Toshinori Tanaka

ORF3 protein of hepatitis E virus is essential for virion release from infected cells

The function of the hepatitis E virus (HEV) open reading frame 3 (ORF3) protein remains unclear. To elucidate the role of the ORF3 protein in the virus life cycle, an infectious cDNA clone (pJE03-1760F/wt) that can replicate efficiently in PLC/PRF/5 and A549 cells and release progeny into the culture medium was used to generate a derivative ORF3-deficient (DeltaORF3) mutant whose third in-frame AUG codon of ORF3 was mutated to GCA. The DeltaORF3 mutant in the culture medium of mutant RNA-transfected PLC/PRF/5 cells was able to infect and replicate within PLC/PRF/5 and A549 cells as efficiently as the wild-type pJE03-1760F/wt virus. However, less than 1/100 of the number of progeny was detectable in the culture medium of DeltaORF3 mutant-infected PLC/PRF/5 cells compared with wild-type-infected PLC/PRF/5 cells, and the HEV RNA level in the culture medium of DeltaORF3 mutant-infected A549 cells was below or near the limit of detection. An immunocapture PCR assay revealed that the ORF3 protein is present on the surface of cell-culture-generated wild-type HEV but not on the DeltaORF3 mutant. Wild-type HEV in the culture supernatant peaked at a sucrose density of 1.15-1.16 g ml(-1), in contrast with the DeltaORF3 mutant in culture supernatant, which banded at 1.27-1.28 g ml(-1), similar to HEV in cell lysate and faecal HEV. These results suggest that the ORF3 protein is responsible for virion egress from infected cells and is present on the surface of released HEV particles, which may be associated with lipids.

Hepatitis E Virus (HEV) Strains in Serum Samples Can Replicate Efficiently in Cultured Cells Despite the Coexistence of HEV Antibodies: Characterization of HEV Virions in Blood Circulation

ABSTRACT We recently developed a cell culture system for hepatitis E virus (HEV) in PLC/PRF/5 and A549 cells, using fecal specimens from HEV-infected patients. Since transfusion-associated hepatitis E has been reported, we examined PLC/PRF/5 and A549 cells for the ability to support replication of HEV in various serum samples obtained from 23 patients with genotype 1, 3, or 4 HEV. HEV progenies emerged in culture media of PLC/PRF/5 cells, regardless of the coexistence of HEV antibodies in serum but dependent on the load of HEV inoculated (31% at 2.0 × 104 copies per well and 100% at ≥3.5 × 104 copies per well), and were successfully passaged in A549 cells. HEV particles in serum, with or without HEV antibodies, banded at a sucrose density of 1.15 to 1.16 g/ml, which was markedly lower than that for HEV particles in feces, at 1.27 to 1.28 g/ml, and were nonneutralizable by immune sera in this cell culture system. An immuno-capture PCR assay of HEV virions treated with or without detergent indicated that HEV particles in serum are associated with lipids and HEV ORF3 protein, similar to those in culture supernatant. By immunoprecipitation, it was found that >90% of HEV particles in the circulation exist as free virions not complexed with immunoglobulins, despite the coexistence of HEV antibodies. These results suggest that our in vitro cell culture system can be used for propagation of a wide variety of HEV strains in sera from various infected patients, allowing extended studies on viral replication specific to different HEV strains.

Prolonged Fecal Shedding of Hepatitis E Virus (HEV) during Sporadic Acute Hepatitis E: Evaluation of Infectivity of HEV in Fecal Specimens in a Cell Culture System

ABSTRACT To investigate the duration of fecal shedding and changing loads of hepatitis E virus (HEV) in feces and serum from patients with acute HEV infection, HEV RNA was quantitated in periodic serum and fecal specimens obtained from 11 patients with sporadic acute hepatitis E. All 11 patients had detectable HEV RNA in serum at admission, with the highest viral load being 1.9 × 103 to 1.7 × 107 copies/ml, and HEV viremia lasted until days 17 to 48 (mean, 28.3) after the onset of hepatitis. Even at the initial examination on days 10 to 29 (mean, 17.6), the HEV load in fecal supernatant was less than 5.7 × 104 copies/ml for 10 of the 11 patients, while for the remaining patient (patient 1) it was markedly high, 2.0 × 107 copies/ml on day 22. In addition, although HEV RNA in fecal supernatant continued to be positive until days 14 to 33 (mean, 22.4) for patients 2 to 11, that for patient 1 was detectable even on day 121. HEVs in fecal specimens obtained on days 22, 24, 26, 28, and 30, but not day 121, from patient 1 grew efficiently in PLC/PRF/5 cells, reaching the highest titer of up to 107 copies/ml in culture medium on day 50 postinoculation. The HEV genome recovered from patient 1 had 29 unique nucleotides that were not seen in any of the 25 reported HEV isolates of the same genotype over the entire genome, with six amino acid substitutions in the ORF1 protein.

A PSAP motif in the ORF3 protein of hepatitis E virus is necessary for virion release from infected cells

We have previously demonstrated that the release of hepatitis E virus (HEV) from infected cells depended on ORF3 protein, which harbours one or two PSAP motifs. To elucidate the PSAP motif(s) in the ORF3 protein during virion egress, five PSAP mutants derived from an infectious genotype 3 cDNA clone of pJE03-1760F/wt that can grow efficiently in PLC/PRF/5 cells were analysed. Four mutants, including mutLSAP, mutPSAL, mutLSAL (the substituted amino acids in the authentic PSAP motif are underlined) and mutPLAP/PSAP (the changed amino acid in the additional PSAP motif is underlined) generated progenies as efficiently as the wild-type virus. Conversely, the HEV RNA level in the culture supernatant of mutPLAP/LSAL RNA-transfected cells was significantly lower than in cells transfected with the wild-type RNA, similar to an ORF3-null mutant. Consistent with the ORF3-deficient mutant, the mutPLAP/LSAL mutant with no intact PSAP motifs banded at 1.26-1.27 g ml(-1) in sucrose, and was captured by anti-ORF2, but not by anti-ORF3, with or without prior treatment with detergent (0.1 % sodium deoxycholate). The absence of the ORF3 protein on the mutant particles in the culture supernatant was confirmed by Western blotting, despite the expression of ORF3 protein in the RNA-transfected cells, as detected by immunofluorescence and Western blotting. Therefore, at least one of the two intact PSAP motifs in the ORF3 protein is required for the formation of membrane-associated HEV particles possessing ORF3 proteins on their surface, thus suggesting that the PSAP motif plays a role as a functional domain for HEV budding.

Development and Characterization of a Genotype 4 Hepatitis E Virus Cell Culture System Using a HE-JF5/15F Strain Recovered from a Fulminant Hepatitis Patient

ABSTRACT We developed an efficient cell culture system for genotype 4 hepatitis E virus using the HE-JF5/15F strain recovered from a fulminant hepatitis patient. The sixth-passage virus in the culture supernatant reached 1.5 × 108 copies/ml at 10 days postinoculation and possessed 10 nucleotide mutations with four amino acid changes.

Construction of an infectious cDNA clone of hepatitis E virus strain JE03-1760F that can propagate efficiently in cultured cells

A full-length infectious cDNA clone (pJE03-1760F/wt) of a genotype 3 hepatitis E virus (HEV) (strain JE03-1760F) obtained from a faecal specimen was constructed in this study. Upon transfection of the capped in vitro transcripts of pJE03-1760F/wt into PLC/PRF/5 cells, the viral RNA levels in the culture supernatant started to increase on day 6 post-transfection (p.t.) and reached 10(7) copies ml(-1) on day 28 p.t. Detection of increasing numbers of cells with ORF2 protein expression by immunofluorescence assay at 5, 7, 11 and 15 days p.t. indicated the spread of HEV infection in cell culture. When the cDNA-derived virus in culture supernatant was inoculated into PLC/PRF/5 or A549 cells, it grew as efficiently as the faeces-derived virus in both cells, reaching 10(6) copies ml(-1) at 30 days post-inoculation. Our reverse genetics system for HEV that is usable in a robust cell-culture system will be useful for elucidation of the mechanism of HEV replication and functional roles of HEV proteins.

Tumour susceptibility gene 101 and the vacuolar protein sorting pathway are required for the release of hepatitis E virions.

We have previously demonstrated that an intact PSAP motif in the ORF3 protein is required for the formation and release of membrane-associated hepatitis E virus (HEV) particles with ORF3 proteins on their surface. In this study, we investigated the direct interaction between the ORF3 protein and tumour susceptibility gene 101 (Tsg101), a cellular factor involved in the budding of viruses containing the P(T/S)AP late-domain, in PLC/PRF/5 cells expressing the wild-type or PSAP-mutated ORF3 protein and Tsg101 by co-immunoprecipitation. Tsg101 bound to wild-type ORF3 protein, but not to the PSAP-inactive ORF3 protein. To examine whether HEV utilizes the multivesicular body (MVB) pathway to release the virus particles, we analysed the efficiency of virion release from cells upon introduction of small interfering RNA (siRNA) against Tsg101 or dominant-negative (DN) mutants of Vps4 (Vps4A and Vps4B). The relative levels of virus particles released from cells depleted of Tsg101 decreased to 6.4 % of those transfected with negative control siRNA. Similarly, virion egress was significantly reduced by the overexpression of DN forms (Vps4AEQ or Vps4BEQ). The relative levels of virus particles released from cells expressing Vps4AEQ and Vps4BEQ were 19.2 and 15.6 %, respectively, while the overexpression of wild-type Vps4A and Vps4B did not alter the levels of virus release. These results indicate that the ORF3 protein interacts with Tsg101 through the PSAP motifs in infected cells, and that Tsg101 and the enzymic activities of Vps4A and Vps4B are involved in HEV release, thus suggesting that HEV requires the MVB pathway for egress of virus particles.

Genotype dependence of hepatitis C virus antibodies detectable by the first-generation enzyme-linked immunosorbent assay with C100-3 protein.

Hepatitis C virus (HCV) samples in 155 sera, from patients with chronic non-A, non-B liver disease and blood donors, were grouped into four genotypes (I, II, III, and IV) by amplification of core-gene sequences by polymerase chain reaction with type-specific primers. HCV genotypes were compared with various HCV-associated antibodies detectable by the first-generation ELISA (ELISA-1) with C100-3 protein and a second-generation immunoblot assay with four recombinant HCV proteins. Antibodies to C100-3 protein and those to its subsequence (5-1-1) were detected in 13 (93%) and 12 (86%), respectively, of 14 sera with genotype I HCV; 56 (79%) and 58 (82%) of 71 sera with genotype II; 13 (34%) and 6 (16%) of 38 sera with genotype III; and 11 (34%) and 4 (13%) of 32 sera with genotype IV. Amino acid sequences of C100-3 of genotype I HCV are conserved by approximately 90% in genotype II, but only by approximately 75% in genotypes III and IV. The sensitivity of ELISA-1, therefore, would be influenced by heterogeneity in C100-3 sequences of different genotypes.

Mutational events during the primary propagation and consecutive passages of hepatitis E virus strain JE03-1760F in cell culture.

We recently developed a cell culture system for hepatitis E virus (HEV) in PLC/PRF/5 cells, using a genotype 3 HEV (JE03-1760F strain). Thirteen generations of consecutive passages of culture supernatant were successfully carried out in PLC/PRF/5 cells, with the highest HEV load reaching 10(8) copies/ml in the culture medium. Based on continuous release of progenies into culture medium, 50% tissue culture infectivity doses were estimated to be 2.0 x 10(3) copies for wild-type JE03-1760F and 1.4 x 10(2) copies for p13 (progeny in the thirteenth passage). Earlier appearance and greater increase in the yield of progenies in the culture supernatant were evident in p13 compared with wild-type. The cell culture-produced variants in primary propagation (p0) and consecutive passages (p5 [fifth passage], p10 [tenth], and p13) differed from the wild-type virus by 1, 9, 18, and 19 nucleotides (nt), respectively, over the entire genome of 7226nt, excluding the poly(A) tail. Three of five non-synonymous mutations in p13 were shared by a variant (fifth passage) in another series of passages of JE03-1760F. These results suggest that adaptation of HEV variants to growth in vitro is associated with a limited number of mutations similar to hepatitis A virus.

Determination of the 5′-terminal sequence of subgenomic RNA of hepatitis E virus strains in cultured cells

Using RNA preparations extracted from PLC/PRF/5 cells transfected with infectious genotype 3 hepatitis E virus (HEV) cDNA clones or inoculated with a fecal suspension containing a genotype 4 HEV, the 5′-terminal sequence of a 2.2-kb subgenomic RNA of genotype 3 and 4 HEVs was determined. Despite an insertion of T after nucleotide 5116 or an ORF3-null mutation in genotype 4 HEV and/or one of the genotype 3 variants, it was found that the subgenomic RNA of genotype 3 and 4 HEVs initiates exclusively at nucleotide 5122 with the common sequence of 5′-GC, which is identical to that of the prototype genotype 1 HEV.