Molecular elucidation of drug-induced abnormal assemblies of the hepatitis B virus capsid protein by solid-state NMR.
Lauriane LecoqLouis BrigandatRebecca HuberMarie-Laure FogeronShishan WangMarie DujardinMathilde BridayThomas WiegandMorgane CallonAlexander MalärDavid DurantelDara BurdetteJan Martin BerkeBeat H MeierMichael NassalAnja BöckmannPublished in: Nature communications (2023)
Hepatitis B virus (HBV) capsid assembly modulators (CAMs) represent a recent class of anti-HBV antivirals. CAMs disturb proper nucleocapsid assembly, by inducing formation of either aberrant assemblies (CAM-A) or of apparently normal but genome-less empty capsids (CAM-E). Classical structural approaches have revealed the CAM binding sites on the capsid protein (Cp), but conformational information on the CAM-induced off-path aberrant assemblies is lacking. Here we show that solid-state NMR can provide such information, including for wild-type full-length Cp183, and we find that in these assemblies, the asymmetric unit comprises a single Cp molecule rather than the four quasi-equivalent conformers typical for the icosahedral T = 4 symmetry of the normal HBV capsids. Furthermore, while in contrast to truncated Cp149, full-length Cp183 assemblies appear, on the mesoscopic level, unaffected by CAM-A, NMR reveals that on the molecular level, Cp183 assemblies are equally aberrant. Finally, we use a eukaryotic cell-free system to reveal how CAMs modulate capsid-RNA interactions and capsid phosphorylation. Our results establish a structural view on assembly modulation of the HBV capsid, and they provide a rationale for recently observed differences between in-cell versus in vitro capsid assembly modulation.
Keyphrases
- hepatitis b virus
- solid state
- drug induced
- liver failure
- cell free
- liver injury
- single cell
- magnetic resonance
- wild type
- single molecule
- cell therapy
- stem cells
- clinical trial
- genome wide
- high resolution
- gene expression
- magnetic resonance imaging
- adverse drug
- social media
- coronavirus disease
- endothelial cells
- circulating tumor
- protein kinase