Affiliation:
1. CNC - Center for Neuroscience and Cell Biology, University of Coimbra, Portugal
2. Massachusetts General Hospital and Harvard Medical School
3. Massachusetts General Hospital
Abstract
Abstract
Extracellular vesicles-associated adeno-associated viral vectors (EV-AAVs) emerged as a new opportunity for non-invasive gene therapy targeting the central nervous system (CNS). However, in previous reports, only AAV serotypes with known ability to cross the blood-brain barrier (BBB) have been used for EV-AAV production and testing through non-invasive strategies. In this work, we aimed at optimizing a size exclusion chromatography (SEC) protocol for the production and isolation of natural and biologically active brain-targeting EV-AAVs, that could be applied to any AAV serotype and further used for non-invasive gene delivery to the CNS. We performed a comparison between SEC and differential ultracentrifugation (UC) isolation protocols in terms of yield, contaminants, and transgene expression efficiency. We found that SEC allows a higher recovery of EV-AAVs, free of cell contaminating proteins and with less solo AAVs than UC. Remarkably, SEC-purified EV-AAVs also showed to be more potent at transgene expression than solo AAVs in neuronal cell lines. Brain-targeting EV-AAVs exhibited the ability to reach be brain upon intravenous administration. In conclusion, SEC-purified brain-targeting EV-AAVs show to be a promising gene delivery vector for therapy of brain disorders.
Publisher
Research Square Platform LLC