Development of a scalable single process for producing SARS-CoV-2 RBD monomer and dimer vaccine antigens

Tammy Boggiano-Ayo; Julio Palacios-Oliva; Sumlai Lozada-Chang; Ernesto Relova-Hernandez; Jose Gomez-Perez; Gonzalo Oliva; Lourdes Hernandez; Alexi Bueno-Soler; Daidee Montes de Oca; Osvaldo Mora; Roberto Machado-Santisteban; Dayana Perez-Martinez; Beatriz Perez-Masson; Yanelys Cabrera Infante; Lisandra Calzadilla-Rosado; Yaima Ramirez; Judey Aymed-Garcia; Ingrid Ruiz-Ramirez; Yamile Romero; Tania Gomez; Luis A Espinosa; Luis Javier Gonzalez; Annia Cabrales; Osmany Guirola; Kathya Rashida de la Luz; Franciscary Pi-Estopiñan; Belinda Sanchez-Ramirez; Dagmar Garcia-Rivera; Yuri Valdes-Balbin; Gertrudis Rojas; Kalet Leon-Monzon; Eduardo Ojito-Magaz; Eugenio Hardy

doi:10.3389/fbioe.2023.1287551

Development of a scalable single process for producing SARS-CoV-2 RBD monomer and dimer vaccine antigens

Front Bioeng Biotechnol. 2023 Nov 17:11:1287551. doi: 10.3389/fbioe.2023.1287551. eCollection 2023.

Authors

Tammy Boggiano-Ayo¹, Julio Palacios-Oliva¹, Sumlai Lozada-Chang¹, Ernesto Relova-Hernandez², Jose Gomez-Perez³, Gonzalo Oliva⁴, Lourdes Hernandez⁴, Alexi Bueno-Soler¹, Daidee Montes de Oca¹, Osvaldo Mora⁴, Roberto Machado-Santisteban¹, Dayana Perez-Martinez², Beatriz Perez-Masson², Yanelys Cabrera Infante², Lisandra Calzadilla-Rosado¹, Yaima Ramirez², Judey Aymed-Garcia², Ingrid Ruiz-Ramirez³, Yamile Romero², Tania Gomez³, Luis A Espinosa⁵, Luis Javier Gonzalez⁵, Annia Cabrales⁵, Osmany Guirola⁵, Kathya Rashida de la Luz¹, Franciscary Pi-Estopiñan², Belinda Sanchez-Ramirez², Dagmar Garcia-Rivera⁶, Yuri Valdes-Balbin⁶, Gertrudis Rojas², Kalet Leon-Monzon², Eduardo Ojito-Magaz¹, Eugenio Hardy¹

Affiliations

¹ Process Development Direction, Center of Molecular Immunology, Havana, Cuba.
² Immunology and Immunobiology Direction, Center of Molecular Immunology, Havana, Cuba.
³ Quality Direction, Center of Molecular Immunology, Havana, Cuba.
⁴ Process Direction, Center of Molecular Immunology, Havana, Cuba.
⁵ Center for Genetic Engineering and Biotechnology, Playa, Cuba.
⁶ Finlay Vaccine Institute, Havana, Cuba.

Abstract

We have developed a single process for producing two key COVID-19 vaccine antigens: SARS-CoV-2 receptor binding domain (RBD) monomer and dimer. These antigens are featured in various COVID-19 vaccine formats, including SOBERANA 01 and the licensed SOBERANA 02, and SOBERANA Plus. Our approach involves expressing RBD (319-541)-His6 in Chinese hamster ovary (CHO)-K1 cells, generating and characterizing oligoclones, and selecting the best RBD-producing clones. Critical parameters such as copper supplementation in the culture medium and cell viability influenced the yield of RBD dimer. The purification of RBD involved standard immobilized metal ion affinity chromatography (IMAC), ion exchange chromatography, and size exclusion chromatography. Our findings suggest that copper can improve IMAC performance. Efficient RBD production was achieved using small-scale bioreactor cell culture (2 L). The two RBD forms - monomeric and dimeric RBD - were also produced on a large scale (500 L). This study represents the first large-scale application of perfusion culture for the production of RBD antigens. We conducted a thorough analysis of the purified RBD antigens, which encompassed primary structure, protein integrity, N-glycosylation, size, purity, secondary and tertiary structures, isoform composition, hydrophobicity, and long-term stability. Additionally, we investigated RBD-ACE2 interactions, in vitro ACE2 recognition of RBD, and the immunogenicity of RBD antigens in mice. We have determined that both the monomeric and dimeric RBD antigens possess the necessary quality attributes for vaccine production. By enabling the customizable production of both RBD forms, this unified manufacturing process provides the required flexibility to adapt rapidly to the ever-changing demands of emerging SARS-CoV-2 variants and different COVID-19 vaccine platforms.

Keywords: CHO cells; COVID-19; RBD; SARS-CoV-2; perfusion culture; vaccine.

Copyright © 2023 Boggiano-Ayo, Palacios-Oliva, Lozada-Chang, Relova-Hernandez, Gomez-Perez, Oliva, Hernandez, Bueno-Soler, Montes de Oca, Mora, Machado-Santisteban, Perez-Martinez, Perez-Masson, Cabrera Infante, Calzadilla-Rosado, Ramirez, Aymed-Garcia, Ruiz-Ramirez, Romero, Gomez, Espinosa, Gonzalez, Cabrales, Guirola, de la Luz, Pi-Estopiñan, Sanchez-Ramirez, Garcia-Rivera, Valdes-Balbin, Rojas, Leon-Monzon, Ojito-Magaz and Hardy.

Grants and funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. We acknowledge the financial support of the National Science and Technology Program of the Ministry of Science, Technology and Environment of Cuba and the Center of Molecular Immunology from BioCubaFarma.