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Syrian hamster convalescence from prototype SARS-CoV-2 confers measurable protection against the attenuated disease caused by the Omicron variant

by Davies, Elizabeth R. , Humphreys, Richard , Knott, Daniel , Weldon, Thomas , Johnson, Rachel , Funnell, Simon G. P. , Hall, Yper , Richards, Kevin S. , Handley, Alastair , Bewley, Kevin R. , Carnell, Oliver , Watson, Robert J. , Edun-Huges, Jack , Ngabo, Didier , Kennard, Chelsea , Vipond, Richard T. , Salguero, Francisco J. , Summers, Sian , Hallis, Bassam , Morley, Daniel , Cavell, Breeze E. , Gowan, Kathryn , Thomas, Stephen R. , Penn, Elizabeth J. , Lister, Sian , Osman, Karen L. , Rayner, Emma L. , Fotheringham, Susan A. , Challis, Amy , Hesp, Richard , Ryan, Kathryn A. , Paterson, Jemma , Emery, Kirsty , Harris, Debbie J. , Fell, Rachel , Gooch, Karen E. , Burton, Christopher , Coombes, Naomi S. , Hunter, Laura , Pullan, Steven T. , Wiblin, Nathan R.

in Analysis / Animals / Antibodies / Biology and Life Sciences / Convalescence / Coronaviruses / COVID-19 / COVID-19 vaccines / Cricetinae / Diseases / Females / Genetic aspects / Growth / Hamsters / Humans / Immunity / Infection / Infections / Males / Medical research / Medicine and Health Sciences / Medicine, Experimental / Mesocricetus / Pathology / Proteins / Research and Analysis Methods / SARS-CoV-2 / Severe acute respiratory syndrome coronavirus 2 / Standard deviation / Statistical analysis / Vaccines / Viral diseases / Viruses / Weight loss

2023

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Syrian hamster convalescence from prototype SARS-CoV-2 confers measurable protection against the attenuated disease caused by the Omicron variant

2023

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Syrian hamster convalescence from prototype SARS-CoV-2 confers measurable protection against the attenuated disease caused by the Omicron variant

2023

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Journal Article

Syrian hamster convalescence from prototype SARS-CoV-2 confers measurable protection against the attenuated disease caused by the Omicron variant

Davies, Elizabeth R.,

Humphreys, Richard,

Knott, Daniel,

Weldon, Thomas,

Johnson, Rachel,

Funnell, Simon G. P.,

Hall, Yper,

Richards, Kevin S.,

Handley, Alastair,

Bewley, Kevin R.,

Carnell, Oliver,

Watson, Robert J.,

Edun-Huges, Jack,

Ngabo, Didier,

Kennard, Chelsea,

Vipond, Richard T.,

Salguero, Francisco J.,

Summers, Sian,

Hallis, Bassam,

Morley, Daniel,

Cavell, Breeze E.,

Gowan, Kathryn,

Thomas, Stephen R.,

Penn, Elizabeth J.,

Lister, Sian,

Osman, Karen L.,

Rayner, Emma L.,

Fotheringham, Susan A.,

Challis, Amy,

Hesp, Richard,

Ryan, Kathryn A.,

Paterson, Jemma,

Emery, Kirsty,

Harris, Debbie J.,

Fell, Rachel,

Gooch, Karen E.,

Burton, Christopher,

Coombes, Naomi S.,

Hunter, Laura,

Pullan, Steven T.,

Wiblin, Nathan R.

2023

Overview

The mutation profile of the SARS-CoV-2 Omicron (lineage BA.1) variant posed a concern for naturally acquired and vaccine-induced immunity. We investigated the ability of prior infection with an early SARS-CoV-2 ancestral isolate (Australia/VIC01/2020, VIC01) to protect against disease caused by BA.1. We established that BA.1 infection in naïve Syrian hamsters resulted in a less severe disease than a comparable dose of the ancestral virus, with fewer clinical signs including less weight loss. We present data to show that these clinical observations were almost absent in convalescent hamsters challenged with the same dose of BA.1 50 days after an initial infection with ancestral virus. These data provide evidence that convalescent immunity against ancestral SARS-CoV-2 is protective against BA.1 in the Syrian hamster model of infection. Comparison with published pre-clinical and clinical data supports consistency of the model and its predictive value for the outcome in humans. Further, the ability to detect protection against the less severe disease caused by BA.1 demonstrates continued value of the Syrian hamster model for evaluation of BA.1-specific countermeasures.

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Analysis

/ Animals

/ Antibodies

/ Biology and Life Sciences

/ Convalescence

/ Coronaviruses

/ COVID-19