key: cord-0890225-qztkjpsq
authors: San Román, Jesús; Candel, Francisco Javier; Sanz, Juan Carlos; López, Paloma; Menéndez-Colino, Rocío; Barreiro, Pablo; Carretero, María del Mar; Pérez-Abeledo, Marta; Viñuela-Prieto, José Manuel; Ramos, Belén; Canora, Jesús; Barba, Raquel; Zapatero-Gaviria, Antonio; Martínez-Peromingo, Franciso Javier
title: Humoral and Cellular Response after mRNA Vaccination in Nursing Homes: Influence of Age and of History of COVID-19
date: 2022-03-02
journal: Vaccines (Basel)
DOI: 10.3390/vaccines10030383
sha: 379bda2ca5a3f7a48244ca867cfdf9cfdbba0381
doc_id: 890225
cord_uid: qztkjpsq

Background: Most residents and staff in nursing homes have received full vaccination. Factors related to the immune response to vaccination might be related to the risk of future severe COVID-19 and may guide the need for vaccine boosters. Design: Nursing homes that were tested in a point survey in July-October 2020 were again analyzed after a vaccination campaign in June-July 2021. Immune responses according to IgG against nucleocapsid and spike antigens, and CD4 and CD8 interferon-gamma release assay against spike antigens, were evaluated. Results: A total of 1973 subjects were tested (61.7% residents, 48.3% staff), with a mean (SD) follow-up of 46.4 (3.6) weeks between assessments. More than half of residents and more than a third of staff had evidence of COVID-19 before vaccination; 26.9% and 22.7% had seroreversion of IgG-N, and 8.9% and 4.6% had IgG-N seroconversion at second assessment, respectively. Up to 96.8% of residents and 98.1% of workers had positive IgG-S after a mean of 19.9 (2.1) weeks after vaccination. In residents with vs without a history of COVID-19, IgG-S titers were 4.11 (0.54) vs. 2.73 (0.74) logAU/mL (p < 0.001); in workers these titers were 3.89 (0.61) vs. 3.15 (0.64) logAU/mL (p < 0.001). Linear regression analysis showed that younger age (OR: −0.03 per 10 years-older [95% CI, −0.04 to −0.02], p < 0.001) and evidence of COVID-19 (OR: 1.14 [95% CI, 1.08 to 1.20], p < 0.001) are associated with greater IgG-S titers after vaccination. A direct association was found between IgG-S titers and the intensity of IFN-gamma response against spike antigens. Conclusions: Waning of humoral response and reinfection seems to be more frequent in older as compared to younger adults, although cellular responses shortly after vaccination are comparable between these groups. Younger age and prior COVID-19 are related to greater humoral response after vaccination against SARS-CoV-2.

During the first months of the COVID-19 pandemic [1, 2] , nursing homes for older adults concentrated high levels of morbidity and mortality of residents and also high levels of infections among workers. People in these centers were prioritized for SARS-CoV-2 vaccination. According to recent observations, the benefits of vaccination against SARS-CoV-2 include, in order of hazard reduction, lowering mortality, frequency of severe disease, and incidence of infections [3] .

The frequency of SARS-CoV-2 reinfections, or breakthrough infections of those vaccinated, are yet to be determined, but seem to be greater for older adults as compared with younger people [4] . Associated factors include the selection of new viral variants [5] and waning immunity [6, 7] .

For older adults [8] , the immune enhancement from booster doses of vaccine reduces the rate of infections and of severe disease; but the question remains whether other populations require additional vaccination, or if other factors, such as prior COVID-19, may preclude this intervention [9] . Herein we have analyzed the humoral response after BNT162b2 vaccination in residents and workers in nursing homes, and we have compared the immune profile after vaccination between those with and without a history of COVID-19.

Nursing homes that were under follow-up by the Supporting Unit for Residencies (SUR) in the northern area of the Community of Madrid were offered the opportunity to participate in this study. All centers were assessed with a serological point-survey between July and October 2020 (time 1) [10] . For that study, all residents and workers in nursing homes were tested for their serological response to SARS-CoV-2 prior to the initiation of the vaccination campaign. For the present study only vaccinated individuals (vaccinated with the BNT162b2 vaccine (Comirnaty ® , Pfizer-BioNTech ® , Mainz, Germany) with the first dose given by the end of December 2020, or the beginning of January 2021, and a second dose given in the second half of January and February 2021) were selected (time 2). Participation in the study was voluntary and included written informed consent. The study was approved by the Ethics Committee of the Hospital Clínico San Carlos under the name 'SeroVAC study' (reference number 21/274-O_M_SP).

The qualitative detection of IgG against nucleocapsid (N) and the qualitative and semiquantitative detection (in arbitrary units per mL [AU/mL]) determinations of IgG against the spike (S) antigens of SARS-CoV-2 were carried out by chemiluminescent microparticle immunoassays (CLIA) (Abbott ® Ireland Diagnostics Division, Sligo, Ireland) and the ARCHITECT System (Abbott ® , Chicago, IL, USA). The cut-off of positivity for IgG-S was ≥50 AU/mL according to previous validation studies [11] . For subjects with IgG-S concentrations above the upper limit of the analytical measuring interval a (40,000 AU/mL) an arbitrary concentration of antibodies of 2-fold above this level was considered.

For a subset of participants, the interferon-gamma (IFNγ) release assay (IGRA) was performed using SARS-CoV-2 S peptide formulations antigen 1 (Ag1) and antigen 2 (Ag2) and stimulation in whole blood (QuantiFERON ® SARS-CoV-2). All residents and workers at a single center that was randomly selected were assessed for cellular immunity at time 2. The production of IFN-γ was measured using the Sandwich CLIA platform approved for the determination of cellular immunity against M.-tuberculosis-specific antigens (QuantiFERON-TB Gold Plus. LIAISON XL ® , DiaSorin ® , Saluggia, Italy) [12] , but in this case mycobacterial reactants were substituted with SARS-CoV-2 antigens (QuantiFERON SARS-CoV-2 Research Use Only, Qiagen ® . Hilden, Germany) for in vitro stimulation of lymphocytes. Venous whole blood samples were collected directly in a core tube with lithium heparin, and later transferred to the QuantiFERON 2 tubes containing S peptides (Ag1 and Ag2), as well as positive (mitogen) and negative (nil) controls. The Ag1 and Ag2 are currently in vitro diagnostic products labeled for Research Use Only (RUO) and are not yet validated for clinical purposes. Specimens were processed as per the manufacturer's guidelines [13] [14] [15] . The CLIA platform determines IFN-γ concentrations in international units per liter (IU/L), although the recommendation is that for clinical purposes a qualitative result is produced using a cut-off titer that is yet to be determined for SARS-CoV-2 infection. To calculate the final results per patient, the nil control test needs to be subtracted from mitogen, Ag1, and Ag2 results. Final IFN-γ concentration in the mitogen control test needs to be >500 IU/L to validate the final Ag1 and Ag2 results. The cut-off of positivity in IGRA used (≥25 IU/L for Ag1 and Ag2) has been previously established at the Public Health Regional Laboratory of the Community of Madrid in a case-control pilot study [16] .

Statistical analyses were done using SPSS ® software, version 20 (IBM ® , Chicago, IL, USA). Student's t test was used to compare normally distributed continuous variables. In the case of non-normally distributed variables, Mann-Whitney's U test was applied. Comparison of proportions for categorical variables was done either by chi-square or Fisher's exact tests, as required. Correlation tests were done using Spearman's rho test. Linear regression analysis was done for the study of variables associated with IgG-S concentration after vaccination; key assumptions for this test were met (Durbin-Watson test, uniform distribution of studentized residual, Pearson's correlation between variables, no collinearity and normal distribution of residuals).

A total of 1973 subjects living as residents (n: 1218; mean (SD) age: 83.7 (12.1) yearsold; 71.2% women) or working as staff members (n: 755; mean age: 47.0 (11.4) years-old; 85.3% women) in 44 nursing homes for older adults were tested at two time points, in July to October 2020 (time 1) and in June to July 2021 (time 2). Table 1 shows the primary characteristics of residents and workers included in the study. The mean lag between the two serological assessments (time 1 to time 2) was 46.4 (3.6) weeks. At time 1, evidence of prior COVID-19 among residents was found in 539 (44.2%) subjects by positive IgG-N and in 608 (50.0%) by positive IgG-S (p = 0.05); as for staff, the results were 204 (27.1%) IgG-N positive, and 270 (35.9%) IgG-S positive (p < 0.001). A total of 619 (50.8%) residents and 277 (36.7%) staff members had evidence of COVID-19 before vaccination either due to being IgG-S and/or IgG-N positive (p < 0.001).

In the period between time 1 and time 2, with respect to SARS-CoV-2 IgG-N positivity in residents, 328 (26.9%) showed seroreversion (IgG-N positive to IgG-N negative) and 109 (8.9%) seroconversion (IgG-N plus IgG-S negative to IgG-N positive); in the case of workers, we found 171 (22.7%) seroreversions and 35 (4.6%) recent infections using the same criteria. The proportion of seroreversions (p = 0.003) and of recent infections (p < 0.001) was greater in residents as compared with staff.

At In a subset of these subjects (28 residents and 15 staff) we were able to test cellular immunity at time 2 by IGRA after stimulation of peripheral blood lymphocytes with SARS-CoV-2 Ag1 and Ag2. A total of 24 (85.7%) residents and 14 (93.3%) workers (p = 0.5) In a subset of these subjects (28 residents and 15 staff) we were able to test cellular immunity at time 2 by IGRA after stimulation of peripheral blood lymphocytes with SARS-CoV-2 Ag1 and Ag2. A total of 24 (85.7%) residents and 14 (93.3%) workers (p = 0.5) were IGRA positive and 5 subjects were IGRA negative. Taking together 40 residents and staff in whom paired humoral and cellular immunity tests were available, a direct association was found between IgG-S titers and the intensity of IFNγ response to Ag1 and Ag2 (Figure 2 ). were IGRA positive and 5 subjects were IGRA negative. Taking together 40 residents and staff in whom paired humoral and cellular immunity tests were available, a direct association was found between IgG-S titers and the intensity of IFNγ response to Ag1 and Ag2 ( Figure 2 ).

Association between humoral (IgG to spike titers) and cellular (IFNγ production) response after mRNA SARS-CoV-2 vaccination.

Linear regression analysis including age, sex, personal status (resident or staff), and serological evidence of COVID-19 (positive IgG-N) showed that IgG-S concentration after vaccination was associated with age (OR: −0.03 per 10 years-old (95% CI, −0.04 to −0.02 [p < 0.001]) and evidence of past COVID-19 (OR: 1.14 (95% CI, 1.08 to 1.20 [p < 0.001]) ( Table  2 ). 

We observed that targeting the spike (S) protein is a better marker of SARS-CoV-2 infection than the nucleocapsid (N). Although both viral proteins are highly immunogenic, the decay in the levels of antibodies is faster for IgG-N than for IgG-S [17, 18] .

During the initial phases of the pandemic [10] , in agreement with previous studies, our data confirm the high rate of infections in nursing homes. Seroreversion of IgG-N occurred for close to a quarter of subjects after approximately a year; yet even more remarkable was the difference between residents and staff [19] : the proportion of residents with seroconversion was almost twice that of staff-with the implication that the waning humoral immunity of older adults places them at greater risk for reinfection [20, 21] .

Older adults living in nursing homes, even though vaccinated, may still be at high risk for a complicated bout of COVID-19, given their age, frailty, and need for care. These breakthrough infections of older adults, but not members of the staff, have been previously reported [22] . Greater age is related to lower response to SARS-CoV-2 vaccination Linear regression analysis including age, sex, personal status (resident or staff), and serological evidence of COVID-19 (positive IgG-N) showed that IgG-S concentration after vaccination was associated with age (OR: −0.03 per 10 years-old (95% CI, −0.04 to −0.02 [p < 0.001]) and evidence of past COVID-19 (OR: 1.14 (95% CI, 1.08 to 1.20 [p < 0.001]) ( Table 2 ). 

We observed that targeting the spike (S) protein is a better marker of SARS-CoV-2 infection than the nucleocapsid (N). Although both viral proteins are highly immunogenic, the decay in the levels of antibodies is faster for IgG-N than for IgG-S [17, 18] .

During the initial phases of the pandemic [10] , in agreement with previous studies, our data confirm the high rate of infections in nursing homes. Seroreversion of IgG-N occurred for close to a quarter of subjects after approximately a year; yet even more remarkable was the difference between residents and staff [19] : the proportion of residents with seroconversion was almost twice that of staff-with the implication that the waning humoral immunity of older adults places them at greater risk for reinfection [20, 21] .

Older adults living in nursing homes, even though vaccinated, may still be at high risk for a complicated bout of COVID-19, given their age, frailty, and need for care. These breakthrough infections of older adults, but not members of the staff, have been previously reported [22] . Greater age is related to lower response to SARS-CoV-2 vaccination [9] . We observed, in the linear regression analysis, that IgG-S levels after vaccination are independently reduced with greater age. Other studies have shown a faster drop in the concentration of vaccine-induced immunity of older adults who are naïve versus those who are SARS-CoV-2-experienced [23] . Age, however, was not a factor affecting long-term antibody levels of patients convalescent with COVID-19 in another study [24] . As older patients may have more serious morbidity with reinfection or breakthrough infection [25] , booster doses of vaccines are clearly indicated for residents of nursing homes. It is encouraging to observe in our study that the initial immune responses are in the short-term comparable among older and younger individuals.

Patients with a history of COVID-19 before vaccination have been shown to have greater IgG-S levels after receiving the vaccine as compared with those with no exposure to natural infection [9, 26] . Further studies are required to determine whether subjects with a history of COVID-19 are better protected from infection or severe disease after vaccination, or if they would benefit from a different boosting protocol.

Evidence that T-cell immunity provides protection from viral replication, facilitates viral clearance, and sustains humoral response is consistent with our observation that most vaccinated subjects have positive IGRA to SARS-CoV-2 [27, 28] . The small number of subjects tested means that these conclusions should be taken with caution. Antibody titers also may not accurately reflect the level of protection; according to a recent study [29] , T-cell response shows little signs of exhaustion after vaccination. The correlation between humoral and cellular immunity, although statistically significant is still weak, may be in part due of the heterogeneity in the population, particularly with respect to age.

Some limitations of this study should be taken into consideration. We had no access to medical records and it is very likely that health status and comorbidities are factors affecting immune response to vaccination, both for residents and staff. Given the high risk of infection afflicting nursing homes, the set of residents included is biased as survivors were probably those with a better genetic background, clinical profile, and more robust immunity. Despite this selection bias, older adults are still at more risk for morbidity by SARS-CoV-2 than younger individuals. The design of the study allowed us to obtain clinical and laboratory information at two points, but we have no data about other factors within the times of assessment (i.e., other episodes of SARS-CoV-2 infection, other clinical events, treatment that may alter immune response, etc.). The selection of subjects in nursing homes was not properly performed after calculated sampling, making conclusions unable to be extrapolated. However, having found a similar proportion of seropositive residents and staff at time 1, a large point survey undertaken in the Community of Madrid [10] may indicate that the population studied was representative.

In conclusion, humoral immune waning seems to be more frequent in older adults. Antibody responses shortly after vaccination are less intense in older than in younger individuals. Further study could answer whether prior COVID-19 provides more durable immunity and lower risk upon reinfection with SARS-CoV-2 and, therefore, may make these subjects less vaccine-dependent. 

The study was conducted in accordance with the Declaration of Helsinki, and was approved by the Ethics Committee of the Hospital Clínico San Carlos under the name 'SeroVAC study' (reference number 21/274-O_M_SP).

Mortality Associated with COVID-19 in Care Homes: International Evidence. International Long-Term Care Policy Network

The Impact of COVID-19 pandemic on long-term care facilities worldwide: An overview on international issues

Associations of BNT162b2 vaccination with SARS-CoV-2 infection and hospital admission and death with covid-19 in nursing homes and healthcare workers in Catalonia: Prospective cohort study

Assessment of protection against reinfection with SARS-CoV-2 among 4 million PCR-tested individuals in Denmark in 2020: A population-level observational study

Changes in symptomatology, reinfection, and transmissibility associated with the SARS-CoV-2 variant B.1.1.7: An ecological study

Prior SARS-CoV-2 infection is associated with protection against symptomatic reinfection

Neutralizing antibody levels are highly predictive of immune protection from symptomatic SARS-CoV-2 infection

Protection of BNT162b2 Vaccine Booster against Covid-19 in Israel

Reduced BNT162b2 messenger RNA vaccine response in severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-naive nursing home residents

The demography and characteristics of SARS-CoV-2 seropositive residents and staff of nursing homes for older adults in the Community of Madrid: The SeroSOS study

Performance evaluation of three automated quantitative immunoassays and their correlation with a surrogate virus neutralization test in coronavirus disease 19 patients and pre-pandemic controls

LIAISON®QuantiFERON-TB Gold Plus (REF. 311010)

CoV-2 Extended set Blood Collection Tubes Instructions for Use (Handbook)

Set Blood Collection Tubes Instructions for Use (Handbook)

QIAGEN. QuantiFERON®SARSCoV-2 Starter Set Blood Collection Tubes Instructions for Use (Handbook). 2021. Available online

A pilot study for the evaluation of an interferon-gamma release assay (IGRA) to measure T-cell immune responses after SARS-CoV-2 infection or vaccination in a unique cloistered cohort

Detection of SARS-CoV-2 IgG targeting nucleocapsid or spike protein by four high-throughput immunoassays authorized for emergency use

Long-Term persistence of spike protein antibody and predictive modeling of antibody dynamics after infection with severe acute respiratory syndrome coronavirus 2

Antibody response to SARS-CoV-2 is associated with long-term clinical outcome in patients with COVID-19: A longitudinal study

Antibodies to SARS-CoV-2 protect against re-infection during outbreaks in care homes

Suspected recurrent SARS-CoV-2 infections among residents of a skilled nursing facility during a second COVID-19 outbreak-Kentucky

SARS-CoV-2 B 1.1.7 Variant outbreak in a fully vaccinated nursing home-Madrid

Dynamics of the cellular and humoral immune response after BNT162b2 messenger ribonucleic acid coronavirus disease 2019 (COVID-19) vaccination in COVID-19-naive nursing home residents

SARS-CoV-2 antibody dynamics and B-cell memory response over time in COVID-19 convalescent subjects

Waning immunity of the BNT162b2 vaccine: A nationwide study from Israel

Antibody response after one and two jabs of the BNT162b2 vaccine in nursing home residents: The CONsort-19 study

COVID-19 vaccines: Keeping pace with SARS-CoV-2 variants

Preliminary evaluation of QuantiFERON SARS-CoV-2 and QIAreach anti-SARS-CoV-2 total test in recently vaccinated individuals

mRNA vaccines induce durable immune memory to SARS-CoV-2 and variants of concern

Informed Consent Statement: Informed consent was obtained from all subjects involved in the study.

The data presented in this study are available on request from the corresponding author. The data are not publicly available due to privacy issues.