Development and characterization of a multimericrecombinant protein using the spike protein receptorbinding domain as an antigen to induce SARS‐CoV‐2neutralization

RESUMO

Background: SARS‐CoV2 virus, responsible for the COVID‐19 pandemic, hasfour structural proteins and 16 nonstructural proteins. S‐protein is one of thestructural proteins exposed on the virus surface and is the main target forproducing neutralizing antibodies and vaccines. The S‐protein forms a trimerthat can bind the angiotensin‐converting enzyme 2 (ACE2) through itsreceptor binding domain (RBD) for cell entry.Aims: The goal of this study was to express in HEK293 cells a new RBDrecombinant protein in a constitutive and stable manner in order to use it asan alternative immunogen and diagnostic tool for COVID‐19.Materials & Methods: The protein was designed to contain an immuno-globulin signal sequence, an explanded C‐terminal section of the RBD, aregion responsible for the bacteriophage T4 trimerization inducer, and sixhistidines in the pCDNA‐3.1 plasmid. Following transformation, the cells wereselected with geneticin‐G418 and purified from serum‐fre culture super-natants using Ni2+‐agarand size exclusion chromatography. The protein wasstructurally identified by cross‐linking and circular dichroism experiments,and utilized to immunize mice in conjuction with AS03 or alum adjuvants.The mice sera were examined for antibody recognition, receptor‐bindinginhibition, and virus neutralization, while spleens were evaluated forγ‐interferon production in the presence of RBD. Results: The protein released in the culture supernatant of cells, andexhibited a molecular mass of 135 kDa with a secondary structure like themonomeric and trimeric RBD. After purification, it formed a multimericstructure comprising trimers and hexamers, which were able to bind the ACE2receptor. It generated high antibody titers in mice when combined with AS03adjuvant (up to 150,000). The sera were capable of inhibiting binding ofbiotin‐labeled ACE2 to the virus S1 subunit and could neutralize the entry ofthe Wuhan virus strain into cells at dilutions up to 12000. It produced specificIFN‐γ producing cells in immunized mouse splenocytes.Discussion: Our data describe a new RBD containing protein, formingtrimers and hexamers, which are able to induce a protective humoral andcellular response against SARS‐CoV2.Conclusion: These results add a new arsenal to combat COVID‐19, as analternative immunogen or antigen for diagnosis.