The Hepatitis E Virus Open Reading Frame 3 Product Interacts with Microtubules and Interferes with Their Dynamics

Hepatitis E virus (HEV) is the causative agent of hepatitis E, a major form of viral hepatitis in developing countries. The open reading frame 3 (ORF3) of HEV encodes a phosphoprotein with a molecular mass of approximately 13 kDa (hereinafter called vp13). vp13 is essential for establishing HEV infections in animals, yet its exact functions are still obscure. Our current study found evidence showing interaction between vp13 and microtubules. Live-cell confocal fluorescence microscopy revealed both filamentous and punctate distribution patterns of vp13 in cells transfected with recombinant ORF3 reporter plasmids. The filamentous pattern of vp13 was altered by a microtubule-destabilizing drug. The vp13 expression led to elevation of acetylated α-tubulin, indicating increased microtubule stability. Its association with microtubules was further supported by its presence in microtubule-containing pellets in microtubule isolation assays. Exposure of these pellets to a high-salt buffer caused release of the vp13 to the supernatant, suggesting an electrostatic interaction. Inclusion of ATP and GTP in the lysis buffer during microtubule isolation also disrupted the interaction, indicating its sensitivity to the nucleotides. Further assays showed that motor proteins are needed for the vp13 association with the microtubules because disruption of dynein function abolished the vp13 filamentous pattern. Analysis of ORF3 deletion constructs found that both of the N-terminal hydrophobic domains of vp13 are needed for the interaction. Thus, our findings suggest that the vp13 interaction with microtubules might be needed for establishment of an HEV infection.The hepatitis E virus (HEV), the sole member of the genus Hepevirus, is a single-strand positive-sense RNA virus that is the causative agent in endemics and epidemics of acute human hepatitis in many parts of the world (5). Transmitted mainly from contaminated water through the fecal-oral route, HEV infection causes a fulminant form of hepatitis that has a mortality rate of up to 20% in pregnant women (28). HEV infection is considered zoonotic. Swine and chicken HEV strains have been found in the United States (11, 23). A swine strain can infect chimpanzees under experimental conditions, and a human strain that is genetically similar to the swine strain can experimentally infect pigs (22). Direct evidence of the zoonotic nature of HEV infection has been provided in reports of a series of cases of HEV infection in people who ate undercooked deer meat 6 to 7 weeks before the onset of the disease (19, 33, 39). HEV RNA recovered from the leftover deer meat was found to be identical in nucleotide sequence to the HEV RNA recovered from the individuals who became ill (31).The HEV genome is approximately 7.2 kb in length and consists of three open reading frames (ORFs) (32). ORF1 encodes a nonstructural polyprotein that includes the RNA-dependent RNA polymerase. ORF2 encodes the capsid protein, the major structural protein in virion. ORF3 encodes a phosphoprotein that was found to be essential for establishing an HEV infection in macaques and pigs under experimental conditions (9, 12). It has been reported that ORF3 translation initiates at the third in-frame AUG codon, which lies 23 bases downstream of the ORF1 termination codon (10, 12). Propagation of HEV and studies of virus replication still rely upon nonhuman primates due to the lack of an effective cell culture system. As a result, functional study of the ORF3 product in HEV biology and infection is limited.The phosphoprotein encoded by HEV ORF3 has a molecular mass of approximately 13 kDa (hereinafter called vp13) (32). The exact functions of vp13 in HEV infection remain unknown although the findings of a number of studies have shown that it plays a role in cellular signaling pathways (13, 17, 24, 34-36, 40). During subcellular fractionation of COS-7 cells transfected with a vp13-expressing plasmid, vp13 was found to partition with the cytoskeletal fraction (40). Deletion of the N-terminal hydrophobic domain of vp13 abolished the association with the cytoskeleton fraction. The vp13-binding proteins in the cytoskeleton and the nature of this interaction are not known.In this study, we found that the HEV ORF3 product localizes to microtubules and interferes with their dynamics. The filamentous pattern of vp13 distribution in the cell was abolished by a microtubule-destabilizing drug. vp13 led to elevation of acetylated α-tubulin. These results suggested that vp13 interaction with the microtubules might facilitate HEV infection. We further studied the nature of the vp13-microtubule interaction.