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Insidious Insights: Implications of viral vector engineering for pathogen enhancement

Jonas B. Sandbrink, Ethan C. Alley, Matthew Watson, Gregory D. Koblentz, Kevin M. Esvelt

2022Gene Therapy18 citationsDOIOpen Access PDF

Abstract

Optimizing viral vectors and their properties will be important for improving the effectiveness and safety of clinical gene therapy. However, such research may generate dual-use insights relevant to the enhancement of pandemic pathogens. In particular, reliable and generalizable methods of immune evasion could increase viral fitness sufficient to cause a new pandemic. High potential for misuse is associated with (1) the development of universal genetic elements for immune modulation, (2) specific insights on capsid engineering for antibody evasion applicable to viruses with pandemic potential, and (3) the development of computational methods to inform capsid engineering. These risks may be mitigated by prioritizing non-viral delivery systems, pharmacological immune modulation methods, non-genetic vector surface modifications, and engineering methods specific to AAV and other viruses incapable of unassisted human-to-human transmission. We recommend that computational vector engineering and the publication of associated code and data be limited to AAV until a technical solution for preventing malicious access to viral engineering tools has been established.

Topics & Concepts

Vector (molecular biology)BiologyCapsidComputational biologyViral vectorPandemicEvasion (ethics)Immune systemVirologyComputer scienceVirusCoronavirus disease 2019 (COVID-19)GeneImmunologyGeneticsMedicineDiseaseInfectious disease (medical specialty)PathologyRecombinant DNAVirus-based gene therapy researchViral gastroenteritis research and epidemiologyCRISPR and Genetic Engineering
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