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1.
Maturation of SARS-CoV-2 Spike-specific memory B cells drives resilience to viral escape.
Marzi, Roberta; Bassi, Jessica; Silacci-Fregni, Chiara; Bartha, Istvan; Muoio, Francesco; Culap, Katja; Sprugasci, Nicole; Lombardo, Gloria; Saliba, Christian; Cameroni, Elisabetta; Cassotta, Antonino; Low, Jun Siong; Walls, Alexandra C; McCallum, Matthew; Tortorici, M Alejandra; Bowen, John E; Dellota, Exequiel A; Dillen, Josh R; Czudnochowski, Nadine; Pertusini, Laura; Terrot, Tatiana; Lepori, Valentino; Tarkowski, Maciej; Riva, Agostino; Biggiogero, Maira; Franzetti-Pellanda, Alessandra; Garzoni, Christian; Ferrari, Paolo; Ceschi, Alessandro; Giannini, Olivier; Havenar-Daughton, Colin; Telenti, Amalio; Arvin, Ann; Virgin, Herbert W; Sallusto, Federica; Veesler, David; Lanzavecchia, Antonio; Corti, Davide; Piccoli, Luca.
iScience ; 26(1): 105726, 2023 Jan 20.
Article in English | MEDLINE | ID: mdl-36507220

ABSTRACT

Memory B cells (MBCs) generate rapid antibody responses upon secondary encounter with a pathogen. Here, we investigated the kinetics, avidity, and cross-reactivity of serum antibodies and MBCs in 155 SARS-CoV-2 infected and vaccinated individuals over a 16-month time frame. SARS-CoV-2-specific MBCs and serum antibodies reached steady-state titers with comparable kinetics in infected and vaccinated individuals. Whereas MBCs of infected individuals targeted both prefusion and postfusion Spike (S), most vaccine-elicited MBCs were specific for prefusion S, consistent with the use of prefusion-stabilized S in mRNA vaccines. Furthermore, a large fraction of MBCs recognizing postfusion S cross-reacted with human betacoronaviruses. The avidity of MBC-derived and serum antibodies increased over time resulting in enhanced resilience to viral escape by SARS-CoV-2 variants, including Omicron BA.1 and BA.2 sublineages, albeit only partially for BA.4 and BA.5 sublineages. Overall, the maturation of high-affinity and broadly reactive MBCs provides the basis for effective recall responses to future SARS-CoV-2 variants.

2.
Maturation of SARS-CoV-2 Spike-specific memory B cells drives resilience to viral escape.
Marzi, Roberta; Bassi, Jessica; Silacci-Fregni, Chiara; Bartha, Istvan; Muoio, Francesco; Culap, Katja; Sprugasci, Nicole; Lombardo, Gloria; Saliba, Christian; Cameroni, Elisabetta; Cassotta, Antonino; Low, Jun Siong; Walls, Alexandra C; McCallum, Matthew; Tortorici, M Alejandra; Bowen, John E; Dellota, Exequiel A; Dillen, Josh R; Czudnochowski, Nadine; Pertusini, Laura; Terrot, Tatiana; Lepori, Valentino; Tarkowski, Maciej; Riva, Agostino; Biggiogero, Maira; Pellanda, Alessandra Franzetti; Garzoni, Christian; Ferrari, Paolo; Ceschi, Alessandro; Giannini, Olivier; Havenar-Daughton, Colin; Telenti, Amalio; Arvin, Ann; Virgin, Herbert W; Sallusto, Federica; Veesler, David; Lanzavecchia, Antonio; Corti, Davide; Piccoli, Luca.
bioRxiv ; 2022 Sep 30.
Article in English | MEDLINE | ID: mdl-36203553

ABSTRACT

Memory B cells (MBCs) generate rapid antibody responses upon secondary encounter with a pathogen. Here, we investigated the kinetics, avidity and cross-reactivity of serum antibodies and MBCs in 155 SARS-CoV-2 infected and vaccinated individuals over a 16-month timeframe. SARS-CoV-2-specific MBCs and serum antibodies reached steady-state titers with comparable kinetics in infected and vaccinated individuals. Whereas MBCs of infected individuals targeted both pre- and postfusion Spike (S), most vaccine-elicited MBCs were specific for prefusion S, consistent with the use of prefusion-stabilized S in mRNA vaccines. Furthermore, a large fraction of MBCs recognizing postfusion S cross-reacted with human betacoronaviruses. The avidity of MBC-derived and serum antibodies increased over time resulting in enhanced resilience to viral escape by SARS-CoV-2 variants, including Omicron BA.1 and BA.2 sub-lineages, albeit only partially for BA.4 and BA.5 sublineages. Overall, the maturation of high-affinity and broadly-reactive MBCs provides the basis for effective recall responses to future SARS-CoV-2 variants.

3.
Mapping Neutralizing and Immunodominant Sites on the SARS-CoV-2 Spike Receptor-Binding Domain by Structure-Guided High-Resolution Serology.
Piccoli, Luca; Park, Young-Jun; Tortorici, M Alejandra; Czudnochowski, Nadine; Walls, Alexandra C; Beltramello, Martina; Silacci-Fregni, Chiara; Pinto, Dora; Rosen, Laura E; Bowen, John E; Acton, Oliver J; Jaconi, Stefano; Guarino, Barbara; Minola, Andrea; Zatta, Fabrizia; Sprugasci, Nicole; Bassi, Jessica; Peter, Alessia; De Marco, Anna; Nix, Jay C; Mele, Federico; Jovic, Sandra; Rodriguez, Blanca Fernandez; Gupta, Sneha V; Jin, Feng; Piumatti, Giovanni; Lo Presti, Giorgia; Pellanda, Alessandra Franzetti; Biggiogero, Maira; Tarkowski, Maciej; Pizzuto, Matteo S; Cameroni, Elisabetta; Havenar-Daughton, Colin; Smithey, Megan; Hong, David; Lepori, Valentino; Albanese, Emiliano; Ceschi, Alessandro; Bernasconi, Enos; Elzi, Luigia; Ferrari, Paolo; Garzoni, Christian; Riva, Agostino; Snell, Gyorgy; Sallusto, Federica; Fink, Katja; Virgin, Herbert W; Lanzavecchia, Antonio; Corti, Davide; Veesler, David.
Cell ; 183(4): 1024-1042.e21, 2020 11 12.
Article in English | MEDLINE | ID: mdl-32991844

ABSTRACT

Analysis of the specificity and kinetics of neutralizing antibodies (nAbs) elicited by SARS-CoV-2 infection is crucial for understanding immune protection and identifying targets for vaccine design. In a cohort of 647 SARS-CoV-2-infected subjects, we found that both the magnitude of Ab responses to SARS-CoV-2 spike (S) and nucleoprotein and nAb titers correlate with clinical scores. The receptor-binding domain (RBD) is immunodominant and the target of 90% of the neutralizing activity present in SARS-CoV-2 immune sera. Whereas overall RBD-specific serum IgG titers waned with a half-life of 49 days, nAb titers and avidity increased over time for some individuals, consistent with affinity maturation. We structurally defined an RBD antigenic map and serologically quantified serum Abs specific for distinct RBD epitopes leading to the identification of two major receptor-binding motif antigenic sites. Our results explain the immunodominance of the receptor-binding motif and will guide the design of COVID-19 vaccines and therapeutics.


Subject(s)
Antibodies, Neutralizing/immunology , Epitope Mapping/methods , Spike Glycoprotein, Coronavirus/immunology , Angiotensin-Converting Enzyme 2 , Antibodies, Monoclonal/chemistry , Antibodies, Monoclonal/genetics , Antibodies, Monoclonal/immunology , Antibodies, Neutralizing/blood , Antibodies, Neutralizing/chemistry , Antibodies, Viral/blood , Antibodies, Viral/chemistry , Antibodies, Viral/immunology , Antigen-Antibody Reactions , Betacoronavirus/immunology , Betacoronavirus/isolation & purification , Betacoronavirus/metabolism , Binding Sites , COVID-19 , Coronavirus Infections/pathology , Coronavirus Infections/virology , Epitopes/chemistry , Epitopes/immunology , Humans , Immunoglobulin A/blood , Immunoglobulin A/immunology , Immunoglobulin G/blood , Immunoglobulin G/immunology , Immunoglobulin M/blood , Immunoglobulin M/immunology , Kinetics , Molecular Dynamics Simulation , Pandemics , Peptidyl-Dipeptidase A/chemistry , Peptidyl-Dipeptidase A/metabolism , Pneumonia, Viral/pathology , Pneumonia, Viral/virology , Protein Binding , Protein Domains/immunology , Protein Structure, Quaternary , SARS-CoV-2 , Spike Glycoprotein, Coronavirus/chemistry , Spike Glycoprotein, Coronavirus/genetics , Spike Glycoprotein, Coronavirus/metabolism
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