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SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
by Eberl, Matthias , Fielding, Ceri Alan , Zelek, Wioleta , Merrick, Blair , Graham, Carl , Humphreys, Ian R , Seow, Jeffrey , Sabberwal, Pragati , Wilson, Sam J , Lehner, Paul J , Wang, Eddie CY , Edgeworth, Jonathan D , Price, David A , Stanton, Richard J , Morgan, Paul B , Crozier, Thomas WM , Ladell, Kristin , Williamson, James C , Greenwood, Edward JD , Huettner, Isabella , Doores, Katie
in ADCC / ADNKA / Antibodies / Antibodies, Viral / Antigens / Cell activation / Cell surface / Cell-mediated immunity / Coronaviruses / COVID-19 / COVID-19 vaccines / Epithelial cells / Genes / Glycoproteins / Humans / Immune response / Immunology and Inflammation / Infections / Inflammation / Innate immunity / Interferon / Killer Cells, Natural / Ligands / Major histocompatibility complex / MICA protein / Microbiology and Infectious Disease / Monoclonal antibodies / Natural killer cells / NK cells / Nucleocapsids / Plasma / Protein biosynthesis / Proteins / Proteomics / Risk factors / SARS-CoV-2 / SARS-CoV2 / Severe acute respiratory syndrome coronavirus 2 / Vaccination / Vaccine efficacy / Vaccines / Viral infections / Viruses
2022
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SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
by Eberl, Matthias , Fielding, Ceri Alan , Zelek, Wioleta , Merrick, Blair , Graham, Carl , Humphreys, Ian R , Seow, Jeffrey , Sabberwal, Pragati , Wilson, Sam J , Lehner, Paul J , Wang, Eddie CY , Edgeworth, Jonathan D , Price, David A , Stanton, Richard J , Morgan, Paul B , Crozier, Thomas WM , Ladell, Kristin , Williamson, James C , Greenwood, Edward JD , Huettner, Isabella , Doores, Katie
in ADCC / ADNKA / Antibodies / Antibodies, Viral / Antigens / Cell activation / Cell surface / Cell-mediated immunity / Coronaviruses / COVID-19 / COVID-19 vaccines / Epithelial cells / Genes / Glycoproteins / Humans / Immune response / Immunology and Inflammation / Infections / Inflammation / Innate immunity / Interferon / Killer Cells, Natural / Ligands / Major histocompatibility complex / MICA protein / Microbiology and Infectious Disease / Monoclonal antibodies / Natural killer cells / NK cells / Nucleocapsids / Plasma / Protein biosynthesis / Proteins / Proteomics / Risk factors / SARS-CoV-2 / SARS-CoV2 / Severe acute respiratory syndrome coronavirus 2 / Vaccination / Vaccine efficacy / Vaccines / Viral infections / Viruses
2022
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SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
by Eberl, Matthias , Fielding, Ceri Alan , Zelek, Wioleta , Merrick, Blair , Graham, Carl , Humphreys, Ian R , Seow, Jeffrey , Sabberwal, Pragati , Wilson, Sam J , Lehner, Paul J , Wang, Eddie CY , Edgeworth, Jonathan D , Price, David A , Stanton, Richard J , Morgan, Paul B , Crozier, Thomas WM , Ladell, Kristin , Williamson, James C , Greenwood, Edward JD , Huettner, Isabella , Doores, Katie
in ADCC / ADNKA / Antibodies / Antibodies, Viral / Antigens / Cell activation / Cell surface / Cell-mediated immunity / Coronaviruses / COVID-19 / COVID-19 vaccines / Epithelial cells / Genes / Glycoproteins / Humans / Immune response / Immunology and Inflammation / Infections / Inflammation / Innate immunity / Interferon / Killer Cells, Natural / Ligands / Major histocompatibility complex / MICA protein / Microbiology and Infectious Disease / Monoclonal antibodies / Natural killer cells / NK cells / Nucleocapsids / Plasma / Protein biosynthesis / Proteins / Proteomics / Risk factors / SARS-CoV-2 / SARS-CoV2 / Severe acute respiratory syndrome coronavirus 2 / Vaccination / Vaccine efficacy / Vaccines / Viral infections / Viruses
2022

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SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies
Journal Article

SARS-CoV-2 host-shutoff impacts innate NK cell functions, but antibody-dependent NK activity is strongly activated through non-spike antibodies

Eberl, Matthias,
Fielding, Ceri Alan,
Zelek, Wioleta,
Merrick, Blair,
Graham, Carl,
Humphreys, Ian R,
Seow, Jeffrey,
Sabberwal, Pragati,
Wilson, Sam J,
Lehner, Paul J,
Wang, Eddie CY,
Edgeworth, Jonathan D,
Price, David A,
Stanton, Richard J,
Morgan, Paul B,
Crozier, Thomas WM,
Ladell, Kristin,
Williamson, James C,
Greenwood, Edward JD,
Huettner, Isabella,
Doores, Katie
2022
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Overview
The outcome of infection is dependent on the ability of viruses to manipulate the infected cell to evade immunity, and the ability of the immune response to overcome this evasion. Understanding this process is key to understanding pathogenesis, genetic risk factors, and both natural and vaccine-induced immunity. SARS-CoV-2 antagonises the innate interferon response, but whether it manipulates innate cellular immunity is unclear. An unbiased proteomic analysis determined how cell surface protein expression is altered on SARS-CoV-2-infected lung epithelial cells, showing downregulation of activating NK ligands B7-H6, MICA, ULBP2, and Nectin1, with minimal effects on MHC-I. This occurred at the level of protein synthesis, could be mediated by Nsp1 and Nsp14, and correlated with a reduction in NK cell activation. This identifies a novel mechanism by which SARS-CoV-2 host-shutoff antagonises innate immunity. Later in the disease process, strong antibody-dependent NK cell activation (ADNKA) developed. These responses were sustained for at least 6 months in most patients, and led to high levels of pro-inflammatory cytokine production. Depletion of spike-specific antibodies confirmed their dominant role in neutralisation, but these antibodies played only a minor role in ADNKA compared to antibodies to other proteins, including ORF3a, Membrane, and Nucleocapsid. In contrast, ADNKA induced following vaccination was focussed solely on spike, was weaker than ADNKA following natural infection, and was not boosted by the second dose. These insights have important implications for understanding disease progression, vaccine efficacy, and vaccine design.
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Publisher
eLife Sciences Publications Ltd,eLife Sciences Publications, Ltd
Subject

ADCC

/ ADNKA

/ Antibodies

/ Antibodies, Viral

/ Antigens

/ Cell activation

/ Cell surface

/ Cell-mediated immunity

/ Coronaviruses

/ COVID-19

/ COVID-19 vaccines

/ Epithelial cells

/ Genes

/ Glycoproteins

/ Humans

/ Immune response

/ Immunology and Inflammation

/ Infections

/ Inflammation

/ Innate immunity

/ Interferon

/ Killer Cells, Natural

/ Ligands

/ Major histocompatibility complex

/ MICA protein

/ Microbiology and Infectious Disease

/ Monoclonal antibodies

/ Natural killer cells

/ NK cells

/ Nucleocapsids

/ Plasma

/ Protein biosynthesis

/ Proteins

/ Proteomics

/ Risk factors

/ SARS-CoV-2

/ SARS-CoV2

/ Severe acute respiratory syndrome coronavirus 2

/ Vaccination

/ Vaccine efficacy

/ Vaccines

/ Viral infections

/ Viruses

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