Tim J. Harrison scite author profile

The family Hepeviridae consists of positive-stranded RNA viruses that infect a wide range of mammalian species, as well as chickens and trout. A subset of these viruses infects humans and can cause a self-limiting acute hepatitis that may become chronic in immunosuppressed individuals. Current published descriptions of the taxonomical divisions within the family Hepeviridae are contradictory in relation to the assignment of species and genotypes. Through analysis of existing sequence information, we propose a taxonomic scheme in which the family is divided into the genera Orthohepevirus (all mammalian and avian hepatitis E virus (HEV) isolates) and Piscihepevirus (cutthroat trout virus). Species within the genus Orthohepevirus are designated Orthohepevirus A (isolates from human, pig, wild boar, deer, mongoose, rabbit and camel), Orthohepevirus B (isolates from chicken), Orthohepevirus C (isolates from rat, greater bandicoot, Asian musk shrew, ferret and mink) and Orthohepevirus D (isolates from bat). Proposals are also made for the designation of genotypes within the human and rat HEVs. This hierarchical system is congruent with hepevirus phylogeny, and the three classification levels (genus, species and genotype) are consistent with, and reflect discontinuities in the ranges of pairwise distances between amino acid sequences. Adoption of this system would include the avoidance of host names in taxonomic identifiers and provide a logical framework for the assignment of novel variants.

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Proposed reference sequences for hepatitis E virus subtypes

Smith

et al. 2016

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The nomenclature of hepatitis E virus (HEV) subtypes is inconsistent and makes comparison of different studies problematic. We have provided a table of proposed complete genome reference sequences for each subtype. The criteria for subtype assignment vary between different genotypes and methodologies, and so a conservative pragmatic approach has been favoured. Updates to this table will be posted on the International Committee on Taxonomy of Viruses website (http://talk.ictvonline.org/r.ashx?C). The use of common reference sequences will facilitate communication between researchers and help clarify the epidemiology of this important human pathogen. This subtyping procedure might be adopted for other taxa of the genus Orthohepevirus.The current literature contains several inconsistencies in the naming of hepatitis E virus (HEV) subtypes, which often creates confusion in the scientific community. HEV is a member of the family Hepeviridae within the genus Orthohepevirus. The genus has three species that infect birds (Orthohepevirus B), rodents, soricomorphs and carnivores (Orthohepevirus C) or bats (Orthohepevirus D), and one species, Orthohepevirus A, comprising seven genotypes that infect humans (HEV-1, -2, -3, -4 and -7), pigs (HEV-3 and -4), rabbit (HEV-3), wild boar (HEV-3, -4, -5 and -6), 3Members of the ICTV Hepeviridae study group.

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L-685,458, an Aspartyl Protease Transition State Mimic, Is a Potent Inhibitor of Amyloid β-Protein Precursor γ-Secretase Activity

et al. 2000

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Progressive cerebral amyloid beta-protein (A beta) deposition is believed to play a central role in the pathogenesis of Alzheimer's disease (AD). Elevated levels of A beta(42) peptide formation have been linked to early-onset familial AD-causing gene mutations in the amyloid beta-protein precursor (A beta PP) and the presenilins. Sequential cleavage of A beta PP by the beta- and gamma-secretases generates the N- and C-termini of the A beta peptide, making both the beta- and gamma-secretase enzymes potential therapeutic targets for AD. The identity of the A beta PP gamma-secretase and the mechanism by which the C-termini of A beta are formed remain uncertain, although it has been suggested that the presenilins themselves are novel intramembrane-cleaving gamma-secretases of the aspartyl protease class [Wolfe, M. S., Xia, W., Ostaszewski, B. L., Diehl, T. S., Kimberly, W. T., and Selkoe, D. J. (1999) Nature 398, 513-517]. In this study we report the identification of L-685,458 as a structurally novel inhibitor of A beta PP gamma-secretase activity, with a similar potency for inhibition of A beta(42) and A beta(40) peptides. This compound contains an hydroxyethylene dipeptide isostere which suggests that it could function as a transition state analogue mimic of an aspartyl protease. The preferred stereochemistry of the hydroxyethylene dipeptide isostere was found to be the opposite to that required for inhibition of the HIV-1 aspartyl protease, a factor which may contribute to the observed specificity of this compound. Specific and potent inhibitors of A beta PP gamma-secretase activity such as L-685,458 will enable important advances toward the identification and elucidation of the mechanism of action of this enigmatic protease.

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A novel genotype of hepatitis E virus prevalent among farmed rabbits in China

Zhao

Harrison

et al. 2009

Journal of Medical Virology

305

249

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In total, 335 serum samples were collected from rabbits from two farms in Gansu province, China, and tested for anti-hepatitis E virus (HEV) antibody using EIA and for HEV RNA using nested RT- PCR with ORF2 primers. The overall prevalence of anti-HEV antibody and HEV RNA was 57.0% (191/335) and 7.5% (25/335), respectively. The positivity rate of HEV RNA in the anti-HEV antibody negative group (7.6% (11/144)) did not differ significantly from that in the positive group (7.3% (14/191)). The concordance between HEV RNA and anti-HEV antibody was 43.3% with no significant correlation (P < 0.05). All 25 amplicons from the ORF2 region were cloned and sequenced. On the basis of nucleotide sequence comparison, they had 84-99% identity to each other and 73-77%, 70-76%, 75-82%, 71-77%, and 53-65% with the corresponding regions of genotypes 1, 2, 3, 4, and avian HEV, respectively. Samples that were positive with the ORF2 primers were amplified using ORF1 region primers; 17 were positive and shared 71-78%, 73-76%, 74-82%, 72-78%, and 39-58% identity with the corresponding regions of genotypes 1, 2, 3, 4, and avian HEV, respectively, at the nucleotide level. Two representative full-length sequences were determined. These two sequences shared 85% identity with each other and had 74%, 73%, 78-79%, 74-75%, and 46-47% identity to full-length genotypes 1, 2, 3, 4, and avian HEV, respectively. Thus, the sequences isolated from the rabbits represent a novel genotype of HEV. This study provides novel information about HEV genotypes infecting rabbits as well as evidence of a new mammalian genotype of HEV.

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Non–Travel‐Associated Hepatitis E in England and Wales: Demographic, Clinical, and Molecular Epidemiological Characteristics

Ijaz¹,

Arnold

Banks³

et al. 2005

J INFECT DIS

221

230

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Between 1996 and 2003, 186 cases of hepatitis E were serologically diagnosed. Of these, 17 (9%) were not associated with recent travel abroad. Patients were >55 years old (range, 56-82 years old) and tended to be male (76%). Two patients presented with fulminant hepatitis. A total of 129 (69%) cases were associated with recent travel to countries where hepatitis E virus (HEV) is hyperendemic. Compared with patients with travel-associated disease, patients with non-travel-associated disease were more likely to be older, living in coastal or estuarine areas, not of South Asian ethnicity, and infected by genotype 3 strains of HEV. The genotype 3 subgenomic nucleotide sequences were unique and closely related to those from British pigs. Patients infected by HEV indigenous to England and Wales tended to belong to a distinct demographic group, there were multiple sources of infection, and pigs might have been a viral reservoir.

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Tim J. Harrison

Consensus proposals for classification of the family Hepeviridae

Proposed reference sequences for hepatitis E virus subtypes

L-685,458, an Aspartyl Protease Transition State Mimic, Is a Potent Inhibitor of Amyloid β-Protein Precursor γ-Secretase Activity

A novel genotype of hepatitis E virus prevalent among farmed rabbits in China

Non–Travel‐Associated Hepatitis E in England and Wales: Demographic, Clinical, and Molecular Epidemiological Characteristics

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