Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes

Loreto Parga-Vidal; Felix M. Behr; Natasja A. M. Kragten; Benjamin Nota; Thomas H. Wesselink; Inga Kavazović; Laura E. Covill; Margo B. P. Schuller; Yenan T. Bryceson; Felix M. Wensveen; Rene A. W. van Lier; Teunis J. P. van Dam; Regina Stark; Klaas P. J. M. van Gisbergen

doi:10.1126/sciimmunol.abg3533

Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes

Loreto Parga-Vidal
, Felix M. Behr
, Natasja A. M. Kragten
, Benjamin Nota
, Thomas H. Wesselink
, Inga Kavazović
, Laura E. Covill
, Margo B. P. Schuller
, Yenan T. Bryceson
, Felix M. Wensveen
, Rene A. W. van Lier
, Teunis J. P. van Dam
, Regina Stark
, Klaas P. J. M. van Gisbergen

University of Amsterdam
University of Rijeka
Karolinska Institutet
University of Bergen
Charité – Universitätsmedizin Berlin

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

Abstract

Tissue-resident memory CD8+ T cells (TRM) constitute a noncirculating memory T cell subset that provides early protection against reinfection. However, how TRM arise from antigen-triggered T cells has remained unclear. Exploiting the TRM-restricted expression of Hobit, we used TRM reporter/deleter mice to study TRM differentiation. We found that Hobit was up-regulated in a subset of LCMV-specific CD8+ T cells located within peripheral tissues during the effector phase of the immune response. These Hobit+ effector T cells were identified as TRM precursors, given that their depletion substantially decreased TRM development but not the formation of circulating memory T cells. Adoptive transfer experiments of Hobit+ effector T cells corroborated their biased contribution to the TRM lineage. Transcriptional profiling of Hobit+ effector T cells underlined the early establishment of TRM properties including down-regulation of tissue exit receptors and up-regulation of TRM-associated molecules. We identified Eomes as a key factor instructing the early bifurcation of circulating and resident lineages. These findings establish that commitment of TRM occurs early in antigen-driven T cell differentiation and reveal the molecular mechanisms underlying this differentiation pathway.

Original language	English
Article number	abg3533
Journal	Science immunology
Volume	6
Issue number	62
DOIs	https://doi.org/10.1126/sciimmunol.abg3533
Publication status	Published - 19 Aug 2021

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Parga-Vidal, L., Behr, F. M., Kragten, N. A. M., Nota, B., Wesselink, T. H., Kavazović, I., Covill, L. E., Schuller, M. B. P., Bryceson, Y. T., Wensveen, F. M., van Lier, R. A. W., van Dam, T. J. P., Stark, R., & van Gisbergen, K. P. J. M. (2021). Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes. Science immunology, 6(62), Article abg3533. https://doi.org/10.1126/sciimmunol.abg3533

@article{d293df7ab8b04a2d83024d693f005915,

title = "Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes",

abstract = "Tissue-resident memory CD8+ T cells (TRM) constitute a noncirculating memory T cell subset that provides early protection against reinfection. However, how TRM arise from antigen-triggered T cells has remained unclear. Exploiting the TRM-restricted expression of Hobit, we used TRM reporter/deleter mice to study TRM differentiation. We found that Hobit was up-regulated in a subset of LCMV-specific CD8+ T cells located within peripheral tissues during the effector phase of the immune response. These Hobit+ effector T cells were identified as TRM precursors, given that their depletion substantially decreased TRM development but not the formation of circulating memory T cells. Adoptive transfer experiments of Hobit+ effector T cells corroborated their biased contribution to the TRM lineage. Transcriptional profiling of Hobit+ effector T cells underlined the early establishment of TRM properties including down-regulation of tissue exit receptors and up-regulation of TRM-associated molecules. We identified Eomes as a key factor instructing the early bifurcation of circulating and resident lineages. These findings establish that commitment of TRM occurs early in antigen-driven T cell differentiation and reveal the molecular mechanisms underlying this differentiation pathway.",

author = "Loreto Parga-Vidal and Behr, \{Felix M.\} and Kragten, \{Natasja A. M.\} and Benjamin Nota and Wesselink, \{Thomas H.\} and Inga Kavazovi{\'c} and Covill, \{Laura E.\} and Schuller, \{Margo B. P.\} and Bryceson, \{Yenan T.\} and Wensveen, \{Felix M.\} and \{van Lier\}, \{Rene A. W.\} and \{van Dam\}, \{Teunis J. P.\} and Regina Stark and \{van Gisbergen\}, \{Klaas P. J. M.\}",

note = "Publisher Copyright: {\textcopyright} 2021 The Authors.",

year = "2021",

month = aug,

day = "19",

doi = "10.1126/sciimmunol.abg3533",

language = "English",

volume = "6",

journal = "Science immunology",

issn = "2470-9468",

publisher = "American Association for the Advancement of Science",

number = "62",

}

Parga-Vidal, L, Behr, FM, Kragten, NAM, Nota, B, Wesselink, TH, Kavazović, I, Covill, LE, Schuller, MBP, Bryceson, YT, Wensveen, FM, van Lier, RAW, van Dam, TJP, Stark, R & van Gisbergen, KPJM 2021, 'Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes', Science immunology, vol. 6, no. 62, abg3533. https://doi.org/10.1126/sciimmunol.abg3533

TY - JOUR

T1 - Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes

AU - Parga-Vidal, Loreto

AU - Behr, Felix M.

AU - Kragten, Natasja A. M.

AU - Nota, Benjamin

AU - Wesselink, Thomas H.

AU - Kavazović, Inga

AU - Covill, Laura E.

AU - Schuller, Margo B. P.

AU - Bryceson, Yenan T.

AU - Wensveen, Felix M.

AU - van Lier, Rene A. W.

AU - van Dam, Teunis J. P.

AU - Stark, Regina

AU - van Gisbergen, Klaas P. J. M.

PY - 2021/8/19

Y1 - 2021/8/19

N2 - Tissue-resident memory CD8+ T cells (TRM) constitute a noncirculating memory T cell subset that provides early protection against reinfection. However, how TRM arise from antigen-triggered T cells has remained unclear. Exploiting the TRM-restricted expression of Hobit, we used TRM reporter/deleter mice to study TRM differentiation. We found that Hobit was up-regulated in a subset of LCMV-specific CD8+ T cells located within peripheral tissues during the effector phase of the immune response. These Hobit+ effector T cells were identified as TRM precursors, given that their depletion substantially decreased TRM development but not the formation of circulating memory T cells. Adoptive transfer experiments of Hobit+ effector T cells corroborated their biased contribution to the TRM lineage. Transcriptional profiling of Hobit+ effector T cells underlined the early establishment of TRM properties including down-regulation of tissue exit receptors and up-regulation of TRM-associated molecules. We identified Eomes as a key factor instructing the early bifurcation of circulating and resident lineages. These findings establish that commitment of TRM occurs early in antigen-driven T cell differentiation and reveal the molecular mechanisms underlying this differentiation pathway.

AB - Tissue-resident memory CD8+ T cells (TRM) constitute a noncirculating memory T cell subset that provides early protection against reinfection. However, how TRM arise from antigen-triggered T cells has remained unclear. Exploiting the TRM-restricted expression of Hobit, we used TRM reporter/deleter mice to study TRM differentiation. We found that Hobit was up-regulated in a subset of LCMV-specific CD8+ T cells located within peripheral tissues during the effector phase of the immune response. These Hobit+ effector T cells were identified as TRM precursors, given that their depletion substantially decreased TRM development but not the formation of circulating memory T cells. Adoptive transfer experiments of Hobit+ effector T cells corroborated their biased contribution to the TRM lineage. Transcriptional profiling of Hobit+ effector T cells underlined the early establishment of TRM properties including down-regulation of tissue exit receptors and up-regulation of TRM-associated molecules. We identified Eomes as a key factor instructing the early bifurcation of circulating and resident lineages. These findings establish that commitment of TRM occurs early in antigen-driven T cell differentiation and reveal the molecular mechanisms underlying this differentiation pathway.

UR - https://www.scopus.com/pages/publications/85114757765

U2 - 10.1126/sciimmunol.abg3533

DO - 10.1126/sciimmunol.abg3533

M3 - Article

C2 - 34417257

SN - 2470-9468

VL - 6

JO - Science immunology

JF - Science immunology

IS - 62

M1 - abg3533

ER -

Hobit identifies tissue-resident memory T cell precursors that are regulated by Eomes

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