Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils

Suhas Sureshchandra; James Henderson; Elizabeth Levendosky; Sankalan Bhattacharyya; Jenna M. Kastenschmidt; Andrew M. Sorn; Mahina Tabassum Mitul; Timothy B. Yates; Evien Cheng; Aviv Benchorin; Kyle Batucal; Allyssa Daugherty; Samuel J.H. Murphy; Chandrani Thakur; Douglas Trask; Gurpreet Ahuja; Qiu Zhong; Annie Moisan; Andreas Tiffeau-Mayer; Naresha Saligrama; Lisa E. Wagar

doi:10.1016/j.immuni.2025.10.025

Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils

Suhas Sureshchandra
, James Henderson
, Elizabeth Levendosky
, Sankalan Bhattacharyya
, Jenna M. Kastenschmidt
, Andrew M. Sorn
, Mahina Tabassum Mitul
, Timothy B. Yates
, Evien Cheng
, Aviv Benchorin
, Kyle Batucal
, Allyssa Daugherty
, Samuel J.H. Murphy
, Chandrani Thakur
, Douglas Trask
, Gurpreet Ahuja
, Qiu Zhong
, Annie Moisan
, Andreas Tiffeau-Mayer
, Naresha Saligrama

Lisa E. Wagar

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

Abstract

98% of T cells reside in tissues, yet nearly all human T cell analyses are performed on peripheral blood. We performed single-cell sequencing of 5.7 million T cells from autologous blood and tonsils of ten donors. We identified distinct patterns of clonal expansion associated with tonsil-restricted phenotypes. Clonal sharing between blood and tonsils was lower than previous estimates and increased with age. Identical T cell receptor (TCR) sequences exhibited limited concordance in their phenotypes across compartments. Furthermore, location dictated the frequencies, clonal dominance, and phenotypes of antigen-specific T cells. Using immune organoids, we showed that antigen exposure drives functionally distinct T cell clones from naive or tissue-resident memory pools. Finally, we demonstrate that chronic infections influence TCR repertoire diversity differently in blood and tonsil-resident T cells. These data highlight the necessity of accounting for tissue-specific contexts to accurately measure the TCR repertoire and monitor T cell responses following perturbing therapies.

Original language	English
Pages (from-to)	3130-3143.e8
Journal	Immunity
Volume	58
Issue number	12
DOIs	https://doi.org/10.1016/j.immuni.2025.10.025
State	Published - Dec 9 2025

Keywords

T cell receptor repertoire
T follicular helper cells
TCR biology
TRM cells
Tfh cells
antigen-specific CD8 T cells
human T cells
resident memory T cells
tissue
tonsils

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10.1016/j.immuni.2025.10.025

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Sureshchandra, S., Henderson, J., Levendosky, E., Bhattacharyya, S., Kastenschmidt, J. M., Sorn, A. M., Mitul, M. T., Yates, T. B., Cheng, E., Benchorin, A., Batucal, K., Daugherty, A., Murphy, S. J. H., Thakur, C., Trask, D., Ahuja, G., Zhong, Q., Moisan, A., Tiffeau-Mayer, A., ... Wagar, L. E. (2025). Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils. Immunity, 58(12), 3130-3143.e8. https://doi.org/10.1016/j.immuni.2025.10.025

@article{30ca7a4b78a147e986763fd9128fbbdc,

title = "Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils",

abstract = "98\% of T cells reside in tissues, yet nearly all human T cell analyses are performed on peripheral blood. We performed single-cell sequencing of 5.7 million T cells from autologous blood and tonsils of ten donors. We identified distinct patterns of clonal expansion associated with tonsil-restricted phenotypes. Clonal sharing between blood and tonsils was lower than previous estimates and increased with age. Identical T cell receptor (TCR) sequences exhibited limited concordance in their phenotypes across compartments. Furthermore, location dictated the frequencies, clonal dominance, and phenotypes of antigen-specific T cells. Using immune organoids, we showed that antigen exposure drives functionally distinct T cell clones from naive or tissue-resident memory pools. Finally, we demonstrate that chronic infections influence TCR repertoire diversity differently in blood and tonsil-resident T cells. These data highlight the necessity of accounting for tissue-specific contexts to accurately measure the TCR repertoire and monitor T cell responses following perturbing therapies.",

keywords = "T cell receptor repertoire, T follicular helper cells, TCR biology, TRM cells, Tfh cells, antigen-specific CD8 T cells, human T cells, resident memory T cells, tissue, tonsils",

author = "Suhas Sureshchandra and James Henderson and Elizabeth Levendosky and Sankalan Bhattacharyya and Kastenschmidt, \{Jenna M.\} and Sorn, \{Andrew M.\} and Mitul, \{Mahina Tabassum\} and Yates, \{Timothy B.\} and Evien Cheng and Aviv Benchorin and Kyle Batucal and Allyssa Daugherty and Murphy, \{Samuel J.H.\} and Chandrani Thakur and Douglas Trask and Gurpreet Ahuja and Qiu Zhong and Annie Moisan and Andreas Tiffeau-Mayer and Naresha Saligrama and Wagar, \{Lisa E.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = dec,

day = "9",

doi = "10.1016/j.immuni.2025.10.025",

language = "English",

volume = "58",

pages = "3130--3143.e8",

journal = "Immunity",

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Sureshchandra, S, Henderson, J, Levendosky, E, Bhattacharyya, S, Kastenschmidt, JM, Sorn, AM, Mitul, MT, Yates, TB, Cheng, E, Benchorin, A, Batucal, K, Daugherty, A, Murphy, SJH, Thakur, C, Trask, D, Ahuja, G, Zhong, Q, Moisan, A, Tiffeau-Mayer, A, Saligrama, N & Wagar, LE 2025, 'Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils', Immunity, vol. 58, no. 12, pp. 3130-3143.e8. https://doi.org/10.1016/j.immuni.2025.10.025

TY - JOUR

T1 - Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils

AU - Sureshchandra, Suhas

AU - Henderson, James

AU - Levendosky, Elizabeth

AU - Bhattacharyya, Sankalan

AU - Kastenschmidt, Jenna M.

AU - Sorn, Andrew M.

AU - Mitul, Mahina Tabassum

AU - Yates, Timothy B.

AU - Cheng, Evien

AU - Benchorin, Aviv

AU - Batucal, Kyle

AU - Daugherty, Allyssa

AU - Murphy, Samuel J.H.

AU - Thakur, Chandrani

AU - Trask, Douglas

AU - Ahuja, Gurpreet

AU - Zhong, Qiu

AU - Moisan, Annie

AU - Tiffeau-Mayer, Andreas

AU - Saligrama, Naresha

AU - Wagar, Lisa E.

PY - 2025/12/9

Y1 - 2025/12/9

N2 - 98% of T cells reside in tissues, yet nearly all human T cell analyses are performed on peripheral blood. We performed single-cell sequencing of 5.7 million T cells from autologous blood and tonsils of ten donors. We identified distinct patterns of clonal expansion associated with tonsil-restricted phenotypes. Clonal sharing between blood and tonsils was lower than previous estimates and increased with age. Identical T cell receptor (TCR) sequences exhibited limited concordance in their phenotypes across compartments. Furthermore, location dictated the frequencies, clonal dominance, and phenotypes of antigen-specific T cells. Using immune organoids, we showed that antigen exposure drives functionally distinct T cell clones from naive or tissue-resident memory pools. Finally, we demonstrate that chronic infections influence TCR repertoire diversity differently in blood and tonsil-resident T cells. These data highlight the necessity of accounting for tissue-specific contexts to accurately measure the TCR repertoire and monitor T cell responses following perturbing therapies.

AB - 98% of T cells reside in tissues, yet nearly all human T cell analyses are performed on peripheral blood. We performed single-cell sequencing of 5.7 million T cells from autologous blood and tonsils of ten donors. We identified distinct patterns of clonal expansion associated with tonsil-restricted phenotypes. Clonal sharing between blood and tonsils was lower than previous estimates and increased with age. Identical T cell receptor (TCR) sequences exhibited limited concordance in their phenotypes across compartments. Furthermore, location dictated the frequencies, clonal dominance, and phenotypes of antigen-specific T cells. Using immune organoids, we showed that antigen exposure drives functionally distinct T cell clones from naive or tissue-resident memory pools. Finally, we demonstrate that chronic infections influence TCR repertoire diversity differently in blood and tonsil-resident T cells. These data highlight the necessity of accounting for tissue-specific contexts to accurately measure the TCR repertoire and monitor T cell responses following perturbing therapies.

KW - T cell receptor repertoire

KW - T follicular helper cells

KW - TCR biology

KW - TRM cells

KW - Tfh cells

KW - antigen-specific CD8 T cells

KW - human T cells

KW - resident memory T cells

KW - tissue

KW - tonsils

UR - https://www.scopus.com/pages/publications/105023520409

U2 - 10.1016/j.immuni.2025.10.025

DO - 10.1016/j.immuni.2025.10.025

M3 - Article

C2 - 41308653

AN - SCOPUS:105023520409

SN - 1074-7613

VL - 58

SP - 3130-3143.e8

JO - Immunity

JF - Immunity

IS - 12

ER -

Deep profiling of human T cells defines compartmentalized clones and phenotypic trajectories across blood and tonsils

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