Abstract
Hepatitis B virus (HBV) capsids are found in many forms: immature single-stranded RNA-filled cores, single-stranded DNA-filled replication intermediates, mature cores with relaxed circular double-stranded DNA, and empty capsids. A capsid, the protein shell of the core, is a complex of 240 copies of core protein. Mature cores are transported to the nucleus by a complex that includes both importin α and importin β (Impα and Impβ), which bind to the core protein’s C-terminal domains (CTDs). Here we have investigated the interactions of HBV core protein with importins in vitro. Strikingly, empty capsids and free core protein can bind Impβ without Impα. Cryo-EM image reconstructions show that the CTDs, which are located inside the capsid, can extrude through the capsid to be bound by Impβ. Impβ density localized on the capsid exterior near the quasi-sixfold vertices, suggested a maximum of 30 Impβ per capsid. However, examination of complexes using single molecule charge-detection mass spectrometry indicate that some complexes include over 90 Impβ molecules. Cryo-EM of capsids incubated with excess Impβ shows a population of damaged particles and a population of “dark” particles with internal density, suggesting that Impβ is effectively swallowed by the capsids, which implies that the capsids transiently open and close and can be destabilized by Impβ. Though the in vitro complexes with great excess of Impβ are not biological, these results have implications for trafficking of empty capsids and free core protein; activities that affect the basis of chronic HBV infection.
Highlights
Viruses take advantage of host proteins throughout their lifecycle; here we investigate interactions between Hepatitis B Virus (HBV) and host proteins related to nuclear transport
DNA-filled Hepatitis B Virus (HBV) cores are ferried to the nucleus by a complex of importin α and importin β; importinβ alone does not bind mature cores
A surprisingly large amount of the HBV core protein accumulates in nuclei
Summary
Viruses take advantage of host proteins throughout their lifecycle; here we investigate interactions between Hepatitis B Virus (HBV) and host proteins related to nuclear transport. Mature HBV cores, which consist of a relaxed circular dsDNA genome packaged in a protein capsid, arrive in the cytoplasm as newly infecting particles or by maturation of newly assembled RNA-filled cores. Cores form in the cytoplasm when the HBV core (or capsid) proteins assemble around a complex of HBV reverse transcriptase and an RNA transcript of the viral genome. Mature cores are transported to nuclear pores by a complex of importin α and importin β [4,5]. In a chronically infected cell, mature cores and empty cores, but not immature ssDNA-filled cores, can be secreted from the host cell, acquiring an HBV surface antigen-studded envelope in the process [6,7]
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