Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth

Oliver F. Wirz; Prasanti Kotagiri; Emily Haraguchi; Katharina Röltgen; Molly Hunter; Erin Craig; Jumana Afaghani; Ji Yeun Lee; Sandra C.A. Nielsen; Ramona A. Hoh; Taylor Pursell; Prabhu S. Arunachalam; Monali Manohar; Iris Chang; Jackson P. Schuetz; Brandon Lam; Andrea Fernandes; Evan Do; Donna Smith; Brian Ha; Linda Liao; Javaria Najeeb; Ana R. Otrelo-Cardoso; Chandler Ho; Jacob N. Wohlstadter; George B. Sigal; Theodore S. Jardetzky; Stuart A. Scott; Sean Van Slyck; Mark M. Davis; Bali Pulendran; Jeremy Minshull; Benjamin A. Pinsky; Kari C. Nadeau; Claus U. Niemann; Fan Yang; Scott D. Boyd

doi:10.1016/j.immuni.2026.03.006

Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth

Oliver F. Wirz
, Prasanti Kotagiri
, Emily Haraguchi
, Katharina Röltgen
, Molly Hunter
, Erin Craig
, Jumana Afaghani
, Ji Yeun Lee
, Sandra C.A. Nielsen
, Ramona A. Hoh
, Taylor Pursell
, Prabhu S. Arunachalam
, Monali Manohar
, Iris Chang
, Jackson P. Schuetz
, Brandon Lam
, Andrea Fernandes
, Evan Do
, Donna Smith
, Brian Ha

Linda Liao, Javaria Najeeb, Ana R. Otrelo-Cardoso, Chandler Ho, Jacob N. Wohlstadter, George B. Sigal, Theodore S. Jardetzky, Stuart A. Scott, Sean Van Slyck, Mark M. Davis, Bali Pulendran, Jeremy Minshull, Benjamin A. Pinsky, Kari C. Nadeau, Claus U. Niemann, Fan Yang, Scott D. Boyd

Research output: Contribution to journal › Article › peer-review

Abstract

The cellular, immunogenetic, and antigenic factors affecting the breadth of viral antigen variants recognized by human antibody responses are poorly defined. We developed highly multiplexed panels of DNA-tagged SARS-CoV-2 antigens from up to 20 viral variants to label and sort 6,262 antigen-binding circulating B cells from previously naive mRNA vaccinees or infected patients, and from deceased organ donor lymphoid tissues, to enable antigen receptor and transcriptome sequencing. Atypical B cells and a subset of class-switched memory cells with evidence of recent germinal center exposure were enriched for antigen binding. In contrast to atypical B cells, post-germinal center B cells showed progressively increasing variant binding breadth and somatic hypermutation over time. Vaccination, compared with infection, preferentially stimulated B cells expressing antibodies with inherently high antigen-binding breadth. This large-scale analysis reveals key determinants of antigen-binding breadth, critical for understanding responses to viral infection and guiding vaccine development against rapidly mutating viruses.

Original language	English
Pages (from-to)	1438-1453
Number of pages	16
Journal	Immunity
Volume	59
Issue number	5
DOIs	https://doi.org/10.1016/j.immuni.2026.03.006
State	Published - 12 May 2026
Externally published	Yes

Keywords

antibody
antigen-specific B cell
atypical B cell
B cell
B cell receptor
COVID-19
infection
mRNA vaccination
SARS-CoV-2
single-cell transcriptome
viral variants

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10.1016/j.immuni.2026.03.006

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Wirz, O. F., Kotagiri, P., Haraguchi, E., Röltgen, K., Hunter, M., Craig, E., Afaghani, J., Lee, J. Y., Nielsen, S. C. A., Hoh, R. A., Pursell, T., Arunachalam, P. S., Manohar, M., Chang, I., Schuetz, J. P., Lam, B., Fernandes, A., Do, E., Smith, D., ... Boyd, S. D. (2026). Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth. Immunity, 59(5), 1438-1453. https://doi.org/10.1016/j.immuni.2026.03.006

@article{5693502a80c04a4eb2de19efacd5f643,

title = "Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth",

abstract = "The cellular, immunogenetic, and antigenic factors affecting the breadth of viral antigen variants recognized by human antibody responses are poorly defined. We developed highly multiplexed panels of DNA-tagged SARS-CoV-2 antigens from up to 20 viral variants to label and sort 6,262 antigen-binding circulating B cells from previously naive mRNA vaccinees or infected patients, and from deceased organ donor lymphoid tissues, to enable antigen receptor and transcriptome sequencing. Atypical B cells and a subset of class-switched memory cells with evidence of recent germinal center exposure were enriched for antigen binding. In contrast to atypical B cells, post-germinal center B cells showed progressively increasing variant binding breadth and somatic hypermutation over time. Vaccination, compared with infection, preferentially stimulated B cells expressing antibodies with inherently high antigen-binding breadth. This large-scale analysis reveals key determinants of antigen-binding breadth, critical for understanding responses to viral infection and guiding vaccine development against rapidly mutating viruses.",

keywords = "antibody, antigen-specific B cell, atypical B cell, B cell, B cell receptor, COVID-19, infection, mRNA vaccination, SARS-CoV-2, single-cell transcriptome, viral variants",

author = "Wirz, \{Oliver F.\} and Prasanti Kotagiri and Emily Haraguchi and Katharina R{\"o}ltgen and Molly Hunter and Erin Craig and Jumana Afaghani and Lee, \{Ji Yeun\} and Nielsen, \{Sandra C.A.\} and Hoh, \{Ramona A.\} and Taylor Pursell and Arunachalam, \{Prabhu S.\} and Monali Manohar and Iris Chang and Schuetz, \{Jackson P.\} and Brandon Lam and Andrea Fernandes and Evan Do and Donna Smith and Brian Ha and Linda Liao and Javaria Najeeb and Otrelo-Cardoso, \{Ana R.\} and Chandler Ho and Wohlstadter, \{Jacob N.\} and Sigal, \{George B.\} and Jardetzky, \{Theodore S.\} and Scott, \{Stuart A.\} and \{Van Slyck\}, Sean and Davis, \{Mark M.\} and Bali Pulendran and Jeremy Minshull and Pinsky, \{Benjamin A.\} and Nadeau, \{Kari C.\} and Niemann, \{Claus U.\} and Fan Yang and Boyd, \{Scott D.\}",

year = "2026",

month = may,

day = "12",

doi = "10.1016/j.immuni.2026.03.006",

language = "English",

volume = "59",

pages = "1438--1453",

journal = "Immunity",

issn = "1074-7613",

publisher = "Cell Press",

number = "5",

}

Wirz, OF, Kotagiri, P, Haraguchi, E, Röltgen, K, Hunter, M, Craig, E, Afaghani, J, Lee, JY, Nielsen, SCA, Hoh, RA, Pursell, T, Arunachalam, PS, Manohar, M, Chang, I, Schuetz, JP, Lam, B, Fernandes, A, Do, E, Smith, D, Ha, B, Liao, L, Najeeb, J, Otrelo-Cardoso, AR, Ho, C, Wohlstadter, JN, Sigal, GB, Jardetzky, TS, Scott, SA, Van Slyck, S, Davis, MM, Pulendran, B, Minshull, J, Pinsky, BA, Nadeau, KC, Niemann, CU, Yang, F & Boyd, SD 2026, 'Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth', Immunity, vol. 59, no. 5, pp. 1438-1453. https://doi.org/10.1016/j.immuni.2026.03.006

TY - JOUR

T1 - Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth

AU - Wirz, Oliver F.

AU - Kotagiri, Prasanti

AU - Haraguchi, Emily

AU - Röltgen, Katharina

AU - Hunter, Molly

AU - Craig, Erin

AU - Afaghani, Jumana

AU - Lee, Ji Yeun

AU - Nielsen, Sandra C.A.

AU - Hoh, Ramona A.

AU - Pursell, Taylor

AU - Arunachalam, Prabhu S.

AU - Manohar, Monali

AU - Chang, Iris

AU - Schuetz, Jackson P.

AU - Lam, Brandon

AU - Fernandes, Andrea

AU - Do, Evan

AU - Smith, Donna

AU - Ha, Brian

AU - Liao, Linda

AU - Najeeb, Javaria

AU - Otrelo-Cardoso, Ana R.

AU - Ho, Chandler

AU - Wohlstadter, Jacob N.

AU - Sigal, George B.

AU - Jardetzky, Theodore S.

AU - Scott, Stuart A.

AU - Van Slyck, Sean

AU - Davis, Mark M.

AU - Pulendran, Bali

AU - Minshull, Jeremy

AU - Pinsky, Benjamin A.

AU - Nadeau, Kari C.

AU - Niemann, Claus U.

AU - Yang, Fan

AU - Boyd, Scott D.

PY - 2026/5/12

Y1 - 2026/5/12

N2 - The cellular, immunogenetic, and antigenic factors affecting the breadth of viral antigen variants recognized by human antibody responses are poorly defined. We developed highly multiplexed panels of DNA-tagged SARS-CoV-2 antigens from up to 20 viral variants to label and sort 6,262 antigen-binding circulating B cells from previously naive mRNA vaccinees or infected patients, and from deceased organ donor lymphoid tissues, to enable antigen receptor and transcriptome sequencing. Atypical B cells and a subset of class-switched memory cells with evidence of recent germinal center exposure were enriched for antigen binding. In contrast to atypical B cells, post-germinal center B cells showed progressively increasing variant binding breadth and somatic hypermutation over time. Vaccination, compared with infection, preferentially stimulated B cells expressing antibodies with inherently high antigen-binding breadth. This large-scale analysis reveals key determinants of antigen-binding breadth, critical for understanding responses to viral infection and guiding vaccine development against rapidly mutating viruses.

AB - The cellular, immunogenetic, and antigenic factors affecting the breadth of viral antigen variants recognized by human antibody responses are poorly defined. We developed highly multiplexed panels of DNA-tagged SARS-CoV-2 antigens from up to 20 viral variants to label and sort 6,262 antigen-binding circulating B cells from previously naive mRNA vaccinees or infected patients, and from deceased organ donor lymphoid tissues, to enable antigen receptor and transcriptome sequencing. Atypical B cells and a subset of class-switched memory cells with evidence of recent germinal center exposure were enriched for antigen binding. In contrast to atypical B cells, post-germinal center B cells showed progressively increasing variant binding breadth and somatic hypermutation over time. Vaccination, compared with infection, preferentially stimulated B cells expressing antibodies with inherently high antigen-binding breadth. This large-scale analysis reveals key determinants of antigen-binding breadth, critical for understanding responses to viral infection and guiding vaccine development against rapidly mutating viruses.

KW - antibody

KW - antigen-specific B cell

KW - atypical B cell

KW - B cell

KW - B cell receptor

KW - COVID-19

KW - infection

KW - mRNA vaccination

KW - SARS-CoV-2

KW - single-cell transcriptome

KW - viral variants

UR - https://www.scopus.com/pages/publications/105038819291

U2 - 10.1016/j.immuni.2026.03.006

DO - 10.1016/j.immuni.2026.03.006

M3 - Article

C2 - 41928519

AN - SCOPUS:105038819291

SN - 1074-7613

VL - 59

SP - 1438

EP - 1453

JO - Immunity

JF - Immunity

IS - 5

ER -

Multiplexed antigen panel analysis identifies B cell phenotype and receptor genetic contributions to antibody breadth

Abstract

Keywords

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