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Engineered nanoparticles promote cardiac tropism of AAV vectors

Lauren SwitalaDepartment of Biomedical Engineering, Case Western Reserve University, Cleveland, USALin DiDepartment of Biomedical Engineering, Case Western Reserve University, Cleveland, USAHuiyun GaoDepartment of Medicine, School of Medicine, Cardiovascular Research Institute, Case Western Reserve University, Cleveland, USACourteney AsaseDepartment of Medicine, School of Medicine, Cardiovascular Research Institute, Case Western Reserve University, Cleveland, USAMatthew KlosDepartment of Pediatrics, Case Western Reserve University, Cleveland, USARengasamy PalanivelDepartment of Medicine, School of Medicine, Cardiovascular Research Institute, Case Western Reserve University, Cleveland, USADaria V. FedyukinaAdvanced Research Projects Agency for Health, ARPA-H, Washington, USAAndrei MaiseyeuDepartment of Biomedical Engineering, Case Western Reserve University, Cleveland, USA. [email protected]
2024en
ABI

Annotatsiya

Cardiac muscle targeting is a notoriously difficult task. Although various nanoparticle (NP) and adeno-associated viral (AAV) strategies with heart tissue tropism have been developed, their performance remains suboptimal. Significant off-target accumulation of i.v.-delivered pharmacotherapies has thwarted development of disease-modifying cardiac treatments, such as gene transfer and gene editing, that may address both rare and highly prevalent cardiomyopathies and their complications. Here, we present an intriguing discovery: cargo-less, safe poly (lactic-co-glycolic acid) particles that drastically improve heart delivery of AAVs and NPs. Our lead formulation is referred to as ePL (enhancer polymer). We show that ePL increases selectivity of AAVs and virus-like NPs (VLNPs) to the heart and de-targets them from the liver. Serotypes known to have high (AAVrh.74) and low (AAV1) heart tissue tropisms were tested with and without ePL. We demonstrate up to an order of magnitude increase in heart-to-liver accumulation ratios in ePL-injected mice. We also show that ePL exhibits AAV/NP-independent mechanisms of action, increasing glucose uptake in the heart, increasing cardiac protein glycosylation, reducing AAV neutralizing antibodies, and delaying blood clearance of AAV/NPs. Current approaches utilizing AAVs or NPs are fraught with challenges related to the low transduction of cardiomyocytes and life-threatening immune responses; our study introduces an exciting possibility to direct these modalities to the heart at reduced i.v. doses and, thus, has an unprecedented impact on drug delivery and gene therapy. Based on our current data, the ePL system is potentially compatible with any therapeutic modality, opening a possibility of cardiac targeting with numerous pharmacological approaches.

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