Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels

Thomas M. Snyder; Rachel M. Gittelman; Mark Klinger; Damon H. May; Edward J. Osborne; Ruth Taniguchi; H. Jabran Zahid; Ian M. Kaplan; Jennifer N. Dines; Matthew T. Noakes; Ravi Pandya; Xiaoyu Chen; Summer Elasady; Emily Svejnoha; Peter Ebert; Mitchell W. Pesesky; Patricia De Almeida; Hope O’Donnell; Quinn DeGottardi; Gladys Keitany; Jennifer Lu; Allen Vong; Rebecca Elyanow; Paul Fields; Hussein Al-Asadi; Julia Greissl; Lance Baldo; Simona Semprini; Claudio Cerchione; Fabio Nicolini; Massimiliano Mazza; Ottavia M. Delmonte; Kerry Dobbs; Rocio Laguna-Goya; Gonzalo Carreño-Tarragona; Santiago Barrio; Luisa Imberti; Alessandra Sottini; Eugenia Quiros-Roldan; Camillo Rossi; Andrea Biondi; Laura Rachele Bettini; Mariella D’Angio; Paolo Bonfanti; Miranda F. Tompkins; Camille Alba; Clifton Dalgard; Vittorio Sambri; Giovanni Martinelli; Jason D. Goldman; James R. Heath; Helen C. Su; Luigi D. Notarangelo; Estela Paz-Artal; Joaquin Martinez-Lopez; Bryan Howie; Jonathan M. Carlson; Harlan S. Robins

doi:10.3389/fimmu.2024.1488860

Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels

Thomas M. Snyder, Rachel M. Gittelman, Mark Klinger, Damon H. May, Edward J. Osborne, Ruth Taniguchi, H. Jabran Zahid, Ian M. Kaplan, Jennifer N. Dines, Matthew T. Noakes, Ravi Pandya, Xiaoyu Chen, Summer Elasady, Emily Svejnoha, Peter Ebert, Mitchell W. Pesesky, Patricia De Almeida, Hope O’Donnell, Quinn DeGottardi, Gladys KeitanyJennifer Lu, Allen Vong, Rebecca Elyanow, Paul Fields, Hussein Al-Asadi, Julia Greissl, Lance Baldo, Simona Semprini, Claudio Cerchione, Fabio Nicolini, Massimiliano Mazza, Ottavia M. Delmonte, Kerry Dobbs, Rocio Laguna-Goya, Gonzalo Carreño-Tarragona, Santiago Barrio, Luisa Imberti, Alessandra Sottini, Eugenia Quiros-Roldan, Camillo Rossi, Andrea Biondi, Laura Rachele Bettini, Mariella D’Angio, Paolo Bonfanti, Miranda F. Tompkins, Camille Alba, Clifton Dalgard, Vittorio Sambri, Giovanni Martinelli, Jason D. Goldman, James R. Heath, Helen C. Su, Luigi D. Notarangelo, Estela Paz-Artal, Joaquin Martinez-Lopez, Bryan Howie, Jonathan M. Carlson, Harlan S. Robins^*

^*Corresponding author for this work

Murtha Cancer Center Research Progam (MCCRP)

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

8 Scopus citations

Abstract

Introduction: T cells are involved in the early identification and clearance of viral infections and also support the development of antibodies by B cells. This central role for T cells makes them a desirable target for assessing the immune response to SARS-CoV-2 infection. Methods: Here, we combined two high-throughput immune profiling methods to create a quantitative picture of the T-cell response to SARS-CoV-2. First, at the individual level, we deeply characterized 3 acutely infected and 58 recovered COVID-19 subjects by experimentally mapping their CD8 T-cell response through antigen stimulation to 545 Human Leukocyte Antigen (HLA) class I presented viral peptides. Then, at the population level, we performed T-cell repertoire sequencing on 1,815 samples (from 1,521 COVID-19 subjects) as well as 3,500 controls to identify shared “public” T-cell receptors (TCRs) associated with SARS-CoV-2 infection from both CD8 and CD4 T cells. Results: Collectively, our data reveal that CD8 T-cell responses are often driven by a few immunodominant, HLA-restricted epitopes. As expected, the T-cell response to SARS-CoV-2 peaks about one to two weeks after infection and is detectable for at least several months after recovery. As an application of these data, we trained a classifier to diagnose SARS-CoV-2 infection based solely on TCR sequencing from blood samples, and observed, at 99.8% specificity, high early sensitivity soon after diagnosis (Day 3–7 = 85.1% [95% CI = 79.9–89.7]; Day 8–14 = 94.8% [90.7–98.4]) as well as lasting sensitivity after recovery (Day 29+/convalescent = 95.4% [92.1–98.3]). Discussion: The approaches described in this work provide detailed insights into the adaptive immune response to SARS-CoV-2 infection, and they have potential applications in clinical diagnostics, vaccine development, and monitoring.

Original language	English
Article number	1488860
Journal	Frontiers in Immunology
Volume	15
DOIs	https://doi.org/10.3389/fimmu.2024.1488860
State	Published - 2024

Keywords

cellular immunity
COVID-19
immune response
SARS-CoV-2
T cell
TCR repertoire

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10.3389/fimmu.2024.1488860

Cite this

Snyder, T. M., Gittelman, R. M., Klinger, M., May, D. H., Osborne, E. J., Taniguchi, R., Jabran Zahid, H., Kaplan, I. M., Dines, J. N., Noakes, M. T., Pandya, R., Chen, X., Elasady, S., Svejnoha, E., Ebert, P., Pesesky, M. W., De Almeida, P., O’Donnell, H., DeGottardi, Q., ... Robins, H. S. (2024). Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels. Frontiers in Immunology, 15, Article 1488860. https://doi.org/10.3389/fimmu.2024.1488860

@article{936ea4b48e33432296b4f76ddce1be6f,

title = "Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels",

abstract = "Introduction: T cells are involved in the early identification and clearance of viral infections and also support the development of antibodies by B cells. This central role for T cells makes them a desirable target for assessing the immune response to SARS-CoV-2 infection. Methods: Here, we combined two high-throughput immune profiling methods to create a quantitative picture of the T-cell response to SARS-CoV-2. First, at the individual level, we deeply characterized 3 acutely infected and 58 recovered COVID-19 subjects by experimentally mapping their CD8 T-cell response through antigen stimulation to 545 Human Leukocyte Antigen (HLA) class I presented viral peptides. Then, at the population level, we performed T-cell repertoire sequencing on 1,815 samples (from 1,521 COVID-19 subjects) as well as 3,500 controls to identify shared “public” T-cell receptors (TCRs) associated with SARS-CoV-2 infection from both CD8 and CD4 T cells. Results: Collectively, our data reveal that CD8 T-cell responses are often driven by a few immunodominant, HLA-restricted epitopes. As expected, the T-cell response to SARS-CoV-2 peaks about one to two weeks after infection and is detectable for at least several months after recovery. As an application of these data, we trained a classifier to diagnose SARS-CoV-2 infection based solely on TCR sequencing from blood samples, and observed, at 99.8% specificity, high early sensitivity soon after diagnosis (Day 3–7 = 85.1% [95% CI = 79.9–89.7]; Day 8–14 = 94.8% [90.7–98.4]) as well as lasting sensitivity after recovery (Day 29+/convalescent = 95.4% [92.1–98.3]). Discussion: The approaches described in this work provide detailed insights into the adaptive immune response to SARS-CoV-2 infection, and they have potential applications in clinical diagnostics, vaccine development, and monitoring.",

keywords = "cellular immunity, COVID-19, immune response, SARS-CoV-2, T cell, TCR repertoire",

author = "Snyder, {Thomas M.} and Gittelman, {Rachel M.} and Mark Klinger and May, {Damon H.} and Osborne, {Edward J.} and Ruth Taniguchi and {Jabran Zahid}, H. and Kaplan, {Ian M.} and Dines, {Jennifer N.} and Noakes, {Matthew T.} and Ravi Pandya and Xiaoyu Chen and Summer Elasady and Emily Svejnoha and Peter Ebert and Pesesky, {Mitchell W.} and {De Almeida}, Patricia and Hope O{\textquoteright}Donnell and Quinn DeGottardi and Gladys Keitany and Jennifer Lu and Allen Vong and Rebecca Elyanow and Paul Fields and Hussein Al-Asadi and Julia Greissl and Lance Baldo and Simona Semprini and Claudio Cerchione and Fabio Nicolini and Massimiliano Mazza and Delmonte, {Ottavia M.} and Kerry Dobbs and Rocio Laguna-Goya and Gonzalo Carre{\~n}o-Tarragona and Santiago Barrio and Luisa Imberti and Alessandra Sottini and Eugenia Quiros-Roldan and Camillo Rossi and Andrea Biondi and Bettini, {Laura Rachele} and Mariella D{\textquoteright}Angio and Paolo Bonfanti and Tompkins, {Miranda F.} and Camille Alba and Clifton Dalgard and Vittorio Sambri and Giovanni Martinelli and Goldman, {Jason D.} and Heath, {James R.} and Su, {Helen C.} and Notarangelo, {Luigi D.} and Estela Paz-Artal and Joaquin Martinez-Lopez and Bryan Howie and Carlson, {Jonathan M.} and Robins, {Harlan S.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Snyder, Gittelman, Klinger, May, Osborne, Taniguchi, Jabran Zahid, Kaplan, Dines, Noakes, Pandya, Chen, Elasady, Svejnoha, Ebert, Pesesky, De Almeida, O{\textquoteright}Donnell, DeGottardi, Keitany, Lu, Vong, Elyanow, Fields, Al-Asadi, Greissl, Baldo, Semprini, Cerchione, Nicolini, Mazza, Delmonte, Dobbs, Laguna-Goya, Carre{\~n}o-Tarragona, Barrio, Imberti, Sottini, Quiros-Roldan, Rossi, Biondi, Bettini, D{\textquoteright}Angio, Bonfanti, Tompkins, Alba, Dalgard, Sambri, Martinelli, Goldman, Heath, Su, Notarangelo, Paz-Artal, Martinez-Lopez, Howie, Carlson and Robins.",

year = "2024",

doi = "10.3389/fimmu.2024.1488860",

language = "English",

volume = "15",

journal = "Frontiers in Immunology",

issn = "1664-3224",

publisher = "Frontiers Media SA",

}

Snyder, TM, Gittelman, RM, Klinger, M, May, DH, Osborne, EJ, Taniguchi, R, Jabran Zahid, H, Kaplan, IM, Dines, JN, Noakes, MT, Pandya, R, Chen, X, Elasady, S, Svejnoha, E, Ebert, P, Pesesky, MW, De Almeida, P, O’Donnell, H, DeGottardi, Q, Keitany, G, Lu, J, Vong, A, Elyanow, R, Fields, P, Al-Asadi, H, Greissl, J, Baldo, L, Semprini, S, Cerchione, C, Nicolini, F, Mazza, M, Delmonte, OM, Dobbs, K, Laguna-Goya, R, Carreño-Tarragona, G, Barrio, S, Imberti, L, Sottini, A, Quiros-Roldan, E, Rossi, C, Biondi, A, Bettini, LR, D’Angio, M, Bonfanti, P, Tompkins, MF, Alba, C, Dalgard, C, Sambri, V, Martinelli, G, Goldman, JD, Heath, JR, Su, HC, Notarangelo, LD, Paz-Artal, E, Martinez-Lopez, J, Howie, B, Carlson, JM & Robins, HS 2024, 'Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels', Frontiers in Immunology, vol. 15, 1488860. https://doi.org/10.3389/fimmu.2024.1488860

TY - JOUR

T1 - Magnitude and dynamics of the T-cell response to SARS-CoV-2 infection at both individual and population levels

AU - Snyder, Thomas M.

AU - Gittelman, Rachel M.

AU - Klinger, Mark

AU - May, Damon H.

AU - Osborne, Edward J.

AU - Taniguchi, Ruth

AU - Jabran Zahid, H.

AU - Kaplan, Ian M.

AU - Dines, Jennifer N.

AU - Noakes, Matthew T.

AU - Pandya, Ravi

AU - Chen, Xiaoyu

AU - Elasady, Summer

AU - Svejnoha, Emily

AU - Ebert, Peter

AU - Pesesky, Mitchell W.

AU - De Almeida, Patricia

AU - O’Donnell, Hope

AU - DeGottardi, Quinn

AU - Keitany, Gladys

AU - Lu, Jennifer

AU - Vong, Allen

AU - Elyanow, Rebecca

AU - Fields, Paul

AU - Al-Asadi, Hussein

AU - Greissl, Julia

AU - Baldo, Lance

AU - Semprini, Simona

AU - Cerchione, Claudio

AU - Nicolini, Fabio

AU - Mazza, Massimiliano

AU - Delmonte, Ottavia M.

AU - Dobbs, Kerry

AU - Laguna-Goya, Rocio

AU - Carreño-Tarragona, Gonzalo

AU - Barrio, Santiago

AU - Imberti, Luisa

AU - Sottini, Alessandra

AU - Quiros-Roldan, Eugenia

AU - Rossi, Camillo

AU - Biondi, Andrea

AU - Bettini, Laura Rachele

AU - D’Angio, Mariella

AU - Bonfanti, Paolo

AU - Tompkins, Miranda F.

AU - Alba, Camille

AU - Dalgard, Clifton

AU - Sambri, Vittorio

AU - Martinelli, Giovanni

AU - Goldman, Jason D.

AU - Heath, James R.

AU - Su, Helen C.

AU - Notarangelo, Luigi D.

AU - Paz-Artal, Estela

AU - Martinez-Lopez, Joaquin

AU - Howie, Bryan

AU - Carlson, Jonathan M.

AU - Robins, Harlan S.

N1 - Publisher Copyright: Copyright © 2025 Snyder, Gittelman, Klinger, May, Osborne, Taniguchi, Jabran Zahid, Kaplan, Dines, Noakes, Pandya, Chen, Elasady, Svejnoha, Ebert, Pesesky, De Almeida, O’Donnell, DeGottardi, Keitany, Lu, Vong, Elyanow, Fields, Al-Asadi, Greissl, Baldo, Semprini, Cerchione, Nicolini, Mazza, Delmonte, Dobbs, Laguna-Goya, Carreño-Tarragona, Barrio, Imberti, Sottini, Quiros-Roldan, Rossi, Biondi, Bettini, D’Angio, Bonfanti, Tompkins, Alba, Dalgard, Sambri, Martinelli, Goldman, Heath, Su, Notarangelo, Paz-Artal, Martinez-Lopez, Howie, Carlson and Robins.

PY - 2024

Y1 - 2024

N2 - Introduction: T cells are involved in the early identification and clearance of viral infections and also support the development of antibodies by B cells. This central role for T cells makes them a desirable target for assessing the immune response to SARS-CoV-2 infection. Methods: Here, we combined two high-throughput immune profiling methods to create a quantitative picture of the T-cell response to SARS-CoV-2. First, at the individual level, we deeply characterized 3 acutely infected and 58 recovered COVID-19 subjects by experimentally mapping their CD8 T-cell response through antigen stimulation to 545 Human Leukocyte Antigen (HLA) class I presented viral peptides. Then, at the population level, we performed T-cell repertoire sequencing on 1,815 samples (from 1,521 COVID-19 subjects) as well as 3,500 controls to identify shared “public” T-cell receptors (TCRs) associated with SARS-CoV-2 infection from both CD8 and CD4 T cells. Results: Collectively, our data reveal that CD8 T-cell responses are often driven by a few immunodominant, HLA-restricted epitopes. As expected, the T-cell response to SARS-CoV-2 peaks about one to two weeks after infection and is detectable for at least several months after recovery. As an application of these data, we trained a classifier to diagnose SARS-CoV-2 infection based solely on TCR sequencing from blood samples, and observed, at 99.8% specificity, high early sensitivity soon after diagnosis (Day 3–7 = 85.1% [95% CI = 79.9–89.7]; Day 8–14 = 94.8% [90.7–98.4]) as well as lasting sensitivity after recovery (Day 29+/convalescent = 95.4% [92.1–98.3]). Discussion: The approaches described in this work provide detailed insights into the adaptive immune response to SARS-CoV-2 infection, and they have potential applications in clinical diagnostics, vaccine development, and monitoring.

AB - Introduction: T cells are involved in the early identification and clearance of viral infections and also support the development of antibodies by B cells. This central role for T cells makes them a desirable target for assessing the immune response to SARS-CoV-2 infection. Methods: Here, we combined two high-throughput immune profiling methods to create a quantitative picture of the T-cell response to SARS-CoV-2. First, at the individual level, we deeply characterized 3 acutely infected and 58 recovered COVID-19 subjects by experimentally mapping their CD8 T-cell response through antigen stimulation to 545 Human Leukocyte Antigen (HLA) class I presented viral peptides. Then, at the population level, we performed T-cell repertoire sequencing on 1,815 samples (from 1,521 COVID-19 subjects) as well as 3,500 controls to identify shared “public” T-cell receptors (TCRs) associated with SARS-CoV-2 infection from both CD8 and CD4 T cells. Results: Collectively, our data reveal that CD8 T-cell responses are often driven by a few immunodominant, HLA-restricted epitopes. As expected, the T-cell response to SARS-CoV-2 peaks about one to two weeks after infection and is detectable for at least several months after recovery. As an application of these data, we trained a classifier to diagnose SARS-CoV-2 infection based solely on TCR sequencing from blood samples, and observed, at 99.8% specificity, high early sensitivity soon after diagnosis (Day 3–7 = 85.1% [95% CI = 79.9–89.7]; Day 8–14 = 94.8% [90.7–98.4]) as well as lasting sensitivity after recovery (Day 29+/convalescent = 95.4% [92.1–98.3]). Discussion: The approaches described in this work provide detailed insights into the adaptive immune response to SARS-CoV-2 infection, and they have potential applications in clinical diagnostics, vaccine development, and monitoring.

KW - cellular immunity

KW - COVID-19

KW - immune response

KW - SARS-CoV-2

KW - T cell

KW - TCR repertoire

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DO - 10.3389/fimmu.2024.1488860

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AN - SCOPUS:85215521672

SN - 1664-3224

VL - 15

JO - Frontiers in Immunology

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