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Efficient and Highly Specific Gene Transfer Using Mutated Lentiviral Vectors Redirected with Bispecific Antibodies

Christina L. Parker, Timothy M. Jacobs, Justin T. Huckaby, Dimple Harit, Samuel K. Lai

2020mBio13 citationsDOIOpen Access PDF

Abstract

The goal of gene therapy is specific delivery and expression of therapeutic genes to target cells and tissues. Common lentivirus (LV) vectors are efficient gene delivery vehicles but offer little specificity. Here, we report an effective and versatile strategy to redirect LV to target cells using bispecific antibodies (bsAbs) that bind both cell receptors and LV envelope domains. Importantly, we ablated the native receptor binding of LV to minimize off-target transduction. Coupling bsAb specificity and ablated native LV tropism synergistically enhanced the selectivity of our targeted gene delivery system. The modular nature of our bsAb-based redirection enables facile targeting of the same LV to diverse tissues/cells. By abrogating the native broad tropism of LV, our bsAb-LV redirection strategy may enable lentivirus-based gene delivery in vivo , expanding the current use of LV beyond ex vivo applications.

Topics & Concepts

TropismTransduction (biophysics)Gene deliveryLentivirusGenetic enhancementComputational biologyGeneBiologyEx vivoCell biologyIn vivoVirologyHuman immunodeficiency virus (HIV)GeneticsVirusViral diseaseBiochemistryVirus-based gene therapy researchRNA Interference and Gene DeliveryCRISPR and Genetic Engineering
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