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Production of high-quality SARS-CoV-2 antigens: impact of bioprocess and storage on glycosylation, biophysical attributes, and ELISA serologic tests performance
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  • Rute Castro,
  • Lígia Nobre,
  • Rute Eleutério,
  • Mónica Thomaz,
  • António Pires,
  • Sandra Monteiro,
  • Sónia Mendes,
  • Ricardo Gomes,
  • João Clemente,
  • Marcos Sousa,
  • Filipe Pinto,
  • Ana Silva,
  • Micael Freitas,
  • Ana Lemos,
  • Onome Akpogheneta,
  • Lindsay Kosack,
  • Marie-Louise Bergman,
  • Nadia Duarte,
  • Paula Mastoso,
  • Julia Costa,
  • Tiago Bandeiras,
  • Patricia Gomes-Alves,
  • Carlos Gonçalves,
  • Jocelyne Demengeot,
  • Paula Alves
Rute Castro
iBET, Instituto de Tecnologia Experimental e Tecnológica

Corresponding Author:rcastro@ibet.pt

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Lígia Nobre
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Rute Eleutério
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Mónica Thomaz
iBET, Instituto de Tecnologia Experimental e Tecnológica
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António Pires
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Sandra Monteiro
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Sónia Mendes
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Ricardo Gomes
Instituto de Biologia Experimental e Tecnologica
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João Clemente
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Marcos Sousa
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Filipe Pinto
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Ana Silva
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Micael Freitas
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Ana Lemos
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Onome Akpogheneta
Instituto Gulbenkian de Ciencia
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Lindsay Kosack
Instituto Gulbenkian de Ciencia
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Marie-Louise Bergman
Instituto Gulbenkian de Ciencia
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Nadia Duarte
Instituto Gulbenkian de Ciencia
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Paula Mastoso
Instituto Gulbenkian de Ciencia
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Julia Costa
Instituto de Tecnologia Quiimica e Biologica
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Tiago Bandeiras
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Patricia Gomes-Alves
iBET/ ITQB-NOVA
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Carlos Gonçalves
Instituto Gulbenkian de Ciencia
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Jocelyne Demengeot
Instituto Gulbenkian de Ciencia
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Paula Alves
iBET, Instituto de Tecnologia Experimental e Tecnológica
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Abstract

SARS-CoV-2 is an RNA coronavirus that causes severe acute pneumonia, also known as COVID 19 disease. The World Health Organization declared the COVID-19 outbreak in January 2020 and a pandemic 2 months later. Serological assays are valuable tools to study virus spread among the population and, importantly, to identify individuals that were already infected and would be potentially immune to a virus re-infection. SARS-CoV-2 Spike protein and its Receptor Binding Domain (RBD) are the antigens with higher potential to develop SARS-CoV-2 serological assays. Moreover, structural studies of these antigens are key to understand the molecular basis for Spike interaction with angiotensin converting enzyme 2 receptor, hopefully enabling the discovery and development of COVID-19 therapeutics. Thus, it is urgent that significant amounts of this protein became available at the highest quality. In this work we evaluated the impact of different and scalable bioprocessing approaches on Spike and RBD production yields and, more importantly, in these antigens’ quality attributes. Using negative and positive sera collected from human donors, we show an excellent performance of the produced antigens, assessed in serologic ELISA tests, as denoted by the high specificity and sensitivity of the test. We have shown that, despite of the human cell host and the cell culture strategy used, for production scales ranging from 1 L to up to 30 L, final yields of approx. 2 mg and 90 mg per liter of purified bulk for Spike and RBD, respectively, could be obtained. To the best of our knowledge these are the highest yields for RBD production reported to date. An in-depth characterization of SARS CoV-2 Spike and RBD proteins was also performed, namely the antigens oligomeric state, glycosylation profiles and thermal stability during storage. The correlation of these quality attributes with ELISA performance show equivalent reactivity to SARS CoV 2 positive serum, for all Spike and RBD produced, and for all the storage conditions tested. Overall, we provide herein straightforward protocols to produce high-quality SARS CoV-2 Spike and RBD antigens, that can be easily adapted to both academic and industrial settings; and integrate, for the first time, studies on the impact of bioprocess with an in-deep characterization of these proteins, correlating antigens glycosylation and biophysical attributes to performance of COVID-19 serologic tests. We strongly believe that our work will contribute to advance the current and recent knowledge on SARS-CoV-2 proteins and support the scientific society that is persistently searching for solutions for COVID-19 pandemics.
16 Oct 2020Submitted to Biotechnology and Bioengineering
17 Oct 2020Submission Checks Completed
17 Oct 2020Assigned to Editor
01 Nov 2020Reviewer(s) Assigned
02 Dec 2020Review(s) Completed, Editorial Evaluation Pending
02 Dec 2020Editorial Decision: Revise Major
22 Dec 20201st Revision Received
23 Dec 2020Submission Checks Completed
23 Dec 2020Assigned to Editor
23 Dec 2020Reviewer(s) Assigned
19 Feb 2021Review(s) Completed, Editorial Evaluation Pending
19 Feb 2021Editorial Decision: Accept
24 Feb 2021Published in Biotechnology and Bioengineering. 10.1002/bit.27725