mRNA VACCINES INDUCES A HIGHER ANTIBODIES RESPONSE IN CHILDREN WITH PREVIOUS COVID-19

Background: mRNA vaccines elicit a durable humoral response to SARS-CoV-2 in adults, whereas evidence in children is lacking. This study aimed to evaluate the early and long-term immunological response after the BNT162b2 vaccine in children with or without a previous SARS-CoV-2 infection. Method(s): In a multicenter, prospective, observational study we profiled the immune response to the BNT162b2 vaccine in children aged 5-11 years attending the Pediatric Departments at the University of Padua and Bambino Gesu Children's Hospital in Rome (Italy). Forty-four healthy children (HC), 20 immune compromised (IC), and 18 children who previously developed MIS-C (MIS-C) were included in the study. Blood samples were collected pre-, 1, and 6 months after a 2-doses vaccination schedule. Neutralizing antibodies (NAbs) and anti-S-RBD IgG titers were analyzed through Plaque Reduction Neutralization Test (PRNT) and chemiluminescent immune-enzymatic assay (CLIA), respectively. B and T cell phenotypes were analyzed by flow cytometry. Geometric mean titers (GMTs) and 95% confidence intervals and median and interquartile range (IQR) of variables were evaluated according to pre-existing confirmed COVID-19. Result(s): Eighty-two children were studied;60 with a molecular-documented previous COVID-19 (Group A) and 22 without previous infection defined as the absence of antigen-specific antibodies before the vaccination (Group B). Overall, in Group A we observed higher NAbs GMTs, anti-S-RBD titers, and T- and B-reg cells than in Group A, at both 1 and 6 mo after vaccination (table);Nabs against the parental virus resulted to be greater in Group A than in Group B by a factor of 18 and 11, at 1 and 6 mo after vaccination, respectively. Both Groups recorded a decrease in antibody titers of approximately 50-70% between 1 and 6 months. A significant difference for Omicron NAbs (p=0.02) and anti-S-RBD (p=0.07) titers decay was observed between Group A and B;in contrast, Parental NAbs titers appeared to have similar trends in the 2 groups (p=0.47). Comparable antibody titers at 1 and 6 mo. (p=0.37) were detected across the three categories of HC, IC, and MIS-C (table). Conclusion(s): mRNA vaccination triggers a higher humoral response in children with a previous history of COVID-19, regardless of the immune deficiency or previous MIS-C, at least up to 6 mo, providing insight into boosting preexisting immunity with mRNA vaccines.

PERSISTENCE of SARS-CoV-2 ANTIBODES in CHILDREN and ADULTS 1 YEAR after INFECTION

Background: Understanding the long-term kinetics of the immune response against SARS-CoV-2 infection is crucial in guiding public health policies and optimizing of vaccination strategies. While it is known that SARS-CoV-2 specific antibodies may persist in adults 12 months after infection, data are lacking in the pediatric population. We herein describe the long-term immune response in children following SARS-CoV-2 infection. Methods: Single-centre, prospective observational study analyzing family clusters of COVID-19 attending the Pediatric Department, University of Padua (Italy). Confirmed COVID-19 infection was defined by positive SARS-CoV-2 PCR and/or IgG serology. All patients with confirmed infection at enrolment underwent serological follow-up at 1-4, 5-10, and >10 months after infection. Plasma was analyzed to quantify anti-SARS-CoV-2 S-RBD IgG, by chemiluminescent immunoassay, performed on MAGLUMI™2000 Plus (Snibe Diagnostics). IgG title >4.3 kBAU/L was considered positive. Results: Among 902 subjects (252 COVID-19 family clusters), 698 had confirmed COVID-19, including 352 children/older siblings aged 8.6 ±5.1 years, and 346 parents aged 42.5 ±7.1 years;of those, 96.5% cases had asymptomatic/mild COVID-19. Children showed significantly higher S-RBD IgG titers than older subjects across all follow-up time points, with an overall mean S-RBD IgG titer <3 years of age five-fold higher than adults (282.3 [139-516.6] kBAU/L vs 56.7 [24.6-136.9] kBAU/L, p<0.001) (Table). The longitudinal analysis of 60 subjects sampled at least twice during follow-up demonstrated the persistence of antibodies up to 10 months from infection in all age classes. Subjects >6 years of age showed a significant progressive decline of the S-RBD IgG titer from the first serological follow-up. While, in younger children antibodies remained stable at 5-10 months of follow-up (p=0.0625), with a subsequent significant decline afterwards (p<0.001). Conclusion: In our unique family cluster cohort, we confirmed the different kinetics of the COVID-19 humoral response across several age groups of asymptomatic/mild COVID-19 cases in our family-cluster cohort. Children presented with higher S-RBD IgG titer at every time point up to 10 months of follow-up. Children less than 3 years demonstrated a more intense long-term resilience of their immune response, which started to decline significantly only after ten months from infection.

High specific immune response and low t-cell activation in children with covid-19

Background: SARS-CoV-2 infected children are often asymptomatic or paucisymptomatic compared to adults. The immune response plays a pivotal role in dictating the clinical outcome in infected adults, but it is still poorly investigated in the pediatric population. Methods: Fifty-seven family clusters of SARS-CoV-2, attending the Department for Women's and Children's Health (University of Padova), were enrolled between March and September 2020, for a total 209 subjects. SARS-CoV-2 infection was confirmed in 155 patients (SARS+: 93 ≥15 years [group A];34 children ≥6-15 years [group B];28 children <6 years [group C]) by virus molecular detection and/or serology. In 41 available samples, measurement of SARS-CoV-2 levels (VL) was performed by an in-house quantitative One-Step ddPCR method. A blood sample was obtained at a median [IQR] of 2.8 [2.1-3.7] months after baseline (symptom's onset and/or first positive virus detection). Neutralizing antibodies (Nabs) were detected by a Plaque Reduction Neutralization Test (PRNT). Activated (CD8+CD38+HLA-DR+) and regulatory T cells (T-regs;CD4+Foxp3+CD127-CD25+) were analyzed by flow cytometry. Results: VL did not differ by age (18507 [326-339315], 6723 [3427-114587], and 21106 [162-152500] copies/5μl, in group A, B and C, respectively;overall, p=0.955). Group C had the highest PRNT titer compared to the other groups (overall, p<0.0001). Activated CD8 and regulatory T cells were significantly higher in SARS+ than in SARS- subjects (p<0.001). CD8 activated cells were significantly higher in group A compared to the other groups (p<0.001;Figure a), and were inversely correlated with PRNT titer (group A: rs=-0.527, p<0.0001;B: rs=-0.494 p=0.003;C: rs=-0.547 p<0.0001;Figure b). Conversely, T-regs were significantly higher in group C compared to the others (p<0.001;Figure c), and were positively correlated with PRNT values in children (group C: rs=0.662 p=0.0001, B: rs =0.532 p=0.001;A: rs =0.160, p=0.125;Figure d). Conclusion: Levels of SARS-CoV-2 did not differ among age classes, but adults displayed a higher T cell activation and a lower production of anti-SARS Nabs than children. Conversely, younger infected children had the highest production of anti-SARS Nabs and the lowest non-specific T cell activation, most likely due to their higher expression of regulatory T cells.

High and persistent neutralizing antibodies in children recovered from covid-19

Background: Recent evidences suggest that SARS-CoV-2 neutralizing antibodies (Nabs) may persist over time, however lack of knowledge still regards the pediatric population. Methods: A single-centre, prospective observational study evaluated family clusters of COVID-19 attending the Pediatric Department, University Hospital of Padua (Italy). Confirmed COVID-19 was defined by positive SARS-CoV-2 molecular detection and/or serology;patients/family symptom's and virological positivity were considered to define the infection onset (baseline). Blood samples were analyzed in pair to detect Nabs through Plaque Reduction Neutralization Test (PRNT), and IgG through chemiluminescent immuneenzymatic assay (CLIA) MAGLUMI™ 2000 Plus;IgG >1.1 kAU/L and/or PRNT≥1:10 were considered positive. SARS-CoV-2 viral load (VL) was quantified by multiplex quantitative assay based on One-Step RT-ddPCR. Geometric mean titers (GMT) and 95% Confidence Intervals of IgG/PRNT were evaluated, stratified by age and time from baseline to sample collection. Trends over time of immune-virological response were assessed. P-value <0.05 was considered statistically significant. Results: Among 213 subjects (57 families) evaluated, 155 had confirmed COVID-19 including 73 (47%) children/older siblings of 8 years median age (IQR 4-13) and 82 (53%) parents aged 42 years (IQR 34-46);93.5% had asymptomatic/mild COVID-19. From the cumulative analysis of 194 blood samples, Nabs persisted over a median period of 95 days (IQR, 67-133) from baseline. Children showed significantly higher NAbs than older subjects, with children <3 years ranging from a 4-fold difference at 1-2 months to 8.8-fold difference at 3-6 months after baseline, compared to adults (table). The longitudinal assessment of 42 subjects sampled at 60 days (SD+/-9.9) and at 150 days (SD+/-24.2) showed a 2-fold increase in NAbs in children <6 years (PRNT 144, 95% C.I. 74.42-277.94 versus 303, 95% C.I. 196.43-468.57) and a substantial stability in Nabs among older subjects. CLIA IgG significantly decreased over time for all age classes, becoming negative in 13/42 subjects (31%), compared to 1/42 subjects detected by PRNT. Among 32 individuals checked for VL within 4 days from baseline, VL directly correlated with PRNT titers in subjects >15 years (Pearson Coefficient =0.70, p=0,0349) but not in pediatric cases. Conclusion: Asymptomatic/mild COVID-19 disease triggers in children a superior and persistent humoral response compared to adults.