Litcius/Paper detail

Adeno-associated virus capsid assembly is divergent and stochastic

Tobias P. Wörner, Antonette Bennett, Sana Habka, Joost Snijder, Olga Friese, Thomas W. Powers, Mavis Agbandje‐McKenna, Albert J. R. Heck

2021Nature Communications216 citationsDOIOpen Access PDF

Abstract

Adeno-associated viruses (AAVs) are increasingly used as gene therapy vectors. AAVs package their genome in a non-enveloped T = 1 icosahedral capsid of ~3.8 megaDalton, consisting of 60 subunits of 3 distinct viral proteins (VPs), which vary only in their N-terminus. While all three VPs play a role in cell-entry and transduction, their precise stoichiometry and structural organization in the capsid has remained elusive. Here we investigate the composition of several AAV serotypes by high-resolution native mass spectrometry. Our data reveal that the capsids assemble stochastically, leading to a highly heterogeneous population of capsids of variable composition, whereby even the single-most abundant VP stoichiometry represents only a small percentage of the total AAV population. We estimate that virtually every AAV capsid in a particular preparation has a unique composition. The systematic scoring of the simulations against experimental native MS data offers a sensitive new method to characterize these therapeutically important heterogeneous capsids.

Topics & Concepts

CapsidTransduction (biophysics)PopulationBiologyVirologyComputational biologyGenomeVirusGeneBiophysicsGeneticsMedicineEnvironmental healthVirus-based gene therapy researchAnimal Virus Infections StudiesBacteriophages and microbial interactions