Your search keyword '"Kerri St. Denis"' showing total 18 results

1. COVID-19 vaccine booster dose needed to achieve Omicron-specific neutralisation in nursing home residents

Author

David H. Canaday, Oladayo A. Oyebanji, Elizabeth White, Debbie Keresztesy, Michael Payne, Dennis Wilk, Lenore Carias, Htin Aung, Kerri St. Denis, Maegan L. Sheehan, Sarah D. Berry, Cheryl M. Cameron, Mark J. Cameron, Brigid M. Wilson, Alejandro B. Balazs, Christopher L. King, and Stefan Gravenstein

Subjects

COVID-19, Vaccination, Booster, Omicron, Geriatrics, Long-term care, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Nursing home (NH) residents have borne a disproportionate share of SARS-CoV-2 morbidity and mortality. Vaccines have limited hospitalisation and death from earlier variants in this vulnerable population. With the rise of Omicron and future variants, it is vital to sustain and broaden vaccine-induced protection. We examined the effect of boosting with BNT162b2 mRNA vaccine on humoral immunity and Omicron-specific neutralising activity among NH residents and healthcare workers (HCWs). Methods: We longitudinally enrolled 85 NH residents (median age 77) and 48 HCWs (median age 51), and sampled them after the initial vaccination series; and just before and 2 weeks after booster vaccination. Anti-spike, anti-receptor binding domain (RBD) and neutralisation titres to the original Wuhan strain and neutralisation to the Omicron strain were obtained. Findings: Booster vaccination significantly increased vaccine-specific anti-spike, anti-RBD, and neutralisation levels above the pre-booster levels in NH residents and HCWs, both in those with and without prior SARS-CoV-2 infection. Omicron-specific neutralisation activity was low after the initial 2 dose series with only 28% of NH residents’ and 28% HCWs’ titres above the assay's lower limit of detection. Omicron neutralising activity following the booster lifted 86% of NH residents and 93% of HCWs to the detectable range. Interpretation: With boosting, the vast majority of HCWs and NH residents developed detectable Omicron-specific neutralising activity. These data provide immunologic evidence that strongly supports booster vaccination to broaden neutralising activity and counter waning immunity in the hope it will better protect this vulnerable, high-risk population against the Omicron variant. Funding: NIH AI129709-03S1, U01 CA260539-01, CDC 200-2016-91773, and VA BX005507-01.

Published

2022

2. Human Milk Supports Robust Intestinal Organoid Growth, Differentiation, and Homeostatic Cytokine Production

Author

Lauren Smith, Eduardo Gonzalez Santiago, Chino Eke, Weihong Gu, Wenjia Wang, Dhana Llivichuzhca-Loja, Tessa Kehoe, Kerri St Denis, Madison Strine, Sarah Taylor, George Tseng, and Liza Konnikova

Subjects

Intestinal Development, Breast Milk, Necrotizing Enterocolitis, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background and Aims: Necrotizing enterocolitis is a severe gastrointestinal complication of prematurity. Using small intestinal organoids derived from fetal tissue of a gestational age similar to an extremely preterm infant, this study aims to assess the effect of diet on intestinal epithelial growth and differentiation to elucidate the role nutrition type plays in intestinal development and modifies the risk for necrotizing enterocolitis. Methods: Organoids were cultured for 5 days in growth media and 5 days in differentiation media supplemented 1:40 with 4 different diets: parental milk, donor human milk, standard formula, or extensively hydrolyzed formula. Images were captured daily and organoids were quantified. Organoids were preserved for RNA sequencing and immunofluorescence staining with Ki67, cleaved caspase 3, and chromogranin-A. Media was saved for cytokine/chemokine and growth factor analysis. Results: Human milk supplementation improved growth and differentiation of intestinal organoids generating larger organoids during the growth phase and organoids with longer and wider buds during differentiation compared to formula. Ki67 staining confirmed the proliferative nature of milk-supplemented organoids and chromogranin A staining proved that MM-supplemented organoids induced highest enteroendocrine differentiation. Human milk supplementation also upregulated genes involved in Wnt signaling and fatty acid metabolism pathways and promoted a homeostatic immune landscape, including via increased secretion of tumor necrosis factor-related apoptosis-inducing ligand among other cytokines. Conversely, organoids supplemented with formula had a downregulation of cell-cycle-promoting genes and a more inflammatory immune signature, including a reduced level of leukemia inhibitory factor. Conclusion: Our results demonstrate that parental milk, and to a lesser extent donor human milk, support robust intestinal epithelial proliferation, differentiation, and homeostatic cytokine production, suggesting a critical role for factors enriched in human milk in intestinal epithelial health.

Published

2024

3. SARS-CoV-2 Antibody Responses to the Ancestral SARS-CoV-2 Strain and Omicron BA.1 and BA.4/BA.5 Variants in Nursing Home Residents After Receipt of Bivalent COVID-19 Vaccine — Ohio and Rhode Island, September–November 2022

Author

David H. Canaday, Oladayo A. Oyebanji, Elizabeth M. White, Jürgen Bosch, Clare Nugent, Igor Vishnepolskiy, Yasin Abul, Elise M. Didion, Alexandra Paxitzis, Nicholas Sundheimer, Vaishnavi Ragavapuram, Dennis Wilk, Debbie Keresztesy, Yi Cao, Kerri St. Denis, Kevin W. McConeghy, L. Clifford McDonald, John A. Jernigan, Eleftherios Mylonakis, Brigid M. Wilson, Christopher L. King, Alejandro B. Balazs, and Stefan Gravenstein

Subjects

Health (social science), Health Information Management, Epidemiology, Health, Toxicology and Mutagenesis, General Medicine

Published

2023

4. Immunogenicity and Reactogenicity of SARS-CoV-2 Vaccines in Patients With Cancer: The CANVAX Cohort Study

Author

Trenton Reinicke, Justin F. Gainor, Marissa N Bruno, Henning Willers, Erika Nakajima, Anand S. Dighe, Yi-Bin Chen, Vivek Naranbhai, Leyre Zubiri, Aleigha Lawless, Brittany Y Bertaux, Aditya Bardia, Kerry L. Reynolds, Rebecca R. Saff, Jocelyn R. Farmer, Kerri St. Denis, A. John Iafrate, Elizabeth Niehoff, Joan How, Mustafa Sakhi, Grace Kirkpatrick, Arthur Y. Kim, Wilfredo-Garcia Beltran, Alejandro B. Balazs, Alexander Gavralidis, Caroline Barabell, Monica A Jackson, C. Bowes, Lailoo A Perriello, Amir T. Fathi, Andrew M. Brunner, Evan C. Lam, Gabriela S. Hobbs, Grace Hambelton, Christian N Nambu, Kimberly G. Blumenthal, Julia Thierauf, Laura Spring, Elyssa Denault, Claire A. Pernat, Steven J. Isakoff, Ryan J. Sullivan, Cristhian J Berrios-Mairena, Jennifer L Peterson, Lindsey Mortensen, and Onosereme Ofoman

Subjects

Male, Cancer Research, medicine.medical_specialty, COVID-19 Vaccines, Neutralization, Cohort Studies, Neoplasms, Internal medicine, medicine, Humans, Prospective Studies, Prospective cohort study, Aged, Reactogenicity, biology, SARS-CoV-2, business.industry, Immunogenicity, Cancer, Middle Aged, medicine.disease, Titer, Oncology, biology.protein, Female, Antibody, business, Cohort study

Abstract

PURPOSE The immunogenicity and reactogenicity of SARS-CoV-2 vaccines in patients with cancer are poorly understood. METHODS We performed a prospective cohort study of adults with solid-organ or hematologic cancers to evaluate anti–SARS-CoV-2 immunoglobulin A/M/G spike antibodies, neutralization, and reactogenicity ≥ 7 days following two doses of mRNA-1273, BNT162b2, or one dose of Ad26.COV2.S. We analyzed responses by multivariate regression and included data from 1,638 healthy controls, previously reported, for comparison. RESULTS Between April and July 2021, we enrolled 1,001 patients; 762 were eligible for analysis (656 had neutralization measured). mRNA-1273 was the most immunogenic (log10 geometric mean concentration [GMC] 2.9, log10 geometric mean neutralization titer [GMT] 2.3), followed by BNT162b2 (GMC 2.4; GMT 1.9) and Ad26.COV2.S (GMC 1.5; GMT 1.4; P < .001). The proportion of low neutralization (< 20% of convalescent titers) among Ad26.COV2.S recipients was 69.9%. Prior COVID-19 infection (in 7.1% of the cohort) was associated with higher responses ( P < .001). Antibody titers and neutralization were quantitatively lower in patients with cancer than in comparable healthy controls, regardless of vaccine type ( P < .001). Receipt of chemotherapy in the prior year or current steroids were associated with lower antibody levels and immune checkpoint blockade with higher neutralization. Systemic reactogenicity varied by vaccine and correlated with immune responses ( P = .002 for concentration, P = .016 for neutralization). In 32 patients who received an additional vaccine dose, side effects were similar to prior doses, and 30 of 32 demonstrated increased antibody titers (GMC 1.05 before additional dose, 3.17 after dose). CONCLUSION Immune responses to SARS-CoV-2 vaccines are modestly impaired in patients with cancer. These data suggest utility of antibody testing to identify patients for whom additional vaccine doses may be effective and appropriate, although larger prospective studies are needed.

Published

2022

5. Heterogeneous immunogenicity of SARS-CoV-2 vaccines in cancer patients receiving radiotherapy

Author

John Iafrate, Florence K. Keane, C. Bowes, Justin F. Gainor, Vivek Naranbhai, Henning Willers, Kerri St. Denis, Alejandro B. Balazs, Evan C. Lam, Brittany Y Bertaux, and Melin J. Khandekar

Subjects

Oncology, medicine.medical_specialty, COVID-19 Vaccines, Short Communication, medicine.medical_treatment, Neutralization, Neoplasms, Internal medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Lung cancer, Prospective cohort study, BNT162 Vaccine, Radiotherapy, biology, SARS-CoV-2, business.industry, Immunogenicity, COVID-19, Cancer, Hematology, medicine.disease, Radiation therapy, Titer, mRNA vaccine, biology.protein, Antibody, business

Abstract

The immunogenicity of SARS-CoV-2 vaccines in cancer patients receiving radiotherapy is unknown. This prospective cohort study demonstrates that anti-SARS-CoV-2 spike antibody and neutralization titers are reduced in a subset of thoracic radiotherapy patients, possibly due to immunosuppressive conditions. Antibody testing may be useful to identify candidates for additional vaccine doses.

Published

2022

6. Reduced BNT162b2 Messenger RNA Vaccine Response in Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2)–Naive Nursing Home Residents

Author

Htin Aung, Dennis Wilk, Sarah D. Berry, Alejandro B. Balazs, Mike C. Payne, Evan C. Lam, Christopher L. King, Stefan Gravenstein, Brigid Wilson, Christopher F. Rowley, Kerri St. Denis, Cheryl M. Cameron, Lenore L. Carias, Oladayo A. Oyebanji, Debbie Keresztesy, David H. Canaday, and Mark J. Cameron

Subjects

Microbiology (medical), Geriatrics, Messenger RNA, medicine.medical_specialty, biology, business.industry, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), 030204 cardiovascular system & hematology, Neutralization, Vaccination, 03 medical and health sciences, Titer, 0302 clinical medicine, Infectious Diseases, Immunology, biology.protein, Medicine, 030212 general & internal medicine, Antibody, business, Nursing homes

Abstract

After BNT162b2 messenger RNA vaccination, antibody levels to spike, receptor-binding domain, and virus neutralization were examined in 149 nursing home residents and 110 healthcare worker controls. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)–naive nursing home residents’ median post–second vaccine dose antibody neutralization titers are one-quarter that of SARS-CoV-2–naive healthcare workers.

Published

2021

7. Diagnostic TR-FRET assays for detection of antibodies in patient samples

Author

Hong Yue, Radosław P. Nowak, Daan Overwijn, N. Connor Payne, Stephanie Fischinger, Caroline Atyeo, Evan C. Lam, Kerri St. Denis, Lauren K. Brais, Yoshinobu Konishi, Romanos Sklavenitis-Pistofidis, Lindsey R. Baden, Eric J. Nilles, Elizabeth W. Karlson, Xu G. Yu, Jonathan Z. Li, Ann E. Woolley, Irene M. Ghobrial, Jeffrey A. Meyerhardt, Alejandro B. Balazs, Galit Alter, Ralph Mazitschek, and Eric S. Fischer

Subjects

Genetics, Radiology, Nuclear Medicine and imaging, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Article, Computer Science Applications, Biotechnology

Abstract

Serological assays are important diagnostic tools for surveying exposure to the pathogen, monitoring immune response post vaccination, and managing spread of the infectious agent among the population. Current serological laboratory assays are often limited because they require the use of specialized laboratory technology and/or work with a limited number of sample types. Here, we evaluate an alternative by developing time-resolved Förster resonance energy transfer (TR-FRET) homogeneous assays that exhibited exceptional versatility, scalability, and sensitivity and outperformed or matched currently used strategies in terms of sensitivity, specificity, and precision. We validated the performance of the assays measuring total immunoglobulin G (IgG) levels; antibodies against severe acute respiratory syndrome coronavirus (SARS-CoV) or Middle Eastern respiratory syndrome (MERS)-CoV spike (S) protein; and SARS-CoV-2 S and nucleocapsid (N) proteins and applied it to several large sample sets and real-world applications. We further established a TR-FRET-based ACE2-S competition assay to assess the neutralization propensity of the antibodies. Overall, these TR-FRET-based serological assays can be rapidly extended to other antigens and are compatible with commonly used plate readers.

Published

2023

8. Significantly elevated antibody levels and neutralization titers in nursing home residents after SARS-CoV-2 BNT162b2 mRNA booster vaccination

Author

David H. Canaday, Oladayo A. Oyebanji, Elizabeth White, Debbie Keresztesy, Michael Payne, Dennis Wilk, Lenore Carias, Htin Aung, Kerri St. Denis, Maegan L. Sheehan, Sarah D. Berry, Cheryl M. Cameron, Mark J. Cameron, Brigid M. Wilson, Alejandro B. Balazs, Christopher L. King, and Stefan Gravenstein

Subjects

Vaccines, Synthetic, COVID-19 Vaccines, SARS-CoV-2, Immunization, Secondary, COVID-19, Humans, mRNA Vaccines, Middle Aged, Antibodies, Viral, Article, BNT162 Vaccine, Aged, Nursing Homes

Abstract

Nursing home (NH) residents have borne a disproportionate share of SARS-CoV-2 morbidity and mortality. Vaccines have limited hospitalisation and death from earlier variants in this vulnerable population. With the rise of Omicron and future variants, it is vital to sustain and broaden vaccine-induced protection. We examined the effect of boosting with BNT162b2 mRNA vaccine on humoral immunity and Omicron-specific neutralising activity among NH residents and healthcare workers (HCWs).We longitudinally enrolled 85 NH residents (median age 77) and 48 HCWs (median age 51), and sampled them after the initial vaccination series; and just before and 2 weeks after booster vaccination. Anti-spike, anti-receptor binding domain (RBD) and neutralisation titres to the original Wuhan strain and neutralisation to the Omicron strain were obtained.Booster vaccination significantly increased vaccine-specific anti-spike, anti-RBD, and neutralisation levels above the pre-booster levels in NH residents and HCWs, both in those with and without prior SARS-CoV-2 infection. Omicron-specific neutralisation activity was low after the initial 2 dose series with only 28% of NH residents' and 28% HCWs' titres above the assay's lower limit of detection. Omicron neutralising activity following the booster lifted 86% of NH residents and 93% of HCWs to the detectable range.With boosting, the vast majority of HCWs and NH residents developed detectable Omicron-specific neutralising activity. These data provide immunologic evidence that strongly supports booster vaccination to broaden neutralising activity and counter waning immunity in the hope it will better protect this vulnerable, high-risk population against the Omicron variant.NIH AI129709-03S1, U01 CA260539-01, CDC 200-2016-91773, and VA BX005507-01.

Published

2021

9. Neutralization breadth of SARS CoV-2 viral variants following primary series and booster SARS CoV-2 vaccines in patients with cancer

Author

Kerri St. Denis, Cristhian Berrios, Onosereme Ofoman, Justin F. Gainor, Alejandro B. Balazs, Vivek Naranbhai, Evan C. Lam, Wilfredo-Garcia Beltran, Atul K. Bhan, and A. John Iafrate

Subjects

Booster (rocketry), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Antibody titer, virus diseases, Alpha (ethology), Cancer, Booster dose, medicine.disease, complex mixtures, Virology, Neutralization, Vaccination, Medicine, business

Abstract

SummaryPatients with cancer are more likely to have impaired immune responses to SARS CoV-2 vaccines. We studied the breadth of responses against SARS CoV-2 variants followingly primary vaccination in 178 patients with a variety of tumor types, and after booster doses in a subset. Neutralization of alpha, beta, gamma and delta SARS-CoV-2 variants was impaired relative to wildtype (Wuhan), regardless of vaccine type. Regardless of viral variant, mRNA1273 was the most immunogenic, followed by BNT162b2 and then Ad26.COV2.S. Neutralization of more variants (breadth) was associated with higher magnitude of wildtype neutralization, and increase with time since vaccination; increased age associated with lower breadth. Anti-spike binding antibody concentrations were a good surrogate for breadth (PPV=90% at >1000U/ml). Booster SARS-CoV-2 vaccines conferred enhanced breadth. These data suggest that achieving a high antibody titer is desirable to achieve broad neutralization; a single booster dose with current vaccines increases breadth of responses against variants.

Published

2021

10. Significant Reduction in Vaccine-Induced Antibody Levels and Neutralization Activity Among Healthcare Workers and Nursing Home Residents 6 Months Following Coronavirus Disease 2019 BNT162b2 mRNA Vaccination

Author

David H Canaday, Oladayo A Oyebanji, Debbie Keresztesy, Michael Payne, Dennis Wilk, Lenore Carias, Htin Aung, Kerri St. Denis, Evan C Lam, Christopher F Rowley, Sarah D Berry, Cheryl M Cameron, Mark J Cameron, Brigid M Wilson, Alejandro B Balazs, Christopher L King, and Stefan Gravenstein

Subjects

Microbiology (medical), Infectious Diseases, Influenza Vaccines, Health Personnel, Vaccination, COVID-19, Humans, RNA, Messenger, Antibodies, Viral, Antibodies, Neutralizing, BNT162 Vaccine, Nursing Homes

Abstract

Antibody decline occurred from 2 weeks to 6 months post-BNT162b2 mRNA vaccination in nursing home (NH) residents and healthcare workers. Antispike, receptor-binding domain, and neutralization levels dropped >81% irrespective of prior infection. Notably, 69% of infection-naive NH residents had neutralizing antibodies at or below the assay’s limit of detection.

Published

2021

11. Significant reduction in humoral immunity among healthcare workers and nursing home residents 6 months after COVID-19 BNT162b2 mRNA vaccination

Author

Oladayo A. Oyebanji, Htin Aung, Christopher L. King, Mike C. Payne, Kerri St. Denis, Lenore Caris, Sarah Berry, Mark J. Cameron, Christopher F. Rowley, David H. Canaday, Dennis Wilk, Alejandro B. Balazs, Evan C. Lam, Stefan Gravenstein, Brigid Wilson, Debbie Keresztesy, and Cheryl M. Cameron

Subjects

medicine.medical_specialty, Emergency Use Authorization, biology, business.industry, Outbreak, Neutralization, Vaccination, Immunity, Internal medicine, Humoral immunity, Ambulatory, medicine, biology.protein, Antibody, business

Abstract

High COVID-19 mortality among nursing home (NH) residents led to their prioritization for SARS-CoV-2 vaccination; most NH residents received BNT162b2 mRNA vaccination under the Emergency Use Authorization due to first to market and its availability. With NH residents’ poor initial vaccine response, the rise of NH breakthrough infections and outbreaks, characterization of the durability of immunity to inform public health policy on the need for boosting is needed. We report on humoral immunity from 2 weeks to 6-months post-vaccination in 120 NH residents and 92 ambulatory healthcare worker controls with and without pre-vaccination SARS-CoV-2 infection. Anti-spike and anti-receptor binding domain (RBD) IgG, and serum neutralization titers, were assessed using a bead-based ELISA method and pseudovirus neutralization assay. Anti-spike, anti-RBD and neutralization levels dropped more than 84% over 6 months’ time in all groups irrespective of prior SARS-CoV-2 infection. At 6 months post-vaccine, 70% of the infection-naive NH residents had neutralization titers at or below the lower limit of detection compared to 16% at 2 weeks after full vaccination. These data demonstrate a significant reduction in levels of antibody in all groups. In particular, those infection-naive NH residents had lower initial post-vaccination humoral immunity immediately and exhibited the greatest declines 6 months later. Healthcare workers, given their younger age and relative good-health, achieved higher initial antibody levels and better maintained them, yet also experienced significant declines in humoral immunity. Based on the rapid spread of the delta variant and reports of vaccine breakthrough in NH and among younger community populations, boosting NH residents may be warranted.

Published

2021

12. Does a lack of vaccine side effects correlate with reduced BNT162b2 mRNA vaccine response among healthcare workers and nursing home residents?

Author

Htin Aung, Sarah D. Berry, David H. Canaday, Stefan Gravenstein, Dennis Wilk, Cheryl M. Cameron, Alejandro B. Balazs, Kenneth E. Schmader, Oladayo A. Oyebanji, Christopher L. King, Evan C. Lam, Brigid Wilson, Kerri St. Denis, Mark J. Cameron, Christopher F. Rowley, Debbie Keresztesy, Mike C. Payne, and Lenore L. Carias

Subjects

Aging, medicine.medical_specialty, COVID-19 Vaccines, Vaccine response, Health Personnel, Population, Internal medicine, Health care, Medicine, Humans, RNA, Messenger, education, BNT162 Vaccine, Reactogenicity, education.field_of_study, Vaccines, business.industry, SARS-CoV-2, Immunogenicity, Vaccination, Antibody titer, COVID-19, Nursing Homes, Original Article, Geriatrics and Gerontology, business, Nursing homes

Abstract

Background The BNT162b2 SARS-CoV-2 mRNA vaccination has mitigated the burden of COVID-19 among residents of long-term care facilities considerably, despite being excluded from the vaccine trials. Data on reactogenicity (vaccine side effects) in this population are limited. Aims To assess reactogenicity among nursing home (NH) residents. To provide a plausible proxy for predicting vaccine response among this population. Methods We enrolled and sampled NH residents and community-dwelling healthcare workers who received the BNT162b2 mRNA vaccine, to assess local or systemic reactogenicity and antibody levels (immunogenicity). Results NH residents reported reactions at a much lower frequency and lesser severity than the community-dwelling healthcare workers. These reactions were mild and transient with all subjects experiencing more local than systemic reactions. Based on our reactogenicity and immunogenicity data, we developed a linear regression model predicting log-transformed anti-spike, anti-receptor-binding domain (RBD), and neutralizing titers, with a dichotomous variable indicating the presence or absence of reported reactions which revealed a statistically significant effect, with estimated shifts in log-transformed titers ranging from 0.32 to 0.37 (all p Discussion With a significantly lower incidence of post-vaccination reactions among NH residents as reported in this study, the BNT162b2 mRNA vaccine appears to be well-tolerated among this vulnerable population. If validated in larger populations, absence of reactogenicity could help guide clinicians in prioritizing vaccine boosters. Conclusions Reactogenicity is significantly mild among nursing home residents and overall, subjects who reported post-vaccination reactions developed higher antibody titers.

Published

2021

13. Comparative immunogenicity and effectiveness of mRNA-1273, BNT162b2 and Ad26.COV2.S COVID-19 vaccines

Author

Jennifer E Cahill, Wilfredo F. Garcia-Beltran, Ju Cheng, Diane Yang, Mark C. Poznansky, Clarety Kaseke, Vivek Naranbhai, Gaurav D. Gaiha, Anthony J. Iafrate, Julia Thierauf, Alejandro B. Balazs, Evan C. Lam, Michael G Astudillo, Wendy Yang, Maia N. Pavlovic, Anand S. Dighe, Maristela L. Onozato, Rhoda Tano-Menka, Kerri St. Denis, Christina C. Chang, Grace Kirkpatrick, Christhian Berrios Mairena, Tyler E. Miller, Alexander Kui, and David Gregory

Subjects

Adult, COVID-19 Vaccines, Ad26.COV2.S, Population level, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), breakthrough infection, SARS CoV-2, effectiveness, Article, Neutralization, mRNA-1273, Immunogenicity, Vaccine, death, Major Article, Humans, Immunology and Allergy, Medicine, Cytotoxic T cell, BNT162 Vaccine, Vaccines, Synthetic, Ad26COVS1, biology, SARS-CoV-2, business.industry, T-cells, Immunogenicity, COVID-19, neutralization, Titer, AcademicSubjects/MED00290, Infectious Diseases, Immunology, biology.protein, BNT162b2, mRNA Vaccines, Antibody, business, 2019-nCoV Vaccine mRNA-1273, hospitalization

Abstract

Background Understanding immunogenicity and effectiveness of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccines is critical to guide rational use. Methods We compared the immunogenicity of mRNA-1273, BNT-162b2, and Ad26.COV2.S in healthy ambulatory adults. We performed an inverse-variance meta-analysis of population-level effectiveness from public health reports in > 40 million individuals. Results A single dose of either mRNA vaccine yielded comparable antibody and neutralization titers to convalescent individuals. Ad26.COV2.S yielded lower antibody concentrations and frequently undetectable neutralization titers. Bulk and cytotoxic T-cell responses were higher in mRNA1273 and BNT162b2 than Ad26.COV2.S recipients. Regardless of vaccine, Conclusions Variation in the immunogenicity correlates with variable effectiveness of the 3 vaccines deployed in the United States.

Published

2021

14. Reduced BNT162b2 mRNA vaccine response in SARS-CoV-2-naive nursing home residents

Author

Stefan Gravenstein, Lenore L. Carias, Alejandro B. Balazs, Oladayo A. Oyebanji, Christopher F. Rowley, Evan C. Lam, Brigid Wilson, Mike C. Payne, Kerri St. Denis, Debbie Keresztesy, Mark J. Cameron, David H. Canaday, Dennis Wilk, Christopher L. King, Sarah D. Berry, Cheryl M. Cameron, and Htin Aung

Subjects

COVID-19 Vaccines, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Article, Neutralization, vaccine, Pandemic, Humans, Infection control, Medicine, RNA, Messenger, BNT162 Vaccine, Vaccines, Synthetic, geriatrics, SARS-CoV-2, business.industry, Brief Report, COVID-19, Outbreak, Nursing Homes, Vaccination, Titer, AcademicSubjects/MED00290, Immunology, Nursing homes, business

Abstract

The SARS-CoV-2 pandemic impact on nursing home (NH) residents prompted their prioritization for early vaccination. To fill the data gap for vaccine immunogenicity in NH residents, we examined antibody levels after BNT162b2 mRNA vaccine to spike, receptor binding domain (RBD) and for virus neutralization in 149 NH residents and 111 health care worker controls. SARS-CoV-2-naive NH residents mount antibody responses with nearly 4-fold lower median neutralization titers and half the anti-spike level compared to SARS-CoV-2-naive healthcare workers. By contrast, SARS-CoV-2-recovered vaccinated NH residents had neutralization, anti-spike and anti-RBD titers similar to SARS-CoV-2-recovered vaccinated healthcare workers. NH residents’ blunted antibody responses have important implications regarding the quality and durability of protection afforded by neoantigen vaccines. We urgently need better longitudinal evidence on vaccine effectiveness specific to NH resident populations to inform best practices for NH infection control measures, outbreak prevention and potential indication for a vaccine boost.

Published

2021

15. Rationally designed immunogens enable immune focusing to the SARS-CoV-2 receptor binding motif

Author

Alejandro B. Balazs, Evan C. Lam, Daniel Lingwood, Blake M. Hauser, Ian W. Windsor, Maya Sangesland, Aaron G. Schmidt, Jared Feldman, Ty Kannegieter, and Kerri St. Denis

Subjects

chemistry.chemical_classification, Mice, Inbred BALB C, Glycan, Immunogen, SARS-CoV-2, viruses, COVID-19, Context (language use), Computational biology, Biology, Article, Epitope, Mice, Immune system, Viral Envelope Proteins, chemistry, Viral entry, Spike Glycoprotein, Coronavirus, biology.protein, Animals, Antibody, Glycoprotein

Abstract

Eliciting antibodies to surface-exposed viral glycoproteins can lead to protective responses that ultimately control and prevent future infections. Targeting functionally conserved epitopes may help reduce the likelihood of viral escape and aid in preventing the spread of related viruses with pandemic potential. One such functionally conserved viral epitope is the site to which a receptor must bind to facilitate viral entry. Here, we leveraged rational immunogen design strategies to focus humoral responses to the receptor binding motif (RBM) on the SARS-CoV-2 spike. Using glycan engineering and epitope scaffolding, we find an improved targeting of the serum response to the RBM in context of SARS-CoV-2 spike imprinting. Furthermore, we observed a robust SARS-CoV-2-neutralizing serum response with increased potency against related sarbecoviruses, SARS-CoV, WIV1-CoV, RaTG13-CoV, and SHC014-CoV. Thus, RBM focusing is a promising strategy to elicit breadth across emerging sarbecoviruses and represents an adaptable design approach for targeting conserved epitopes on other viral glycoproteins.One Sentence SummarySARS-CoV-2 immune focusing with engineered immunogens

Published

2021

16. Multiple SARS-CoV-2 variants escape neutralization by vaccine-induced humoral immunity

Author

Kerri St. Denis, Jared Feldman, A. John Iafrate, Zeidy H. Garcia, David Gregory, Aaron G. Schmidt, Blake M. Hauser, Alex Sigal, Mark C. Poznansky, Wilfredo F. Garcia-Beltran, Vivek Naranbhai, Adam Nitido, Maia N. Pavlovic, Alejandro B. Balazs, and Evan C. Lam

Subjects

COVID-19 Vaccines, Letter, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Cell, Antibodies, Viral, medicine.disease_cause, Article, General Biochemistry, Genetics and Molecular Biology, Neutralization, RBD, Immune system, Pandemic, medicine, Humans, Potency, neutralizing antibodies, BNT162 Vaccine, variants, Mutation, biology, SARS-CoV-2, HEK 293 cells, COVID-19, Correction, spike, Antibodies, Neutralizing, Virology, Immunity, Humoral, Vaccination, mRNA vaccines, medicine.anatomical_structure, HEK293 Cells, ROC Curve, Humoral immunity, biology.protein, Infectious diseases, escape, Antibody

Abstract

Vaccination elicits immune responses capable of potently neutralizing SARS-CoV-2. However, ongoing surveillance has revealed the emergence of variants harboring mutations in spike, the main target of neutralizing antibodies. To understand the impact of these variants, we evaluated the neutralization potency of 99 individuals that received one or two doses of either BNT162b2 or mRNA-1273 vaccines against pseudoviruses representing 10 globally circulating strains of SARS-CoV-2. Five of the 10 pseudoviruses, harboring receptor-binding domain mutations, including K417N/T, E484K, and N501Y, were highly resistant to neutralization. Cross-neutralization of B.1.351 variants was comparable to SARS-CoV and bat-derived WIV1-CoV, suggesting that a relatively small number of mutations can mediate potent escape from vaccine responses. While the clinical impact of neutralization resistance remains uncertain, these results highlight the potential for variants to escape from neutralizing humoral immunity and emphasize the need to develop broadly protective interventions against the evolving pandemic., Graphical abstract, Analyses of sera from individuals vaccinated with one or two doses of mRNA vaccines against 10 circulating variants of SARS-CoV-2 show that P.1 and B.1.351 in particular exhibit limited neutralization by vaccine-induced humoral immunity. This escape was found to be largely mediated by mutations in the receptor-binding domain of SARS-CoV-2 spike.

Published

2021

17. Naive human B cells engage the receptor binding domain of SARS-CoV-2, variants of concern, and related sarbecoviruses

Author

Aaron G. Schmidt, Larance Ronsard, Maya Sangesland, Clara G. Altomare, Nathania Hartojo, Daniel Lingwood, Vintus Okonkwo, Goran Bajic, Julia Bals, Alejandro B. Balazs, Thalia Bracamonte Moreno, Evan C. Lam, Kerri St. Denis, Jared Feldman, and Blake M. Hauser

Subjects

2019-20 coronavirus outbreak, COVID-19 Vaccines, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), coronaviruses, Immunology, Naive B cell, macromolecular substances, Complementarity determining region, Biology, Lymphocyte Activation, Article, Germline, Epitopes, medicine, Humans, Pathogen, Antigens, Viral, Gene, B cell, B cells, B-Lymphocytes, SARS-CoV-2, Repertoire, COVID-19, General Medicine, Acquired immune system, immunity, Antibodies, Neutralizing, Virology, Coronavirus, medicine.anatomical_structure, Spike Glycoprotein, Coronavirus, biology.protein, Antibody, germline precursors

Abstract

Initial exposure to a pathogen elicits an adaptive immune response to control and eradicate the threat. Interrogating the abundance and specificity of the naive B cell repertoire drives understanding of how to mount protective responses. Here, we isolated naive B cells from eight seronegative human donors targeting the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) receptor binding domain (RBD). Single-cell B cell receptor (BCR) sequencing identified diverse gene usage and no restriction on complementarity determining region length. A subset of recombinant antibodies produced by naive B cell precursors bound to SARS-CoV-2 RBD and engaged circulating variants including B.1.1.7, B.1.351, and B.1.617.2, as well as preemergent bat-derived coronaviruses RaTG13, SHC104, and WIV1. By structural characterization of a naive antibody in complex with SARS-CoV-2 spike, we identified a conserved mode of recognition shared with infection-induced antibodies. We found that representative naive antibodies could signal in a B cell activation assay, and by using directed evolution, we could select for a higher-affinity RBD interaction, conferred by a single amino acid change. The minimally mutated, affinity-matured antibodies also potently neutralized SARS-CoV-2. Understanding the SARS-CoV-2 RBD–specific naive repertoire may inform potential responses capable of recognizing future SARS-CoV-2 variants or emerging coronaviruses, enabling the development of pan-coronavirus vaccines aimed at engaging protective germline responses.

Published

2021

18. Engineered receptor binding domain immunogens elicit pan-sarbecovirus neutralizing antibodies outside the receptor binding motif

Author

Daniel Lingwood, Alejandro B. Balazs, Evan C. Lam, Blake M. Hauser, Maya Sangesland, Jared Feldman, Ashraf S. Yousif, Kerri St. Denis, Ty Kannegieter, Timothy M. Caradonna, and Aaron G. Schmidt

Subjects

education.field_of_study, biology, viruses, Population, Context (language use), medicine.disease_cause, Virology, Article, Epitope, Immunization, Immunity, medicine, biology.protein, Antibody, education, Neutralizing antibody, Coronavirus

Abstract

Effective countermeasures are needed against emerging coronaviruses of pandemic potential, similar to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Designing immunogens that elicit broadly neutralizing antibodies to conserved viral epitopes on the major surface glycoprotein, spike, such as the receptor binding domain (RBD) is one potential approach. Here, we report the generation of homotrimeric RBD immunogens from different sarbecoviruses using a stabilized, immune-silent trimerization tag. In mice, we find that a cocktail of these homotrimeric sarbecovirus RBDs elicits antibodies to conserved viral epitopes outside of the ACE2 receptor binding motif (RBM). Importantly, these responses neutralize all sarbecovirus components even in context of prior SARS-CoV-2 imprinting. We further show that a substantial fraction of the neutralizing antibodies elicited after vaccination in humans also engages non-RBM epitopes on the RBD. Collectively, our results suggest a strategy for eliciting broadly neutralizing responses leading to a pan-sarbecovirus vaccine.Author summaryImmunity to SARS-CoV-2 in the human population will be widespread due to natural infection and vaccination. However, another novel coronavirus will likely emerge in the future and may cause a subsequent pandemic. Humoral responses induced by SARS-CoV-2 infection and vaccination provide limited protection against even closely related coronaviruses. We show immunization with a cocktail of trimeric coronavirus receptor binding domains induces a neutralizing antibody response that is broadened to related coronaviruses with pandemic potential. Importantly, this broadening occurs in context of an initial imprinted SARS-CoV-2 spike immunization showing that preexisting immunity can be expanded to recognize other related coronaviruses. Our immunogens focused the serum antibody response to conserved epitopes on the receptor binding domain outside of the ACE2 receptor binding motif; this contrasts with current SARS-CoV-2 therapeutic antibodies, which predominantly target the receptor binding motif.

Published

2020