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Chemical approaches to probe and engineer AAV vectors

Quan Pham, Jake Glicksman, Abhishek Chatterjee

2024Nanoscale20 citationsDOIOpen Access PDF

Abstract

. However, the commonly used wild-type AAV capsids in therapeutic development present significant challenges, including inadequate tissue specificity and the need for large doses to attain therapeutic effectiveness, raising safety concerns. Additionally, significant preexisting adaptive immunity against most natural capsids, and the development of such anti-capsid immunity after the first treatment, represent major challenges. Strategies to engineer the AAV capsid are critically needed to address these challenges and unlock the full promise of AAV gene therapy. Chemical modification of the AAV capsid has recently emerged as a powerful new approach to engineer its properties. Unlike genetic strategies, which can be more disruptive to the delicate capsid assembly and packaging processes, "late-stage" chemical modification of the assembled capsid-whether at natural amino acid residues or site-specifically installed noncanonical amino acid residues-often enables a versatile approach to introducing new properties to the capsid. This review summarizes the significant recent progress in AAV capsid engineering strategies, with a particular focus on chemical modifications in advancing the next generation of AAV-based gene therapies.

Topics & Concepts

Computer scienceNanotechnologyComputational biologyBiochemical engineeringEngineeringSystems engineeringMaterials scienceBiologyVirus-based gene therapy researchViral Infections and Immunology ResearchViral Infectious Diseases and Gene Expression in Insects
Chemical approaches to probe and engineer AAV vectors | Litcius