Hepatitis E Virus: Animal Models and Zoonosis

Hepatitis E virus (HEV) is an important human pathogen that historically has been difficult to study. Limited levels of replication in vitro hindered our understanding of the viral life cycle. Sporadic and low-level virus shedding, lack of standardized detection methods, and subclinical infections made the development of animal models difficult. Better diagnostic techniques and understanding of the virus increased our ability to identify and characterize animal strains and animals that are amenable to model human-relevant infection. These advances are translating into the development of useful HEV animal models so that some of the greatest concerns associated with HEV infection, including host immunology, chronic infection, severe pregnancy mortality, and extrahepatic manifestations, can now be studied. Continued development of these animal models will be instrumental in understanding the many complex questions associated with HEV infection and for assessing therapeutics and prevention strategies to minimize HEV becoming a greater risk to the human population.

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Construction and characterization of infectious cDNA clones of a chicken strain of hepatitis E virus (HEV), avian HEV

Journal of General Virology ◽

10.1099/vir.0.81070-0 ◽

2005 ◽

Vol 86 (9) ◽

pp. 2585-2593 ◽

Cited By ~ 34

Author(s):

F. F. Huang ◽

F. W. Pierson ◽

T. E. Toth ◽

X. J. Meng

Keyword(s):

Hepatitis E Virus ◽

Hepatitis E ◽

Cdna Clones ◽

Virus Shedding ◽

Rna Transcripts ◽

Successful Infection ◽

The Usa ◽

Avian Hev

Hepatitis E virus (HEV), the causative agent of hepatitis E, is an important human pathogen. Increasing evidence indicates that hepatitis E is a zoonosis. Avian HEV was recently discovered in chickens with hepatitis–splenomegaly syndrome in the USA. Like swine HEV from pigs, avian HEV is also genetically and antigenically related to human HEV. The objective of this study was to construct and characterize an infectious cDNA clone of avian HEV for future studies of HEV replication and pathogenesis. Three full-length cDNA clones of avian HEV, pT7-aHEV-5, pT7G-aHEV-10 and pT7G-aHEV-6, were constructed and their infectivity was tested by in vitro transfection of leghorn male hepatoma (LMH) chicken liver cells and by direct intrahepatic inoculation of specific-pathogen-free (SPF) chickens with capped RNA transcripts from the three clones. The results showed that the capped RNA transcripts from each of the three clones were replication competent when transfected into LMH cells as demonstrated by detection of viral antigens with avian HEV-specific antibodies. SPF chickens intrahepatically inoculated with the capped RNA transcripts from each of the three clones developed active avian HEV infections as evidenced by seroconversion to avian HEV antibodies, viraemia and faecal virus shedding. The infectivity was further confirmed by successful infection of naïve chickens with the viruses recovered from chickens inoculated with the RNA transcripts. The results indicated that all three cDNA clones of avian HEV are infectious both in vitro and in vivo. The availability of these infectious clones for a chicken strain of HEV now affords an opportunity to study the mechanisms of HEV cross-species infection and tissue tropism by constructing chimeric viruses among human, swine and avian HEVs.

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Capped RNA Transcripts of Full-Length cDNA Clones of Swine Hepatitis E Virus Are Replication Competent When Transfected into Huh7 Cells and Infectious When Intrahepatically Inoculated into Pigs

Journal of Virology ◽

10.1128/jvi.79.3.1552-1558.2005 ◽

2005 ◽

Vol 79 (3) ◽

pp. 1552-1558 ◽

Cited By ~ 51

Author(s):

Y. W. Huang ◽

G. Haqshenas ◽

C. Kasorndorkbua ◽

P. G. Halbur ◽

S. U. Emerson ◽

...

Keyword(s):

Hepatitis E Virus ◽

Hepatitis E ◽

Cdna Clones ◽

Virus Shedding ◽

Full Length Cdna ◽

Rna Transcripts ◽

Huh7 Cells ◽

Swine Hepatitis ◽

Fecal Virus

ABSTRACT Swine hepatitis E virus (swine HEV), the first animal strain of HEV to be isolated, is a zoonotic agent. We report here the construction and in vitro and in vivo characterizations of infectious cDNA clones of swine HEV. Eight overlapping fragments spanning the entire genome were amplified by reverse transcription-PCR and assembled into a full-length cDNA clone, clone C, which contained 14 mutations compared to the consensus sequence of swine HEV. RNA transcripts from clone C were not infectious, as determined by intrahepatic inoculation into pigs and by in vitro transfection of Huh7 cells. Multiple site-based site-directed mutagenesis was performed to generate three new cDNA clones (pSHEV-1, pSHEV-2, and pSHEV-3) which differed from each other. The transfection of capped RNA transcripts into human liver Huh7 cells resulted in the synthesis of both ORF2 capsid and ORF3 proteins, indicating that the cDNA clones were replication competent. Each of the three clones resulted in active swine HEV infections after the intrahepatic inoculation of pigs with capped RNA transcripts. The patterns of seroconversion, viremia, and fecal virus shedding for pigs inoculated with RNA transcripts from clones pSHEV-2 and pSHEV-3 were similar to each other and to those for pigs inoculated with wild-type swine HEV, suggesting that the nucleotide differences between these two cDNA clones were not critical for replication. Pigs inoculated with RNA transcripts from clone pSHEV-1, which contained three nonsilent mutations in the ORF2 capsid gene, had a delayed appearance of seroconversion and fecal virus shedding and had undetectable viremia. The availability of these infectious cDNA clones affords us an opportunity to understand the mechanisms of cross-species infection by constructing chimeric human and swine HEVs.

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1354 IN VITRO INFECTION AND REPLICATION OF HEPATITIS E VIRUS IN HUMAN HEPATOCYTES

Journal of Hepatology ◽

10.1016/s0168-8278(11)61356-1 ◽

2011 ◽

Vol 54 ◽

pp. S535

Author(s):

Y. Oshiro ◽

H. Yasue ◽

S. Hattori ◽

M. Chiba ◽

T. Naito ◽

...

Keyword(s):

Hepatitis E Virus ◽

Hepatitis E ◽

Human Hepatocytes

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Hepatitis E Virus Immunopathogenesis

Pathogens ◽

10.3390/pathogens10091180 ◽

2021 ◽

Vol 10 (9) ◽

pp. 1180

Author(s):

Kush Kumar Yadav ◽

Scott P. Kenney

Keyword(s):

Hepatitis E Virus ◽

Organ Transplant ◽

Hepatitis E ◽

Oral Route ◽

Solid Organ ◽

Immunocompromised Patients ◽

In Vivo Models ◽

Transplant Patients

Hepatitis E virus is an important emerging pathogen producing a lethal impact on the pregnant population and immunocompromised patients. Starting in 1983, it has been described as the cause for acute hepatitis transmitted via the fecal–oral route. However, zoonotic and blood transfusion transmission of HEV have been reported in the past few decades, leading to the detailed research of HEV pathogenesis. The reason behind HEV being highly virulent to the pregnant population particularly during the third trimester, leading to maternal and fetal death, remains unknown. Various host factors (immunological, nutritional, hormonal) and viral factors have been studied to define the key determinants assisting HEV to be virulent in pregnant and immunocompromised patients. Similarly, chronic hepatitis is seen particularly in solid organ transplant patients, resulting in fatal conditions. This review describes recent advances in the immunopathophysiology of HEV infections in general, pregnant, and immunocompromised populations, and further elucidates the in vitro and in vivo models utilized to understand HEV pathogenesis.

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Optimized Hepatitis E Virus (HEV) Culture and Its Application to Measurements of HEV Infectivity

Viruses ◽

10.3390/v12020139 ◽

2020 ◽

Vol 12 (2) ◽

pp. 139 ◽

Cited By ~ 2

Author(s):

Nicolas Capelli ◽

Martine Dubois ◽

Mélanie Pucelle ◽

Isabelle Da Silva ◽

Sébastien Lhomme ◽

...

Keyword(s):

Hepatitis E Virus ◽

Fetal Bovine Serum ◽

Hepatitis E ◽

Chronic Liver Diseases ◽

Infectious Dose ◽

Clinical Strains ◽

Fetal Bovine ◽

Culture Supernatants ◽

Tissue Culture Infectious Dose

Hepatitis E virus (HEV) is a major concern in public health worldwide. Infections with HEV genotypes 3, 4, or 7 can lead to chronic hepatitis while genotype 1 infections can trigger severe hepatitis in pregnant women. Infections with all genotypes can worsen chronic liver diseases. As virions are lipid-associated in blood and naked in feces, efficient methods of propagating HEV clinical strains in vitro and evaluating the infectivity of both HEV forms are needed. We evaluated the spread of clinical strains of HEV genotypes 1 (HEV1) and 3 (HEV3) by quantifying viral RNA in culture supernatants and cell lysates. Infectivity was determined by endpoint dilution and calculation of the tissue culture infectious dose 50 (TCID50). An enhanced HEV production could be obtained varying the composition of the medium, including fetal bovine serum (FBS) and dimethylsulfoxide (DMSO) content. This increased TCID50 from 10 to 100-fold and allowed us to quantify HEV1 infectivity. These optimized methods for propagating and measuring HEV infectivity could be applied to health safety processes and will be useful for testing new antiviral drugs.

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Synthetic Peptides Containing Three Neutralizing Epitopes of Genotype 4 Swine Hepatitis E Virus ORF2 induced Protection against Swine HEV Infection in Rabbit

Vaccines ◽

10.3390/vaccines8020178 ◽

2020 ◽

Vol 8 (2) ◽

pp. 178

Author(s):

Yiyang Chen ◽

Tianxiang Chen ◽

Yuhang Luo ◽

Jie Fan ◽

Meimei Zhang ◽

...

Keyword(s):

Hepatitis E Virus ◽

Keyhole Limpet Hemocyanin ◽

Hepatitis E ◽

Genotype 4 ◽

Virus Shedding ◽

Fecal Shedding ◽

Orf2 Protein ◽

Swine Hepatitis ◽

Phosphate Buffered Saline ◽

Neutralizing Epitopes

Genotype 4 hepatitis E virus (HEV) is a zoonotic pathogen transmitted to humans through food and water. Previously, three genotype 4 swine HEV ORF2 peptides (407EPTV410, 410VKLYTS415, and 458PSRPF462) were identified as epitopes of virus-neutralizing monoclonal antibodies that partially blocked rabbit infection with swine HEV. Here, individual and tandem fused peptides were synthesized, conjugated to keyhole limpet hemocyanin (KLH), then evaluated for immunoprotection of rabbits against swine HEV infection. Forty New Zealand White rabbits were randomly assigned to eight groups; groups 1 thru 5 received three immunizations with EPTV-KLH, VKLYTS-KLH, PSRPF-KLH, EPTVKLYTS-KLH, or EPTVKLYTSPSRPF-KLH, respectively; group 6 received truncated swine HEV ORF2 protein (sp239), and group 7 received phosphate-buffered saline. After an intravenous swine HEV challenge, all group 7 rabbits exhibited viremia and fecal virus shedding by 2–4 weeks post challenge (wpc), seroconversion by 4–9 wpc, elevated alanine aminotransferase (ALT) at 2 wpc, and severe liver lymphocytic venous periphlebitis. Only 1–2 rabbits/group in groups 1–4 exhibited delayed viremia, fecal shedding, seroconversion, increased ALT levels, and slight liver lymphocytic venous periphlebitis; groups 5–6 showed no pathogenic effects. Collectively, these results demonstrate that immunization with a polypeptide containing three genotype 4 HEV ORF2 neutralizing epitopes completely protected rabbits against swine HEV infection.

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Vertical Transmission of Listeria monocytogenes: Probing the Balance between Protection from Pathogens and Fetal Tolerance

Pathogens ◽

10.3390/pathogens7020052 ◽

2018 ◽

Vol 7 (2) ◽

pp. 52 ◽

Cited By ~ 10

Author(s):

Nicole Lamond ◽

Nancy Freitag

Keyword(s):

Cell Culture ◽

Listeria Monocytogenes ◽

Animal Models ◽

Vertical Transmission ◽

Surface Proteins ◽

Placental Barrier ◽

Bacterial Surface ◽

Organ Models ◽

The Many

Protection of the developing fetus from pathogens is one of the many critical roles of the placenta. Listeria monocytogenes is one of a select number of pathogens that can cross the placental barrier and cause significant harm to the fetus, leading to spontaneous abortion, stillbirth, preterm labor, and disseminated neonate infection despite antibiotic treatment. Such severe outcomes serve to highlight the importance of understanding how L. monocytogenes mediates infiltration of the placental barrier. Here, we review what is currently known regarding vertical transmission of L. monocytogenes as a result of cell culture and animal models of infection. In vitro cell culture and organ models have been useful for the identification of L. monocytogenes virulence factors that contribute to placental invasion. Examples include members of the Internalin family of bacterial surface proteins such as Interalin (Inl)A, InlB, and InlP that promote invasion of cells at the maternal-fetal interface. A number of animal models have been used to interrogate L. monocytogenes vertical transmission, including mice, guinea pigs, gerbils, and non-human primates; each of these models has advantages while still not providing a comprehensive understanding of L. monocytogenes invasion of the human placenta and/or fetus. These models do, however, allow for the molecular investigation of the balance between fetal tolerance and immune protection from L. monocytogenes during pregnancy.

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Hepatitis E virus

10.1093/med/9780198570028.003.0048 ◽

2011 ◽

Author(s):

X. J. Meng

Keyword(s):

Hepatitis E Virus ◽

Animal Species ◽

Rna Virus ◽

Hepatitis E ◽

Open Reading Frames ◽

Industrialized Countries ◽

Efficient Cell Culture System ◽

The Family ◽

Avian Hev ◽

Animal Strains

Hepatitis E virus (HEV) is a small, non-enveloped, single-strand, positive-sense RNA virus of approximately 7.2 kb in size. HEV is classified in the family Hepeviridae consisting of four recognized major genotypes that infect humans and other animals. Genotypes 1 and 2 HEV are restricted to humans and often associated with large outbreaks and epidemics in developing countries with poor sanitation conditions, whereas genotypes 3 and 4 HEV infect humans, pigs and other animal species and are responsible for sporadic cases of hepatitis E in both developing and industrialized countries. The avian HEV associated with Hepatitis-Splenomegaly syndrome in chickens is genetically and antigenically related to mammalian HEV, and likely represents a new genus in the family. There exist three open reading frames in HEV genome: ORF1 encodes non-structural proteins, ORF2 encodes the capsid protein, and the ORF3 encodes a small phosphoprotein. ORF2 and ORF3 are translated from a single bicistronic mRNA, and overlap each other but neither overlaps ORF1. Due to the lack of an efficient cell culture system and a practical animal model for HEV, the mechanisms of HEV replication and pathogenesis are poorly understood. The recent identification and characterization of animal strains of HEV from pigs and chickens and the demonstrated ability of cross-species infection by these animal strains raise potential public health concerns for zoonotic HEV transmission. It has been shown that the genotypes 3 and 4 HEV strains from pigs can infect humans, and vice versa. Accumulating evidence indicated that hepatitis E is a zoonotic disease, and swine and perhaps other animal species are reservoirs for HEV. A vaccine against HEV is not yet available.

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Evidence of the Extrahepatic Replication of Hepatitis E Virus in Human Endometrial Stromal Cells

Pathogens ◽

10.3390/pathogens9040295 ◽

2020 ◽

Vol 9 (4) ◽

pp. 295 ◽

Cited By ~ 5

Author(s):

Mohamed A. El-Mokhtar ◽

Essam R. Othman ◽

Maha Y. Khashbah ◽

Ali Ismael ◽

Mohamed AA Ghaliony ◽

...

Keyword(s):

Capsid Protein ◽

Stromal Cells ◽

Hepatitis E Virus ◽

Inflammatory Responses ◽

Hepatitis E ◽

Endometrial Stromal Cells ◽

Extrahepatic Replication ◽

Efficient Replication ◽

Over Time

Hepatitis E virus (HEV) is the most common cause of acute viral hepatitis worldwide. The tropism of HEV is not restricted to the liver, and the virus replicates in other organs. Not all the extrahepatic targets for HEV are identified. Herein, we found that non-decidualized primary human endometrial stromal cells (PHESCs), which are precursors for the decidua and placenta, are susceptible to HEV infection. PHESCs, isolated from healthy non-pregnant women (n = 5), were challenged with stool-derived HEV-1 and HEV-3. HEV RNA was measured by qPCR, and HEV capsid protein was assessed by flow cytometry, immunofluorescence (IF), and ELISA. HEV infection was successfully established in PHESCs. Intracellular and extracellular HEV RNA loads were increased over time, indicating efficient replication in vitro. In addition, HEV capsid protein was detected intracellularly in the HEV-infected PHESCs and accumulated extracellularly over time, confirming the viral assembly and release from the infected cells. HEV-1 replicated more efficiently in PHESCs than HEV-3 and induced more inflammatory responses. Ribavirin (RBV) treatment abolished the replication of HEV in PHESCs. In conclusion, PHESCs are permissive to HEV infection and these cells could be an endogenous source of HEV infection during pregnancy and mediate HEV vertical transmission.

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