Elucidating the Interactions between Influenza Virus Polymerase and Host Factor ANP32A

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Abstract

Successful zoonotic transmission of influenza A virus into humans can lead to pandemics in an immunologically naive population. Host-encoded ANP32A proteins are required to support influenza A virus polymerase activity, and species differences in ANP32A can restrict the host range of influenza virus. Understanding how ANP32A proteins support the viral polymerase and how differences in ANP32A affect the ability of the polymerase to coopt these proteins will enhance our understanding of viral replication and species restriction as well as suggesting targeted antiviral approaches to treat influenza virus infection.

ABSTRACT

The avian-origin influenza A virus polymerase is restricted in human cells. This restriction has been associated with species differences in host factor ANP32A. Avian ANP32A supports the activity of an avian-origin polymerase. However, the avian-origin polymerase is incompatible with human ANP32A. Avian ANP32A proteins harbor an additional 33 amino acids compared to human ANP32A proteins, which are crucial for their ability to support the avian-origin influenza virus polymerase. Here, we elucidate the interactions between ANP32A proteins and the influenza A virus polymerase using split luciferase complementation assays, coimmunoprecipitation, and in situ split Venus interaction assays. We show greater interaction of chicken ANP32A than human ANP32A with the viral polymerase and visualize these interactions in situ in the cell nucleus. We demonstrate that the 33 amino acids of chicken ANP32A and the PB2 627 domain of viral polymerase complex both contribute to this enhanced interaction. Finally, we show how these interactions are affected by the presence of viral RNA and the processivity of the polymerase, giving insights into the way that ANP32A might act during virus infection.

IMPORTANCE Successful zoonotic transmission of influenza A virus into humans can lead to pandemics in an immunologically naive population. Host-encoded ANP32A proteins are required to support influenza A virus polymerase activity, and species differences in ANP32A can restrict the host range of influenza virus. Understanding how ANP32A proteins support the viral polymerase and how differences in ANP32A affect the ability of the polymerase to coopt these proteins will enhance our understanding of viral replication and species restriction as well as suggesting targeted antiviral approaches to treat influenza virus infection.

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Most cited references 25

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A single amino acid in the PB2 gene of influenza A virus is a determinant of host range.

E Subbarao, W. London, B R Murphy (1993)

The single gene reassortant virus that derives its PB2 gene from the avian influenza A/Mallard/NY/78 virus and remaining genes from the human influenza A/Los Angeles/2/87 virus exhibits a host range restriction (hr) phenotype characterized by efficient replication in avian tissue and failure to produce plaques in mammalian Madin-Darby canine kidney cells. The hr phenotype is associated with restriction of viral replication in the respiratory tract of squirrel monkeys and humans. To identify the genetic basis of the hr phenotype, we isolated four phenotypic hr mutant viruses that acquired the ability to replicate efficiently in mammalian tissue. Segregational analysis indicated that the loss of the hr phenotype was due to a mutation in the PB2 gene itself. The nucleotide sequences of the PB2 gene of each of the four hr mutants revealed that a single amino acid substitution at position 627 (Glu-->Lys) was responsible for the restoration of the ability of the PB2 single gene reassortant to replicate in Madin-Darby canine kidney cells. Interestingly, the amino acid at position 627 in every avian influenza A virus PB2 protein analyzed to date is glutamic acid, and in every human influenza A virus PB2 protein, it is lysine. Thus, the amino acid at residue 627 of PB2 is an important determinant of host range of influenza A viruses.

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Structural insight into cap-snatching and RNA synthesis by influenza polymerase.

Stefan Reich, Delphine Guilligay, Alexander Pflug … (2014)

Influenza virus polymerase uses a capped primer, derived by 'cap-snatching' from host pre-messenger RNA, to transcribe its RNA genome into mRNA and a stuttering mechanism to generate the poly(A) tail. By contrast, genome replication is unprimed and generates exact full-length copies of the template. Here we use crystal structures of bat influenza A and human influenza B polymerases (FluA and FluB), bound to the viral RNA promoter, to give mechanistic insight into these distinct processes. In the FluA structure, a loop analogous to the priming loop of flavivirus polymerases suggests that influenza could initiate unprimed template replication by a similar mechanism. Comparing the FluA and FluB structures suggests that cap-snatching involves in situ rotation of the PB2 cap-binding domain to direct the capped primer first towards the endonuclease and then into the polymerase active site. The polymerase probably undergoes considerable conformational changes to convert the observed pre-initiation state into the active initiation and elongation states.

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Crystal structure of the RNA-dependent RNA polymerase from influenza C virus.

Narin Hengrung, Kamel El Omari, Itziar Serna Martin … (2015)

Negative-sense RNA viruses, such as influenza, encode large, multidomain RNA-dependent RNA polymerases that can both transcribe and replicate the viral RNA genome. In influenza virus, the polymerase (FluPol) is composed of three polypeptides: PB1, PB2 and PA/P3. PB1 houses the polymerase active site, whereas PB2 and PA/P3 contain, respectively, cap-binding and endonuclease domains required for transcription initiation by cap-snatching. Replication occurs through de novo initiation and involves a complementary RNA intermediate. Currently available structures of the influenza A and B virus polymerases include promoter RNA (the 5' and 3' termini of viral genome segments), showing FluPol in transcription pre-initiation states. Here we report the structure of apo-FluPol from an influenza C virus, solved by X-ray crystallography to 3.9 Å, revealing a new 'closed' conformation. The apo-FluPol forms a compact particle with PB1 at its centre, capped on one face by PB2 and clamped between the two globular domains of P3. Notably, this structure is radically different from those of promoter-bound FluPols. The endonuclease domain of P3 and the domains within the carboxy-terminal two-thirds of PB2 are completely rearranged. The cap-binding site is occluded by PB2, resulting in a conformation that is incompatible with transcription initiation. Thus, our structure captures FluPol in a closed, transcription pre-activation state. This reveals the conformation of newly made apo-FluPol in an infected cell, but may also apply to FluPol in the context of a non-transcribing ribonucleoprotein complex. Comparison of the apo-FluPol structure with those of promoter-bound FluPols allows us to propose a mechanism for FluPol activation. Our study demonstrates the remarkable flexibility of influenza virus RNA polymerase, and aids our understanding of the mechanisms controlling transcription and genome replication.

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Author and article information

Contributors

Colin R. Parrish: Role: Editor

Journal

Journal ID (nlm-ta): J Virol

Journal ID (iso-abbrev): J. Virol

Journal ID (hwp): jvi

Journal ID (pmc): jvi

Journal ID (publisher-id): JVI

Title: Journal of Virology

Publisher: American Society for Microbiology (1752 N St., N.W., Washington, DC )

ISSN (Print): 0022-538X

ISSN (Electronic): 1098-5514

Publication date (Electronic preprint): 6 November 2019

Publication date (Electronic): 17 January 2020

Publication date Collection: February 2020

Publication date PMC-release: 17 January 2020

Volume: 94

Issue: 3

Electronic Location Identifier: e01353-19

Affiliations

[a ]Section of Molecular Virology, Imperial College London, London, United Kingdom

Cornell University

Author notes

Address correspondence to Wendy S. Barclay, w.barclay@ 123456imperial.ac.uk .

Citation Mistry B, Long JS, Schreyer J, Staller E, Sanchez-David RY, Barclay WS. 2020. Elucidating the interactions between influenza virus polymerase and host factor ANP32A. J Virol 94:e01353-19. https://doi.org/10.1128/JVI.01353-19.

Author information

Bhakti Mistry https://orcid.org/0000-0001-5455-0479

Jason S. Long https://orcid.org/0000-0002-0251-6487

Ecco Staller https://orcid.org/0000-0002-8443-5559

Wendy S. Barclay https://orcid.org/0000-0002-3948-0895

Article

Publisher ID: 01353-19

DOI: 10.1128/JVI.01353-19

PMC ID: 7000967

PubMed ID: 31694956

SO-VID: 76e8aeef-e685-4c2f-8124-3b07a9be6e1c

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license.

History

Date received : 13 August 2019

Date accepted : 24 October 2019

Page count

Figures: 9, Tables: 0, Equations: 0, References: 30, Pages: 16, Words: 8354

Funding

Funded by: Biotechnology and Biological Sciences Research Council (BBSRC), https://doi.org/10.13039/501100000268;

Award ID: BB/K002465/1

Award Recipient : Jason S. Long

Funded by: Wellcome Trust, https://doi.org/10.13039/100004440;

Award ID: 205100

Award Recipient : Jason S. Long Award Recipient : Ecco Staller Award Recipient : Bhakti Mistry Award Recipient : Jocelyn Schreyer Award Recipient : Raul Yusef Sanchez-David

Funded by: Wellcome Trust, https://doi.org/10.13039/100004440;

Award ID: Studentship

Award Recipient : Bhakti Mistry

Funded by: Imperial College London, https://doi.org/10.13039/501100000761;

Award ID: President's Studentship

Award Recipient : Ecco Staller

Custom metadata

cover-date February 2020

ScienceOpen disciplines: Microbiology & Virology

Keywords: host factor,influenza,polymerase

Data availability:

ScienceOpen disciplines: Microbiology & Virology

Keywords: host factor, influenza, polymerase

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Elucidating the Interactions between Influenza Virus Polymerase and Host Factor ANP32A

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Zika Virus

Most cited references 25

A single amino acid in the PB2 gene of influenza A virus is a determinant of host range.

Structural insight into cap-snatching and RNA synthesis by influenza polymerase.

Crystal structure of the RNA-dependent RNA polymerase from influenza C virus.

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Cited by 17

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