The Avian-Origin PB1 Gene Segment Facilitated Replication and Transmissibility of the H3N2/1968 Pandemic Influenza Virus

Wendel, Isabel; Rubbenstroth, Dennis; Doedt, Jennifer; Kochs, Georg; Wilhelm, Jochen; Staeheli, Peter; Klenk, Hans‐Dieter; Matrosovich, Mikhail

doi:10.1128/jvi.03194-14

Cited by 26 publications

(24 citation statements)

References 43 publications

(47 reference statements)

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“…Recently, Wendel et al (2015) demonstrated that the viral polymerase activity of a seasonal H2N2 vRNP can be enhanced by replacing its PB1 with an HK/68 PB1. Our findings also support this, but our results further suggest that there are some mutations in the PB2 of the HK/68 virus that also might contribute to the enhanced viral polymerase activity of pandemic H3N2 virus (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Both 1957 and 1968 pandemic viruses had an avian PB1 segment, whereas the 2009 pandemic virus had avian PB2 and PA gene segments circulating in swine influenza viruses (Kawaoka et al, 1989;Smith et al, 2009;Webby et al, 2000). Although there is some evidence suggesting that reassorted polymerase complexes with avian PB1 might have enhanced polymerase activity in human cells (Chen et al, 2008;Li et al, 2009;Naffakh et al, 2000;Wendel et al, 2015), the evolutionary advantages of having a reassorted polymerase complex in a pandemic virus are not clear. For example, it is not known whether a reassorted polymerase might have a role in facilitating the genesis or transmission of pandemic influenza virus.…”

Section: Introductionmentioning

confidence: 99%

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Recombinant influenza virus with a pandemic H2N2 polymerase complex has a higher adaptive potential than one with seasonal H2N2 polymerase complex

Chin

Yen

Krauss

et al. 2016

Journal of General Virology

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The reassortment of influenza viral gene segments plays a key role in the genesis of pandemic strains. All of the last three pandemic viruses contained reassorted polymerase complexes with subunits derived from animal viruses, suggesting that the acquisition of a reassorted polymerase complex might have a role in generating these pandemic viruses. Here, we studied polymerase activities of the pandemic H2N2, seasonal H2N2 and pandemic H3N2 viruses. We observed that the viral ribonucleoprotein (vRNP) of pandemic H2N2 virus has a highly robust activity. The polymerase activity of seasonal H2N2 viruses, however, was much reduced. We further identified three mutations (PB2-I114V, PB1-S261N and PA-D383N) responsible for the reduced activity. To determine the potential impact of viral polymerase activity on the viral life cycle, recombinant H3N2 viruses carrying pandemic and seasonal H2N2 vRNP were studied in cell cultures supplemented with oseltamivir carboxylate and tested for their abilities to develop adaptive or resistant mutations. It was found that the recombinant virus with pandemic H2N2 vRNP was more capable of restoring the viral fitness than the one with seasonal vRNP. These results suggest that a robust vRNP is advantageous to influenza virus to cope with a new selection pressure.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Recombinant influenza virus with a pandemic H2N2 polymerase complex has a higher adaptive potential than one with seasonal H2N2 polymerase complex

Chin

Yen

Krauss

et al. 2016

Journal of General Virology

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“…Moreover, the reassortment between a human H3N2 and an avian H5N1 virus led to the generation of an avian PB1-containing reassortant with increased virulence in vivo, although the reassorted polymerase activity remained unchanged in vitro [15]. Swapping the PB1 segment of a human seasonal H2N2 virus with that of the 1968 pandemic strain, which is of avian-origin, increased viral polymerase activity and facilitated replication and transmission of the reassortant virus in guinea pigs [16].The 2009 pandemic H1N1 (pH1N1) is a "quadruple reassortant" virus resulted from the reassortment between the "triple reassortant" North American swine H1N2 viruses and the Eurasian "avian-like" swine H1N1 viruses. It contains the PB2 and PA gene segments of avian-origin, and the PB1 segment originated from human seasonal H3N2 viruses.…”

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confidence: 99%

Acquisition of Avian-Origin PB1 Facilitates Viral RNA Synthesis by the 2009 Pandemic H1N1 Virus Polymerase

Wang

GuanQun

et al. 2020

Viruses

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The constant crosstalk between the large avian reservoir of influenza A viruses (IAV) and its mammalian hosts drives viral evolution and facilitates their host switching. Direct adaptation of an avian strain to human or reassortment between avian-origin gene segments with that of human strains are the two mechanisms for the emergence of pandemic viruses. While it was suggested that the 1918 pandemic virus is of avian origin, reassortment of 1918 human isolates and avian influenza viruses led to the generation of 1957 and 1968 pandemic viruses. Interestingly, the avian PB1 segment, which encodes the catalytic subunit of IAV polymerase, is present in the 1957 and 1968 pandemic viruses. The biological consequence and molecular basis of such gene exchange remain less well understood. Using the 2009 pandemic H1N1 virus as a model, whose polymerase contains a human-origin PB1 subunit, we demonstrate that the acquisition of an avian PB1 markedly enhances viral RNA synthesis. This enhancement is also effective in the absence of PB2 adaptive mutations, which are key determinants of host switching. Mechanistically, the avian-origin PB1 does not appear to affect polymerase assembly but imparts the reassorted pandemic polymerase-augmented viral primary transcription and replication. Moreover, compared to the parental pandemic polymerase, the reassorted polymerase displays comparable complementary RNA (cRNA)-stabilizing activity but is specifically enhanced in progeny viral RNA (vRNA) synthesis from cRNA in a trans-activating manner. Overall, our results provide the first insight into the mechanism via which avian-origin PB1 enhances viral RNA synthesis of the 2009 pandemic virus polymerase.

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“…Notably, a recent study revealed that the avian-origin PB1 segment that represents the ancestor of the PB1 of the pandemic 2009 H1N1 influenza virus further facilitated the transmission and replication of the pandemic human H3N2 influenza virus in 1968 (Wendel et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

The PB1 segment of an influenza A virus H1N1 2009pdm isolate enhances the replication efficiency of specific influenza vaccine strains in cell culture and embryonated eggs

Mostafa

Kanrai

Ziebuhr

et al. 2016

Journal of General Virology

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Influenza vaccine strains (IVSs) contain the haemagglutinin (HA) and neuraminidase (NA) genome segments of relevant circulating strains in the genetic background of influenza A/ PR/8/1934 virus (PR8). Previous work has shown that the nature of the PB1 segment may be a limiting factor for the efficient production of IVSs. Here, we showed that the PB1 segment (PB1 Gi ) from the 2009 pandemic influenza A virus (IAV) A/Giessen/06/2009 (Gi wt, H1N1pdm) may help to resolve (some of) these limitations. We produced a set of recombinant PR8-derived viruses that contained (i) the HA and NA segments from representative IAV strains (H3N2, H5N1, H7N9, H9N2); (ii) the PB1 segment from PR8 or Gi wt, respectively; and (iii) the remaining five genome segments from PR8. Viruses containing the PB1 Gi segment, together with the heterologous HA/NA segments and five PR8 segments (5+2+1), replicated to higher titres compared with their 6+2 counterparts containing six PR8 segments and the equivalent heterologous HA/NA segments. Compared with PB1 PR8 -containing IVSs, viruses with the PB1 Gi segment replicated to higher or similar titres in both cell culture and embryonated eggs, most profoundly IVSs of the H5N1 and H7N9 subtype, which are known to grow poorly in these systems. IVSs containing either the PB1 Gi or the cognate PB1 segment of the respective specific HA/NA donor strain showed enhanced or similar virus replication levels. This study suggests that substitution of PB1 PR8 with the PB1 Gi segment may greatly improve the large-scale production of PR8-derived IVSs, especially of those known to replicate poorly in vitro. INTRODUCTIONInfluenza viruses belong to the family Orthomyxoviridae and are classified into three genera termed Influenza virus A, B and C. Among these, influenza A viruses (IAVs) pose the greatest threat to human and animal health. They contain eight segments of negative-sense ssRNA (Ritchey et al., 1976;Shaw & Palese, 2013). The eight genomic segments encode at least 10 viral proteins, comprising the three subunits of the viral RNA polymerase complex [polymerase basic protein 2 (PB2), polymerase basic protein 1 (PB1) and polymerase acidic protein (PA)], the surface glycoproteins [haemagglutinin (HA) and neuraminidase (NA)], the nucleoprotein (NP), the matrix protein (M1), the ion channel protein (M2), the non-structural protein 1 (NS1) and the nuclear export protein (NEP). IAVs are genetically diverse, with new strains rapidly emerging by point mutations introduced by the low-fidelity viral RNA replicase (potentially resulting in antigenic drift if changes occur in the HA and/or NA coding sequences and affect important antigenic epitopes) or by genetic reassortment of genomic segments (potentially leading to antigenic shift if antigenically distant HA and NA segments are incorporated). Minor and major antigenic changes in the HA and NA proteins of circulating IAV are important driving forces for the emergence of new strains causing epidemics or even major pandemics (Neumann et al., 2009;Peng et al., 2014;Smith...

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The Avian-Origin PB1 Gene Segment Facilitated Replication and Transmissibility of the H3N2/1968 Pandemic Influenza Virus

Cited by 26 publications

References 43 publications

Recombinant influenza virus with a pandemic H2N2 polymerase complex has a higher adaptive potential than one with seasonal H2N2 polymerase complex

Recombinant influenza virus with a pandemic H2N2 polymerase complex has a higher adaptive potential than one with seasonal H2N2 polymerase complex

Acquisition of Avian-Origin PB1 Facilitates Viral RNA Synthesis by the 2009 Pandemic H1N1 Virus Polymerase

The PB1 segment of an influenza A virus H1N1 2009pdm isolate enhances the replication efficiency of specific influenza vaccine strains in cell culture and embryonated eggs

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