Catarina E. Hioe
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Researcher at Department of Microbiology, Icahn School of Medicine at Mount Sinai
The on-going coronavirus disease 2019 (COVID-19) pandemic has mobilized a global effort to develop vaccines and therapeutics that inhibit viral entry by inducing or transferring antibodies against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike glycoprotein (CoV2-S). Phase I/II vaccine clinical trials, monoclonal antibodies, and convalescent sera have all shown promise. However, these efforts often require extensive screening with the live virus under onerous high biocontainment conditions (BSL-3). Virus neutralization assays (VNAs) remain the gold standard for evaluating the anti-viral potency of antibodies and entry inhibitors. The proliferation of pseudotyped virus systems that can be used in BSL-2 compatible VNAs is a positive development. Yet, there is marked variability between VNAs and how the findings are presented, making inter-group comparisons difficult. To address these limitations, we developed a standardized VNA using VSVdeltaG based CoV-2-S pseudotyped particles (CoV2pp) that can be robustly produced at scale. We used our CoV2pp to interrogate the role of exogenous and endogenous proteases in CoV-2-S mediated entry and standardized our VNA based on that understanding. Our CoV2pp VNA showed a strong positive correlation with CoV2-S ELISA and live virus neutralizations in a validated set of patient sera. Our system was subsequently validated by three independent groups as an out-of-the-box VNA. More than 120 patient sera were screened, and we report descriptive statistics for absolute (abs) IC50, IC80, and IC90 values from all positive patient sera. Lastly, we used our CoV2pp in a screen to identify ultrapermissive 293T clones that stably express ACE2 or ACE2+TMPRSS2. When used in combination with our CoV2pp, we can now produce CoV2pp sufficient for 150,000 standardized VNA/week.
Background. More than one million infections with the severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) have been confirmed. While PCR-based assays are used for diagnosis, high through-put serologic methods are needed to detect antibodies for seroserveillance and for identification of seroconversion, potential plasma donors, and the nature of the immune response to this pathogen. Methods. A Luminex binding assay was used to assess the presence of antibodies in human sera from COVID-19-infected and -uninfected individuals specific for two recombinant proteins of SARS-CoV-2. Findings. Fluorochrome-labeled beads were coated with a recombinant soluble stabilized trimeric SARS-CoV-2 S protein ectodomain or its central portion, the receptor binding domain (RBD). Coated beads were incubated with sera, followed by incubation with biotinylated anti-human total Ig antibodies and phycoerythrin (PE)-labeled streptavidin. Readout using a Luminex analyzer clearly differentiated between sera of the infected and uninfected subject, delineating a wide range of serum antibody levels in infected subjects. Interpretation. Antibody assays of sera can identify individuals who are infected with SARS-CoV-2 and have seroconverted, as well as subjects who have been infected and recovered. The use of the Luminex binding Ab assay has the advantage that it can be run in approximately 2.5 hours, uses very little antigen, and permits a high through-put of samples/day. Funding. NIAID contracts and grants, Department of Veterans Affairs grants, the Microbiology Laboratory Clinical Services, Translational Science Hub, and Personalized Virology Initiative, and Department of Medicine of Mount Sinai Health System and Icahn School of Medicine at Mount Sinai.