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Elife. 2018 Jan 29;7. pii: e31473. doi: 10.7554/eLife.31473.
Hepatitis B virus core protein allosteric modulators can distort and disrupt intact capsids.Schlicksup CJ1, Wang JC1,2, Francis S3, Venkatakrishnan B1, Turner WW3, VanNieuwenhze M4, Zlotnick A1.
Author information
1Department of Molecular and Cellular Biochemistry, Indiana University, Bloomington, United States.2Indiana University Electron Microscopy Center, Bloomington, United States.3Assembly Biosciences, Carmel, United States.4Department of Chemistry, Indiana University, Bloomington, United States.
AbstractDefining mechanisms of direct-acting antivirals facilitates drug development and our understanding of virus function. Heteroaryldihydropyrimidines (HAPs) inappropriately activate assembly of hepatitis B virus (HBV) core protein (Cp), suppressing formation of virions. We examined a fluorophore-labeled HAP, HAP-TAMRA. HAP-TAMRA induced Cp assembly and also bound pre-assembled capsids. Kinetic and spectroscopic studies imply that HAP-binding sites are usually not available but are bound cooperatively. Using cryo-EM, we observed that HAP-TAMRA asymmetrically deformed capsids, creating a heterogeneous array of sharp angles, flat regions, and outright breaks. To achieve high resolution reconstruction (<4 Å), we introduced a disulfide crosslink that rescued particle symmetry. We deduced that HAP-TAMRA caused quasi-sixfold vertices to become flatter and fivefold more angular. This transition led to asymmetric faceting. That a disordered crosslink could rescue symmetry implies that capsids have tensegrity properties. Capsid distortion and disruption is a new mechanism by which molecules like the HAPs can block HBV infection.
KEYWORDS: biochemistry; cryo-EM; direct acting antiviral; hepatitis B virus; image reconstruction; infectious disease; microbiology; self-assembly; virus
PMID:29377794DOI:10.7554/eLife.31473
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发表于 2018-1-30 16:49