Prevalence, genetic diversity and recombination of species G enteroviruses infecting pigs in Vietnam

Dũng, Nguyễn Văn; Anh, Pham Hong; Cương, Nguyễn Văn; Hoa, Ngo Thi; Carrique-Mas, Juan; Hien, Vo Be; Baker, Stephen; Farrar, Jeremy; Woolhouse, Mark; Bryant, Juliet E.; Simmonds, Peter

doi:10.1099/vir.0.061978-0

Cited by 40 publications

(69 citation statements)

References 32 publications

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“…Furthermore, the highly recombinogenic nature of PV was associated with the emergence of pathogenic vaccine-derived viruses during the global polio eradication campaign (10)(11)(12). Recombination within animal species of simian, swine, and bovine enteroviruses has also been documented (58)(59)(60). A typical example is the emergence of swine vesicular disease virus (SVDV), which is genetically closely linked to coxsackievirus B5 (CV-B5).…”

Section: Discussionmentioning

confidence: 99%

A Naturally Occurring Recombinant Enterovirus Expresses a Torovirus Deubiquitinase

Shang

Misra

Hause

et al. 2017

J Virol

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Enteroviruses (EVs) are implicated in a wide range of diseases in humans and animals. In this study, a novel enterovirus (enterovirus species G [EVG]) (EVG 08/NC_USA/2015) was isolated from a diagnostic sample from a neonatal pig diarrhea case and identified by using metagenomics and complete genome sequencing. The viral genome shares 75.4% nucleotide identity with a prototypic EVG strain (PEV9 UKG/410/73). Remarkably, a 582-nucleotide insertion, flanked by 3C pro cleavage sites at the 5= and 3= ends, was found in the 2C/3A junction region of the viral genome. This insertion encodes a predicted protease with 54 to 68% amino acid identity to torovirus (ToV) papain-like protease (PLP) (ToV-PLP). Structural homology modeling predicts that this protease adopts a fold and a catalytic site characteristic of minimal PLP catalytic domains. This structure is similar to those of core catalytic domains of the foot-and-mouth disease virus leader protease and coronavirus PLPs, which act as deubiquitinating and deISGylating (interferon [IFN]-stimulated gene 15 [ISG15]-removing) enzymes on host cell substrates. Importantly, the recombinant ToV-PLP protein derived from this novel enterovirus also showed strong deubiquitination and deISGylation activities and demonstrated the ability to suppress IFN-␤ expression. Using reverse genetics, we generated a ToV-PLP knockout recombinant virus. Compared to the wild-type virus, the ToV-PLP knockout mutant virus showed impaired growth and induced higher expression levels of innate immune genes in infected cells. These results suggest that ToV-PLP functions as an innate immune antagonist; enterovirus G may therefore gain fitness through the acquisition of ToV-PLP from a recombination event.IMPORTANCE Enteroviruses comprise a highly diversified group of viruses. Genetic recombination has been considered a driving force for viral evolution; however, recombination between viruses from two different orders is a rare event. In this study, we identified a special case of cross-order recombination between enterovirus G (order Picornavirales) and torovirus (order Nidovirales). This naturally occurring recombination event may have broad implications for other picornaviral and/or nidoviral species. Importantly, we demonstrated that the exogenous ToV-PLP gene that was inserted into the EVG genome encodes a deubiquitinase/ deISGylase and potentially suppresses host cellular innate immune responses. Our results provide insights into how a gain of function through genetic recombination, in particular cross-order recombination, may improve the ability of a virus to evade host immunity.KEYWORDS enterovirus G, torovirus, genetic recombination, papain-like protease, deubiquitinase

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Section: Discussionmentioning

confidence: 99%

A Naturally Occurring Recombinant Enterovirus Expresses a Torovirus Deubiquitinase

Shang

Misra

Hause

et al. 2017

J Virol

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confidence: 99%

“…In 2016, the prevalence of EV-G infections in Vietnam was up to 90 % in piglets and 40 % in pigs over 1 year of age [8,9], and the prevalence among Spanish swine herds at six farms ranged from 2 to 82 % [10]. A recent analysis found no difference in the prevalence of EV-G infection in pigs from Vietnam, with or without diarrhoea [8]. Indeed, EV-G has not been widely associated with pathogenic diseases in swine, except for single reports of skin lesions [11], flaccid paralysis [12] and the case (Porcine/USA/Texas1/2014, Porcine/USA/ Texas2/2014) of diarrhoeic pigs described in this study.…”

mentioning

confidence: 99%

A porcine enterovirus G associated with enteric disease contains a novel papain-like cysteine protease

Knutson

Velayudhan²,

Marthaler

2017

Journal of General Virology

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Identification of unknown pathogens in pigs displaying enteric illness is difficult due to the large diversity of bacterial and viral species found within faecal samples. Current methods often require bacterial or viral isolation, or testing only a limited number of known species using quantitative PCR analysis. Herein, faeces from two 25-day-old piglets with diarrhoea from Texas, USA, were analysed by metagenomic next-generation sequencing to rapidly identify possible pathogens. Our analysis included a bioinformatics pipeline of rapid short-read classification and de novo genome assembly which resulted in the identification of a porcine enterovirus G (EV-G), a complete genome with substantial nucleotide differences (>30 %) among current sequences, and a novel non-structural protein similar in sequence to the Torovirus papain-like cysteine protease (PLpro). This discovery led to the identification and circulation of an EV-G with a novel PLpro in the USA that has not been previously reported.

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“…Enterovirus and rhinovirus species groups are dependent upon, and defined by, ongoing recombination among viruses within each species group (6)(7)(8)(9)(10)(11)(12). The capsid genes and nonstructural genes of viruses within each species group evolve separately due to the distinct functions and selective pressures associated with these gene cassettes (8).…”

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Poliovirus Polymerase Leu420 Facilitates RNA Recombination and Ribavirin Resistance

Kempf

Peersen

Barton

2016

J Virol

107

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RNA recombination is important in the formation of picornavirus species groups and the ongoing evolution of viruses within species groups. In this study, we examined the structure and function of poliovirus polymerase, 3D pol , as it relates to RNA recombination. Recombination occurs when nascent RNA products exchange one viral RNA template for another during RNA replication. Because recombination is a natural aspect of picornavirus replication, we hypothesized that some features of 3D pol may exist, in part, to facilitate RNA recombination. Furthermore, we reasoned that alanine substitution mutations that disrupt 3D pol -RNA interactions within the polymerase elongation complex might increase and/or decrease the magnitudes of recombination. We found that an L420A mutation in 3D pol decreased the frequency of RNA recombination, whereas alanine substitutions at other sites in 3D pol increased the frequency of recombination. The 3D pol Leu420 side chain interacts with a ribose in the nascent RNA product 3 nucleotides from the active site of the polymerase. Notably, the L420A mutation that reduced recombination also rendered the virus more susceptible to inhibition by ribavirin, coincident with the accumulation of ribavirin-induced G¡A and C¡U mutations in viral RNA. We conclude that 3D pol Leu420 is critically important for RNA recombination and that RNA recombination contributes to ribavirin resistance. IMPORTANCE Recombination contributes to the formation of picornavirus species groups and the emergence of circulating vaccine-derived polioviruses (cVDPVs).The recombinant viruses that arise in nature are occasionally more fit than either parental strain, especially when the two partners in recombination are closely related, i.e., members of characteristic species groups, such as enterovirus species groups A to H or rhinovirus species groups A to C. Our study shows that RNA recombination requires conserved features of the viral polymerase. Furthermore, a polymerase mutation that disables recombination renders the virus more susceptible to the antiviral drug ribavirin, suggesting that recombination contributes to ribavirin resistance. Elucidating the molecular mechanisms of RNA replication and recombination may help mankind achieve and maintain poliovirus eradication. Picornaviruses are widespread in nature. Based on their ancient origins (1) and shared molecular features (2), picornaviruses are taxonomically organized by order, family, genus, species, and virus. Viruses in the family Picornaviridae are classified within 29 genera and 50 species groups. The genus Enterovirus, with 12 species groups (enterovirus species A to J and rhinovirus species A to C), contains the vast majority of medically important picornaviruses, including the polioviruses (PV), coxsackieviruses, enteroviruses, echoviruses, and rhinoviruses. These viruses, which possess single-stranded positive-sense RNA genomes, replicate via RNA intermediates in the cytoplasm of infected cells. A virus-encoded RNA-dependent RNA polymerase, 3D pol...

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Prevalence, genetic diversity and recombination of species G enteroviruses infecting pigs in Vietnam

Cited by 40 publications

References 32 publications

A Naturally Occurring Recombinant Enterovirus Expresses a Torovirus Deubiquitinase

A Naturally Occurring Recombinant Enterovirus Expresses a Torovirus Deubiquitinase

A porcine enterovirus G associated with enteric disease contains a novel papain-like cysteine protease

Poliovirus Polymerase Leu420 Facilitates RNA Recombination and Ribavirin Resistance

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