Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity

The SARS-CoV-2 Omicron BA.1 variant emerged in 2021(1) and has multiple mutations in its spike protein(2). Here we show that the spike protein of Omicron has a higher affinity for ACE2 compared with Delta, and a marked change in its antigenicity increases Omicron’s evasion of therapeutic monoclonal...

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Autores principales: Meng, Bo, Abdullahi, Adam, Ferreira, Isabella A. T. M., Goonawardane, Niluka, Saito, Akatsuki, Kimura, Izumi, Yamasoba, Daichi, Gerber, Pehuén Pereyra, Fatihi, Saman, Rathore, Surabhi, Zepeda, Samantha K., Papa, Guido, Kemp, Steven A., Ikeda, Terumasa, Toyoda, Mako, Tan, Toong Seng, Kuramochi, Jin, Mitsunaga, Shigeki, Ueno, Takamasa, Shirakawa, Kotaro, Takaori-Kondo, Akifumi, Brevini, Teresa, Mallery, Donna L., Charles, Oscar J., Bowen, John E., Joshi, Anshu, Walls, Alexandra C., Jackson, Laurelle, Martin, Darren, Smith, Kenneth G. C., Bradley, John, Briggs, John A. G., Choi, Jinwook, Madissoon, Elo, Meyer, Kerstin B., Mlcochova, Petra, Ceron-Gutierrez, Lourdes, Doffinger, Rainer, Teichmann, Sarah A., Fisher, Andrew J., Pizzuto, Matteo S., de Marco, Anna, Corti, Davide, Hosmillo, Myra, Lee, Joo Hyeon, James, Leo C., Thukral, Lipi, Veesler, David, Sigal, Alex, Sampaziotis, Fotios, Goodfellow, Ian G., Matheson, Nicholas J., Sato, Kei, Gupta, Ravindra K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8942856/
https://www.ncbi.nlm.nih.gov/pubmed/35104837
http://dx.doi.org/10.1038/s41586-022-04474-x
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author Meng, Bo
Abdullahi, Adam
Ferreira, Isabella A. T. M.
Goonawardane, Niluka
Saito, Akatsuki
Kimura, Izumi
Yamasoba, Daichi
Gerber, Pehuén Pereyra
Fatihi, Saman
Rathore, Surabhi
Zepeda, Samantha K.
Papa, Guido
Kemp, Steven A.
Ikeda, Terumasa
Toyoda, Mako
Tan, Toong Seng
Kuramochi, Jin
Mitsunaga, Shigeki
Ueno, Takamasa
Shirakawa, Kotaro
Takaori-Kondo, Akifumi
Brevini, Teresa
Mallery, Donna L.
Charles, Oscar J.
Bowen, John E.
Joshi, Anshu
Walls, Alexandra C.
Jackson, Laurelle
Martin, Darren
Smith, Kenneth G. C.
Bradley, John
Briggs, John A. G.
Choi, Jinwook
Madissoon, Elo
Meyer, Kerstin B.
Mlcochova, Petra
Ceron-Gutierrez, Lourdes
Doffinger, Rainer
Teichmann, Sarah A.
Fisher, Andrew J.
Pizzuto, Matteo S.
de Marco, Anna
Corti, Davide
Hosmillo, Myra
Lee, Joo Hyeon
James, Leo C.
Thukral, Lipi
Veesler, David
Sigal, Alex
Sampaziotis, Fotios
Goodfellow, Ian G.
Matheson, Nicholas J.
Sato, Kei
Gupta, Ravindra K.
author_facet Meng, Bo
Abdullahi, Adam
Ferreira, Isabella A. T. M.
Goonawardane, Niluka
Saito, Akatsuki
Kimura, Izumi
Yamasoba, Daichi
Gerber, Pehuén Pereyra
Fatihi, Saman
Rathore, Surabhi
Zepeda, Samantha K.
Papa, Guido
Kemp, Steven A.
Ikeda, Terumasa
Toyoda, Mako
Tan, Toong Seng
Kuramochi, Jin
Mitsunaga, Shigeki
Ueno, Takamasa
Shirakawa, Kotaro
Takaori-Kondo, Akifumi
Brevini, Teresa
Mallery, Donna L.
Charles, Oscar J.
Bowen, John E.
Joshi, Anshu
Walls, Alexandra C.
Jackson, Laurelle
Martin, Darren
Smith, Kenneth G. C.
Bradley, John
Briggs, John A. G.
Choi, Jinwook
Madissoon, Elo
Meyer, Kerstin B.
Mlcochova, Petra
Ceron-Gutierrez, Lourdes
Doffinger, Rainer
Teichmann, Sarah A.
Fisher, Andrew J.
Pizzuto, Matteo S.
de Marco, Anna
Corti, Davide
Hosmillo, Myra
Lee, Joo Hyeon
James, Leo C.
Thukral, Lipi
Veesler, David
Sigal, Alex
Sampaziotis, Fotios
Goodfellow, Ian G.
Matheson, Nicholas J.
Sato, Kei
Gupta, Ravindra K.
author_sort Meng, Bo
collection PubMed
description The SARS-CoV-2 Omicron BA.1 variant emerged in 2021(1) and has multiple mutations in its spike protein(2). Here we show that the spike protein of Omicron has a higher affinity for ACE2 compared with Delta, and a marked change in its antigenicity increases Omicron’s evasion of therapeutic monoclonal and vaccine-elicited polyclonal neutralizing antibodies after two doses. mRNA vaccination as a third vaccine dose rescues and broadens neutralization. Importantly, the antiviral drugs remdesivir and molnupiravir retain efficacy against Omicron BA.1. Replication was similar for Omicron and Delta virus isolates in human nasal epithelial cultures. However, in lung cells and gut cells, Omicron demonstrated lower replication. Omicron spike protein was less efficiently cleaved compared with Delta. The differences in replication were mapped to the entry efficiency of the virus on the basis of spike-pseudotyped virus assays. The defect in entry of Omicron pseudotyped virus to specific cell types effectively correlated with higher cellular RNA expression of TMPRSS2, and deletion of TMPRSS2 affected Delta entry to a greater extent than Omicron. Furthermore, drug inhibitors targeting specific entry pathways(3) demonstrated that the Omicron spike inefficiently uses the cellular protease TMPRSS2, which promotes cell entry through plasma membrane fusion, with greater dependency on cell entry through the endocytic pathway. Consistent with suboptimal S1/S2 cleavage and inability to use TMPRSS2, syncytium formation by the Omicron spike was substantially impaired compared with the Delta spike. The less efficient spike cleavage of Omicron at S1/S2 is associated with a shift in cellular tropism away from TMPRSS2-expressing cells, with implications for altered pathogenesis.
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spelling pubmed-89428562022-04-07 Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity Meng, Bo Abdullahi, Adam Ferreira, Isabella A. T. M. Goonawardane, Niluka Saito, Akatsuki Kimura, Izumi Yamasoba, Daichi Gerber, Pehuén Pereyra Fatihi, Saman Rathore, Surabhi Zepeda, Samantha K. Papa, Guido Kemp, Steven A. Ikeda, Terumasa Toyoda, Mako Tan, Toong Seng Kuramochi, Jin Mitsunaga, Shigeki Ueno, Takamasa Shirakawa, Kotaro Takaori-Kondo, Akifumi Brevini, Teresa Mallery, Donna L. Charles, Oscar J. Bowen, John E. Joshi, Anshu Walls, Alexandra C. Jackson, Laurelle Martin, Darren Smith, Kenneth G. C. Bradley, John Briggs, John A. G. Choi, Jinwook Madissoon, Elo Meyer, Kerstin B. Mlcochova, Petra Ceron-Gutierrez, Lourdes Doffinger, Rainer Teichmann, Sarah A. Fisher, Andrew J. Pizzuto, Matteo S. de Marco, Anna Corti, Davide Hosmillo, Myra Lee, Joo Hyeon James, Leo C. Thukral, Lipi Veesler, David Sigal, Alex Sampaziotis, Fotios Goodfellow, Ian G. Matheson, Nicholas J. Sato, Kei Gupta, Ravindra K. Nature Article The SARS-CoV-2 Omicron BA.1 variant emerged in 2021(1) and has multiple mutations in its spike protein(2). Here we show that the spike protein of Omicron has a higher affinity for ACE2 compared with Delta, and a marked change in its antigenicity increases Omicron’s evasion of therapeutic monoclonal and vaccine-elicited polyclonal neutralizing antibodies after two doses. mRNA vaccination as a third vaccine dose rescues and broadens neutralization. Importantly, the antiviral drugs remdesivir and molnupiravir retain efficacy against Omicron BA.1. Replication was similar for Omicron and Delta virus isolates in human nasal epithelial cultures. However, in lung cells and gut cells, Omicron demonstrated lower replication. Omicron spike protein was less efficiently cleaved compared with Delta. The differences in replication were mapped to the entry efficiency of the virus on the basis of spike-pseudotyped virus assays. The defect in entry of Omicron pseudotyped virus to specific cell types effectively correlated with higher cellular RNA expression of TMPRSS2, and deletion of TMPRSS2 affected Delta entry to a greater extent than Omicron. Furthermore, drug inhibitors targeting specific entry pathways(3) demonstrated that the Omicron spike inefficiently uses the cellular protease TMPRSS2, which promotes cell entry through plasma membrane fusion, with greater dependency on cell entry through the endocytic pathway. Consistent with suboptimal S1/S2 cleavage and inability to use TMPRSS2, syncytium formation by the Omicron spike was substantially impaired compared with the Delta spike. The less efficient spike cleavage of Omicron at S1/S2 is associated with a shift in cellular tropism away from TMPRSS2-expressing cells, with implications for altered pathogenesis. Nature Publishing Group UK 2022-02-01 2022 /pmc/articles/PMC8942856/ /pubmed/35104837 http://dx.doi.org/10.1038/s41586-022-04474-x Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Meng, Bo
Abdullahi, Adam
Ferreira, Isabella A. T. M.
Goonawardane, Niluka
Saito, Akatsuki
Kimura, Izumi
Yamasoba, Daichi
Gerber, Pehuén Pereyra
Fatihi, Saman
Rathore, Surabhi
Zepeda, Samantha K.
Papa, Guido
Kemp, Steven A.
Ikeda, Terumasa
Toyoda, Mako
Tan, Toong Seng
Kuramochi, Jin
Mitsunaga, Shigeki
Ueno, Takamasa
Shirakawa, Kotaro
Takaori-Kondo, Akifumi
Brevini, Teresa
Mallery, Donna L.
Charles, Oscar J.
Bowen, John E.
Joshi, Anshu
Walls, Alexandra C.
Jackson, Laurelle
Martin, Darren
Smith, Kenneth G. C.
Bradley, John
Briggs, John A. G.
Choi, Jinwook
Madissoon, Elo
Meyer, Kerstin B.
Mlcochova, Petra
Ceron-Gutierrez, Lourdes
Doffinger, Rainer
Teichmann, Sarah A.
Fisher, Andrew J.
Pizzuto, Matteo S.
de Marco, Anna
Corti, Davide
Hosmillo, Myra
Lee, Joo Hyeon
James, Leo C.
Thukral, Lipi
Veesler, David
Sigal, Alex
Sampaziotis, Fotios
Goodfellow, Ian G.
Matheson, Nicholas J.
Sato, Kei
Gupta, Ravindra K.
Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title_full Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title_fullStr Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title_full_unstemmed Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title_short Altered TMPRSS2 usage by SARS-CoV-2 Omicron impacts infectivity and fusogenicity
title_sort altered tmprss2 usage by sars-cov-2 omicron impacts infectivity and fusogenicity
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8942856/
https://www.ncbi.nlm.nih.gov/pubmed/35104837
http://dx.doi.org/10.1038/s41586-022-04474-x
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