A Putative Amphipathic Alpha Helix in Hepatitis B Virus Small Envelope Protein Plays a Critical Role in the Morphogenesis of Subviral Particles.

Hepatitis B virus (HBV) small (S) envelope protein has the intrinsic ability to direct the formation of small spherical subviral particles (SVPs) in eukaryotic cells. However, the molecular mechanism underlying the morphogenesis of SVPs from the monomeric S protein initially synthesized at the endoplasmic reticulum (ER) membrane remains largely elusive. Structure prediction and extensive mutagenesis analysis suggested that the amino acid residues spanning W156 to R169 of S protein form an amphipathic alpha helix and play essential roles in SVP production and S protein metabolic stability. Further biochemical analyses showed that the putative amphipathic alpha helix was not required for the disulfide-linked S protein oligomerization but was essential for SVP morphogenesis. Pharmacological disruption of vesicle trafficking between the ER and Golgi complex in SVP-producing cells supported the hypothesis that S protein-directed SVP morphogenesis takes place at the ERGolgi intermediate compartment (ERGIC). Moreover, it was demonstrated that S protein is degraded in hepatocytes via a 20S proteasome-dependent but ubiquitinationindependent nonclassic ER-associated degradation pathway. Taken together, the results reported here favor a model in which the amphipathic alpha helix at the antigenic loop of S protein attaches to the lumen leaflet to facilitate SVP budding from the ERGIC, whereas the failure of the budding process may result in S protein degradation by 20S proteasome in a ubiquitination-independent manner. [ABSTRACT FROM AUTHOR]