Robust hepatitis E virus infection and transcriptional response in human hepatocytes

Todt, Daniel; Friesland, Martina; Moeller, Nora; Praditya, Dimas; Kinast, Volker; Brüggemann, Yannick; Knegendorf, Leonard; Burkard, Thomas; Steinmann, Joerg; Burm, Rani; Verhoye, Lieven; Wahid, Avista; Meister, Toni Luise; Engelmann, Michael; Pfankuche, Vanessa Maria; Puff, Christina; Vondran, Florian W. R.; Baumgärtner, Wolfgang; Meuleman, Philip; Behrendt, Patrick; Steinmann, Eike

doi:10.1073/pnas.1912307117

Cited by 70 publications

(99 citation statements)

References 40 publications

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“…Furthermore, a single nucleotide exchange leading to a unique restriction site could be successfully introduced into the recombinant virus genome. This demonstrates the suitability of the system for site-directed mutagenesis, which might be used in future studies for investigating the effect of single nucleotide mutations on viral fitness, e.g., mutation G1634R, which has been described to increase the replication efficiency in other HEV strains [22,23].…”

Section: Discussionmentioning

confidence: 83%

Establishment of a Plasmid-Based Reverse Genetics System for the Cell Culture-Adapted Hepatitis E Virus Genotype 3c Strain 47832c

Scholz

Bächlein²,

Gadicherla

et al. 2020

Pathogens

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The hepatitis E virus (HEV) causes acute and chronic hepatitis in humans. Investigation of HEV replication is hampered by the lack of broadly applicable, efficient cell culture systems and tools for site-directed mutagenesis of HEV. The cell culture-adapted genotype 3c strain 47832c, which represents a typical genotype predominantly detected in Europe, has previously been used for several basic and applied research studies. Here, a plasmid-based reverse genetics system was developed for this strain, which efficiently rescued the infectious virus without the need for in vitro RNA transcription. The cotransfection of T7 RNA polymerase-expressing BSR/T7 cells with one plasmid encoding the full-length viral genome and two helper plasmids encoding vaccinia virus capping enzymes resulted in the production of infectious HEV, which could be serially passaged on A549/D3 cells. The parental and recombinant virus exhibited similar replication kinetics. A single point mutation creating an additional restriction enzyme site could be successfully introduced into the virus genome of progeny virus, indicating that the system is suitable for site-directed mutagenesis. This system is the first plasmid-based HEV reverse genetics system, as well as the first reverse genetics system for HEV genotype 3c, and should therefore be of broad use for basic and applied HEV research.

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Section: Discussionmentioning

confidence: 83%

Establishment of a Plasmid-Based Reverse Genetics System for the Cell Culture-Adapted Hepatitis E Virus Genotype 3c Strain 47832c

Scholz

Bächlein²,

Gadicherla

et al. 2020

Pathogens

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show abstract

“…The most commonly used are the Sar-55-related genotype 1 clone [ 68 ], the genotype 3a and 3c Kernow-C1- [ 69 ], and 47832-related [ 70 ] clones, respectively, both of which contain insertions in the HVR, and the genotype 4 TW6196 clone [ 71 ]. A recent presentation of a novel in vitro method to produce high viral titers, allowing study of the full HEV replication cycle in cell culture, has additionally created confidence that we may overcome our limited understanding of HEV pathophysiology [ 72 ]. Although these systems are most commonly used in conventional cell culture systems, several animal infection models have been developed.…”

Section: Virologymentioning

confidence: 99%

Hepatitis E Virus Infection: Circulation, Molecular Epidemiology, and Impact on Global Health

et al. 2020

Self Cite

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Infection with hepatitis E virus (HEV) represents the most common source of viral hepatitis globally. Although infecting over 20 million people annually in endemic regions, with major outbreaks described since the 1950s, hepatitis E remains an underestimated disease. This review gives a current view of the global circulation and epidemiology of this emerging virus. The history of HEV, from the first reported enteric non-A non-B hepatitis outbreaks, to the discovery of the viral agent and the molecular characterization of the different human pathogenic genotypes, is discussed. Furthermore, the current state of research regarding the virology of HEV is critically assessed, and the challenges towards prevention and diagnosis, as well as clinical risks of the disease described. Together, these points aim to underline the significant impact of hepatitis E on global health and the need for further in-depth research to better understand the pathophysiology and its role in the complex disease manifestations of HEV infection.

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“…These differences in the requirement for RIG-I, MDA-5, and MAVS could be due to the use of different cell lines. The host response of primary human hepatocytes (PHHs) to an HEV3–Kernow infection revealed the intrinsic expression of the pattern recognition receptors RIG-I, MDA-5, and TLR3, as well as downstream signaling molecules, including Myd88 and MAVS, showing that this model can trigger an innate immune signaling cascade [ 58 ]. The level of IRF7 mRNA in the livers of rhesus macaques was increased at the peak of HEV1-Sar55 infection [ 50 ], but was reduced when the same monkeys were re-infected [ 59 ].…”

Section: Hev Rna Sensing By Infected Cellsmentioning

confidence: 99%

“…Infecting HepG2 cells and PHHs with the same strain confirmed the increases in type III IFNs λ1 and λ2/3 at the mRNA and protein levels, but not those of type I IFNs [ 56 ]. Lastly, gene ontology enrichment analyses of the biological processes of infected PHHs showed that the IFN signaling pathway was among those with the highest ratio of significantly differentially regulated genes [ 58 ]. These results are in line with the microarray analyses of the chimpanzees’ liver response to an HEV1–Sar55 infection [ 65 ].…”

Section: Innate Immune Response To Hevmentioning

confidence: 99%

“…Similarly, infecting human lung epithelial A49 cells with HEV1–DQ459342 also increased ISG production, including ISG15 or IFIT1 [ 49 ]. HepG2 cells or PHHs infected with the HEV3–Kernow strain secreted type III IFNs that activated the transcription of multiple ISGs, including ISG15 and IFIT1 [ 56 , 58 ]. Human liver chimeric mice (homozygous uPA +/+ -SCID mice) infected with HEV1–Sar55 produced increased IFIT1, while the concentrations of TLR3, ISG15, and MAVS remained unchanged [ 71 ].…”

Section: Innate Immune Response To Hevmentioning

confidence: 99%

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Hepatitis E Virus: How It Escapes Host Innate Immunity

et al. 2020

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Hepatitis E virus (HEV) is a leading cause of viral hepatitis in the world. It is usually responsible for acute hepatitis, but can lead to a chronic infection in immunocompromised patients. The host’s innate immune response is the first line of defense against a virus infection; there is growing evidence that HEV RNA is recognized by toll-like receptors (TLRs) and retinoic acid-inducible gene I (RIG-I)-like receptors (RLRs), leading to interferon (IFN) production. The IFNs activate interferon-stimulated genes (ISGs) to limit HEV replication and spread. HEV has developed strategies to counteract this antiviral response, by limiting IFN induction and signaling. This review summarizes the advances in our knowledge of intracellular pathogen recognition, interferon and inflammatory response, and the role of virus protein in immune evasion.

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Robust hepatitis E virus infection and transcriptional response in human hepatocytes

Cited by 70 publications

References 40 publications

Establishment of a Plasmid-Based Reverse Genetics System for the Cell Culture-Adapted Hepatitis E Virus Genotype 3c Strain 47832c

Establishment of a Plasmid-Based Reverse Genetics System for the Cell Culture-Adapted Hepatitis E Virus Genotype 3c Strain 47832c

Hepatitis E Virus Infection: Circulation, Molecular Epidemiology, and Impact on Global Health

Hepatitis E Virus: How It Escapes Host Innate Immunity

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