No. controls. Findings We report broad serological profiles within the cohort, detecting antibody binding to other human coronaviruses. 202(>99%) participants experienced SARS-CoV-2 specific antibodies, with SARS-CoV-2 neutralization and spike-ACE2 receptor conversation blocking observed in 193(95%) individuals. A significant positive correlation (r=0.7804) between spike-ACE2 blocking antibody Glucagon receptor antagonists-1 titers and neutralization potency was observed. Further, SARS-CoV-2 specific CD8+ T-cell responses were obvious and quantifiable in 95 of 106(90%) HLA-A2+ individualsin macaque challenge studies [25], suggest that the immunological response developed during primary infections provide at least some protection against reinfection. Additionally, SARS-CoV-2 specific T-cell activation has also been documented in a range of studies [26], [27], [28]. However, many studies are limited to Glucagon receptor antagonists-1 specific disease severity populations, and small or none RT-PCR verified cohorts. Currently, in depth characterization of the adaptive immune response to SARS-CoV-2 in large cohorts representing the full disease spectrum, as well as the development of functional, and easily scalable, serological assays, are needed to guideline and support quick vaccine development and efficacy evaluation. Here, we Rabbit Polyclonal to KITH_EBV have delineated the humoral and cellular immune responses in 203, RT-PCR verified, recovered SARS-CoV-2 patients. We evaluated the quantity and potency of antibodies in each individual towards several different coronaviruses and antigens, using both a SARS-CoV-2 spike pseudovirus neutralization assay and a novel Meso Level Diagnostics (MSD) multiplex platform [29]. We further quantified the breadth and magnitude of single-epitope SARS-CoV-2 specific CD8+ T cells, using dextramer circulation cytometry. Thus, we report an extensive panel of adaptive immune parameters in the context of disease severity, to provide an outline of the general broad and functional SARS-CoV-2 specific adaptive immune response observed across the full COVID-19 disease spectrum. 2.?Methods 2.1. Study design and sample collection Samples were collected from a cohort of 203 individuals who experienced recovered from COVID-19. Participants were enrolled at Department of Infectious Diseases at Aarhus University or college Hospital, Denmark from April 3rd to July 9th 2020. Inclusion criteria were as follows; 1) Age above 18 years; 2) PCR verified SARS-CoV-2 within the preceding 12 weeks; 3) Full recovery from acute COVID-19 illness; 4) Able to give knowledgeable consent. Exclusion criteria were; 1) Ongoing febrile illness; 2) Immunosuppressive treatment and/or known immunodeficiency; 3) Pregnancy. 301 individuals were invited to participate in the study, of which 203 responded. All 203 responders met the study criteria and were included. Samples were collected at least 14 days after recovery and a maximum of 12 weeks after SARS-CoV-2 PCR-verified diagnosis. One patient ID116 only experienced serum collected, and thus is usually absent from plasma neutralization and T-cell analyses. Individuals were allocated to three groups according to the Glucagon receptor antagonists-1 severity of COVID-19 illness, based on the criteria: 1) Home/outpatient, not going through any limitations in daily activities; 2) Home/outpatient, certain limitations in daily activity level (fever, bedridden during illness); 3) All hospitalized patients, regardless of need for supplemental oxygen treatment, or Glucagon receptor antagonists-1 ICU admission with/without mechanical ventilation. Additional data regarding demographic and clinical characteristics of this cohort has been reported elsewhere [30]. 2.2. Ethics Each participant provided informed written consent prior to any study activities. Glucagon receptor antagonists-1 The study was approved by The National Health Ethics Committee (#1-10-72-76-20) and the Danish Data Protection Agency (case number not relevant) 2.3. Serology IgG antibodies were measured in serum samples using the MSD Coronavirus Plate 1 (Cat. No. N05357A-1, Meso Level Diagnostics, Rockville, Maryland), a solid phase multiplex immunoassay, with 10 pre-coated antigen spots in a 96-well format, with an electro-chemiluminescence based detection system. The SARS-CoV-2 related antigens spotted were CoV-2 Spike, CoV-2 RBD, CoV-2 NTD, and CoV-2 nucleocapsid. The remaining spots comprised antigens from other respiratory pathogens: Spike protein from SARS-CoV-1, MERS coronavirus, and two seasonal coronaviruses OC43, HKU1. BSA served as a negative control, as previously described [29]. Unspecific antibody binding was blocked using MSD Blocker A (Cat. No. R93AA-1). COVID-19 individual serum samples and control samples were diluted 1:4630 in MSD Diluent 100 (Cat. No. R50AA-3)..