Suppression of the antiviral response by an influenza histone mimic

Ivan Marazzi; Jessica S.Y. Ho; Jaehoon Kim; Balaji Manicassamy; Scott Dewell; Randy A. Albrecht; Chris W. Seibert; Uwe Schaefer; Kate L. Jeffrey; Rab K. Prinjha; Kevin Lee; Adolfo García-Sastre; Robert G. Roeder; Alexander Tarakhovsky

doi:10.1038/nature10892

Suppression of the antiviral response by an influenza histone mimic

Ivan Marazzi, Jessica S.Y. Ho, Jaehoon Kim, Balaji Manicassamy, Scott Dewell, Randy A. Albrecht, Chris W. Seibert, Uwe Schaefer, Kate L. Jeffrey, Rab K. Prinjha, Kevin Lee, Adolfo García-Sastre, Robert G. Roeder, Alexander Tarakhovsky

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262 Scopus citations

Abstract

Viral infection is commonly associated with virus-driven hijacking of host proteins. Here we describe a novel mechanism by which influenza virus affects host cells through the interaction of influenza non-structural protein 1 (NS1) with the infected cell epigenome. We show that the NS1 protein of influenza A H3N2 subtype possesses a histone-like sequence (histone mimic) that is used by the virus to target the human PAF1 transcription elongation complex (hPAF1C). We demonstrate that binding of NS1 to hPAF1C depends on the NS1 histone mimic and results in suppression of hPAF1C-mediated transcriptional elongation. Furthermore, human PAF1 has a crucial role in the antiviral response. Loss of hPAF1C binding by NS1 attenuates influenza infection, whereas hPAF1C deficiency reduces antiviral gene expression and renders cells more susceptible to viruses. We propose that the histone mimic in NS1 enables the influenza virus to affect inducible gene expression selectively, thus contributing to suppression of the antiviral response.

Original language	English
Pages (from-to)	428-433
Number of pages	6
Journal	Nature
Volume	483
Issue number	7390
DOIs	https://doi.org/10.1038/nature10892
State	Published - 22 Mar 2012

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@article{4de0b07a55144508926af934472fd4f0,

title = "Suppression of the antiviral response by an influenza histone mimic",

abstract = "Viral infection is commonly associated with virus-driven hijacking of host proteins. Here we describe a novel mechanism by which influenza virus affects host cells through the interaction of influenza non-structural protein 1 (NS1) with the infected cell epigenome. We show that the NS1 protein of influenza A H3N2 subtype possesses a histone-like sequence (histone mimic) that is used by the virus to target the human PAF1 transcription elongation complex (hPAF1C). We demonstrate that binding of NS1 to hPAF1C depends on the NS1 histone mimic and results in suppression of hPAF1C-mediated transcriptional elongation. Furthermore, human PAF1 has a crucial role in the antiviral response. Loss of hPAF1C binding by NS1 attenuates influenza infection, whereas hPAF1C deficiency reduces antiviral gene expression and renders cells more susceptible to viruses. We propose that the histone mimic in NS1 enables the influenza virus to affect inducible gene expression selectively, thus contributing to suppression of the antiviral response.",

author = "Ivan Marazzi and Ho, {Jessica S.Y.} and Jaehoon Kim and Balaji Manicassamy and Scott Dewell and Albrecht, {Randy A.} and Seibert, {Chris W.} and Uwe Schaefer and Jeffrey, {Kate L.} and Prinjha, {Rab K.} and Kevin Lee and Adolfo Garc{\'i}a-Sastre and Roeder, {Robert G.} and Alexander Tarakhovsky",

note = "Funding Information: Acknowledgements We thank P. deGross and A. Rudensky for the mass spectroscopy analysis of the NS1 binding proteins. A. Rojas Soto, D. Reinberg, M. Dobenecker and T. Zhanyun provided us with recombinant CHD1 (A.R.S., D.R.), recombinant Set7/9 (M.D.) and Set1C (T.Z.). F. Casadio, P. Lewis, O. Binda, O. Gozani, N. Levenkova, A. Mele, R. Darnell, L. Core, J. Lis and P. Palese gave us valuable technical advice and help with data analysis. We acknowledge the Rockefeller University Genomics Resource Center for technical support. We thank R. Cadagan, A. Santana, W. Huang, R. Chandramouli and H. Zebronsky for technical assistance, R. Rizzo for help with manuscript preparation and C. Nathan for discussion. L.M.K. for artwork. B.M is supported by NIH/ NIAID K99 Pathway to Independence award (1K99AI095320-01). A.G.-S. is partially supported by NIAID grants R01AI046954, U19AI083025 and by CRIP (Center for Research in Influenza Pathogenesis), an NIAID funded Center of Excellence for Influenza Research and Surveillance, HHSN266200700010C. R.G.R. is supported by NIH grant CA129325. J.K. is supported by Charles H. Revson Foundation. I.M. is supported by American Italian Cancer Foundation. J.H. is supported by the Agency for Science, Technology and Research (A*STAR), Singapore. A.T. is supported by the NIH grant R01AI068058 and by Starr Cancer Consortium.",

year = "2012",

month = mar,

day = "22",

doi = "10.1038/nature10892",

language = "English",

volume = "483",

pages = "428--433",

journal = "Nature",

issn = "0028-0836",

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number = "7390",

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TY - JOUR

T1 - Suppression of the antiviral response by an influenza histone mimic

AU - Marazzi, Ivan

AU - Ho, Jessica S.Y.

AU - Kim, Jaehoon

AU - Manicassamy, Balaji

AU - Dewell, Scott

AU - Albrecht, Randy A.

AU - Seibert, Chris W.

AU - Schaefer, Uwe

AU - Jeffrey, Kate L.

AU - Prinjha, Rab K.

AU - Lee, Kevin

AU - García-Sastre, Adolfo

AU - Roeder, Robert G.

AU - Tarakhovsky, Alexander

N1 - Funding Information: Acknowledgements We thank P. deGross and A. Rudensky for the mass spectroscopy analysis of the NS1 binding proteins. A. Rojas Soto, D. Reinberg, M. Dobenecker and T. Zhanyun provided us with recombinant CHD1 (A.R.S., D.R.), recombinant Set7/9 (M.D.) and Set1C (T.Z.). F. Casadio, P. Lewis, O. Binda, O. Gozani, N. Levenkova, A. Mele, R. Darnell, L. Core, J. Lis and P. Palese gave us valuable technical advice and help with data analysis. We acknowledge the Rockefeller University Genomics Resource Center for technical support. We thank R. Cadagan, A. Santana, W. Huang, R. Chandramouli and H. Zebronsky for technical assistance, R. Rizzo for help with manuscript preparation and C. Nathan for discussion. L.M.K. for artwork. B.M is supported by NIH/ NIAID K99 Pathway to Independence award (1K99AI095320-01). A.G.-S. is partially supported by NIAID grants R01AI046954, U19AI083025 and by CRIP (Center for Research in Influenza Pathogenesis), an NIAID funded Center of Excellence for Influenza Research and Surveillance, HHSN266200700010C. R.G.R. is supported by NIH grant CA129325. J.K. is supported by Charles H. Revson Foundation. I.M. is supported by American Italian Cancer Foundation. J.H. is supported by the Agency for Science, Technology and Research (A*STAR), Singapore. A.T. is supported by the NIH grant R01AI068058 and by Starr Cancer Consortium.

PY - 2012/3/22

Y1 - 2012/3/22

N2 - Viral infection is commonly associated with virus-driven hijacking of host proteins. Here we describe a novel mechanism by which influenza virus affects host cells through the interaction of influenza non-structural protein 1 (NS1) with the infected cell epigenome. We show that the NS1 protein of influenza A H3N2 subtype possesses a histone-like sequence (histone mimic) that is used by the virus to target the human PAF1 transcription elongation complex (hPAF1C). We demonstrate that binding of NS1 to hPAF1C depends on the NS1 histone mimic and results in suppression of hPAF1C-mediated transcriptional elongation. Furthermore, human PAF1 has a crucial role in the antiviral response. Loss of hPAF1C binding by NS1 attenuates influenza infection, whereas hPAF1C deficiency reduces antiviral gene expression and renders cells more susceptible to viruses. We propose that the histone mimic in NS1 enables the influenza virus to affect inducible gene expression selectively, thus contributing to suppression of the antiviral response.

AB - Viral infection is commonly associated with virus-driven hijacking of host proteins. Here we describe a novel mechanism by which influenza virus affects host cells through the interaction of influenza non-structural protein 1 (NS1) with the infected cell epigenome. We show that the NS1 protein of influenza A H3N2 subtype possesses a histone-like sequence (histone mimic) that is used by the virus to target the human PAF1 transcription elongation complex (hPAF1C). We demonstrate that binding of NS1 to hPAF1C depends on the NS1 histone mimic and results in suppression of hPAF1C-mediated transcriptional elongation. Furthermore, human PAF1 has a crucial role in the antiviral response. Loss of hPAF1C binding by NS1 attenuates influenza infection, whereas hPAF1C deficiency reduces antiviral gene expression and renders cells more susceptible to viruses. We propose that the histone mimic in NS1 enables the influenza virus to affect inducible gene expression selectively, thus contributing to suppression of the antiviral response.

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U2 - 10.1038/nature10892

DO - 10.1038/nature10892

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AN - SCOPUS:84862777909

SN - 0028-0836

VL - 483

SP - 428

EP - 433

JO - Nature

JF - Nature

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Suppression of the antiviral response by an influenza histone mimic

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