContext (archaeology)Cell biologyComputational biologyNeuroscienceGeneRecombinant DNAEmbryonic stem cellVector (molecular biology)GeneticsBiochemistryPaleontologyPluripotent Stem Cells ResearchCRISPR and Genetic EngineeringVirus-based gene therapy research