Insertions and Duplications in the Polyproline Region of the Hepatitis E Virus.

Sébastien Lhomme,Nassim Kamar,Chloé Dimeglio,Jean-Marie Peron,Caroline Lefebvre,Laurent Alric,Alain Roulet,Florence Nicot,Nicolas Jeanne,Romain Carcenac,Florence Abravanel,Martine Dubois,Jacques Izopet,Maxime Manno

doi:10.3389/fmicb.2020.00001

Sébastien Lhomme, Nassim Kamar + Show 12 more

Open Access

https://doi.org/10.3389/fmicb.2020.00001

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Abstract

Recombinant strains of hepatitis E virus (HEV) with insertions of human genomic fragments or HEV sequence duplications in the sequence encoding the polyproline region (PPR) were previously described in chronically infected patients. Such genomic rearrangements confer a replicative advantage in vitro but little is known about their frequency, location, or origin. As the sequences of only a few virus genomes are available, we analyzed the complete genomes of 114 HEV genotype 3 strains from immunocompromised (n = 85) and immunocompetent (n = 29) patients using the single molecular real-time sequencing method to determine the frequency, location, and origin of inserted genomic fragments, plus the proportions of variants with genomic rearrangements in each virus quasispecies. We also examined the amino acid compositions and post-translational modifications conferred by these rearrangements by comparing them to sequences without human gene insertions or HEV gene duplications. We found genomic rearrangements in 7/114 (6.1%) complete genome sequences (4 HEV-3f, 1 HEV-3e, 1 HEV-3 h, and 1 HEV-3chi-new), all from immunocompromised patients, and 3/7 were found at the acute phase of infection. Six of the seven patients harbored virus-host recombinant variants, including one patient with two different recombinant variants. We also detected three recombinant variants with genome duplications of the PPR or PPR + X domains in a single patient. All the genomic rearrangements (seven human fragment insertions of varying origins and three HEV genome duplications) occurred in the PPR. The sequences with genomic rearrangements had specific characteristics: increased net load (p < 0.001) and more ubiquitination (p < 0.001), phosphorylation (p < 0.001), and acetylation (p < 0.001) sites. The human fragment insertions and HEV genome duplications had slightly different characteristics. We believe this is the first description of HEV strains with genomic rearrangements in patients at the acute phase of infection; perhaps these strains are directly transmitted. Clearly, genomic rearrangements produce a greater net load with duplications and insertions having different features. Further studies are needed to clarify the mechanisms by which such modifications influence HEV replication.

Highlights

The hepatitis E virus (HEV) is a significant human pathogen causing viral hepatitis worldwide
We found genomic rearrangements in the genomes of seven strains (7/114; 6.1%: 4 HEV-3f, 1 HEV-3e, 1 HEV genotype 3 (HEV-3) h, and 1 HEV-3chi-new)
Virus-host recombinant variants were detected in six patients (Figure 1A and Supplementary Figure S2)

Summary

Introduction

The hepatitis E virus (HEV) is a significant human pathogen causing viral hepatitis worldwide. The genus Orthohepevirus includes mammalian and avian strains while the genus Piscihepevirus infects Cutthroat Trout (Smith and Simmonds, 2018). The strains infecting humans belong to the Orthohepevirus A species. HEV-3 infections are frequently asymptomatic but they can result in severe acute hepatitis in patients with chronic liver disease (Kamar et al, 2017). HEV-3 can lead to chronic infection, defined by replication that persists for over 3 months, in immunocompromised patients, including solid organ transplant recipients, patients with hematological disease, and those with an HIV infection. Patients with either acute or chronic hepatitis can suffer from extrahepatic manifestations (Kamar et al, 2017)

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