Abstract
Systemic, tissue-specific delivery of large transgenes exceeding the packaging capacity of adeno-associated viruses (AAVs) remains a key translational challenge for molecular therapeutics. Vectors with larger capacities, such as lentiviral vectors (LVVs) and lipid nanoparticles (LNPs), often lack adjustable, tissue-specific tropisms. Here we report CHARIOT-AAV (Crosslinked Hybrid Architectures for Robust, Interchangeable, and Organ-specific Targeting with AAV), a platform where diverse delivery vectors are conjugated to AAVs, thereby achieving tissue-specific tropism of AAVs and expanded cargo capacity. AAV-AAV conjugates packaging split SpCas9 constructs in AAV.CAP-B10 capsids demonstrate a ∼2-fold increase in brain gene editing efficiency over unconjugated AAV cocktails after intravenous injection. In addition to AAV-AAV conjugates, AAV-LVV and AAV-LNP conjugates achieve AAV-guided delivery of genetic payloads to target cells. Furthermore, AAV-LNP conjugates enable systemic delivery of mRNAs to brain endothelial cells. CHARIOT-AAV thus provides a modular platform for systemic, tissue-specific delivery of diverse therapeutics beyond the limits of individual vectors.