Inhibitory signaling sustains a distinct early memory CD8+ T cell precursor that is resistant to DNA damage

Jonathan B. Johnnidis; Yuki Muroyama; Shin Foong Ngiow; Zeyu Chen; Sasikanth Manne; Zhangying Cai; Shufei Song; Jesse M. Platt; Jason M. Schenkel; Mohamed Abdel-Hakeem; Jean Christophe Beltra; Allison R. Greenplate; Mohammed Alkhatim A. Ali; Kito Nzingha; Josephine R. Giles; Christelle Harly; John Attanasio; Kristen E. Pauken; Bertram Bengsch; Michael A. Paley; Vesselin T. Tomov; Makoto Kurachi; Dario A.A. Vignali; Arlene H. Sharpe; Steven L. Reiner; Avinash Bhandoola; F. Bradley Johnson; E. John Wherry

doi:10.1126/SCIIMMUNOL.ABE3702

Inhibitory signaling sustains a distinct early memory CD8⁺ T cell precursor that is resistant to DNA damage

Jonathan B. Johnnidis, Yuki Muroyama, Shin Foong Ngiow, Zeyu Chen, Sasikanth Manne, Zhangying Cai, Shufei Song, Jesse M. Platt, Jason M. Schenkel, Mohamed Abdel-Hakeem, Jean Christophe Beltra, Allison R. Greenplate, Mohammed Alkhatim A. Ali, Kito Nzingha, Josephine R. Giles, Christelle Harly, John Attanasio, Kristen E. Pauken, Bertram Bengsch, Michael A. PaleyVesselin T. Tomov, Makoto Kurachi, Dario A.A. Vignali, Arlene H. Sharpe, Steven L. Reiner, Avinash Bhandoola, F. Bradley Johnson, E. John Wherry

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

44 Scopus citations

Abstract

The developmental origins of memory T cells remain incompletely understood. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8⁺ T cells that possessed distinct characteristics including expression of CD62L, T cell factor 1 (TCF-1), and Eomesodermin; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1⁺ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8⁺ T cells, coupled with elevated expression of multiple inhibitory receptors including programmed cell death 1 (PD-1), lymphocyte activating gene 3 (LAG-3), cytotoxic T-lymphocyte-associated protein 4 (CTLA-4), CD5, and CD160. Genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62L^hi TCF-1⁺ subset and subsequent CD8⁺ T cell memory. Although central memory phenotype CD8⁺ T cells were formed in the absence of these cells, subsequent memory CD8⁺ T cell recall responses were compromised. Together, these results identify an important link between genome integrity maintenance and CD8⁺ T cell memory. Moreover, the data indicate a role for inhibitory receptors in preserving key memory CD8⁺ T cell precursors during initial activation and differentiation. Identification of this rare subpopulation within the memory CD8⁺ T cell precursor pool may help reconcile models of the developmental origin of long-term CD8⁺ T cell memory.

Original language	English (US)
Article number	eabe3702
Journal	Science Immunology
Volume	6
Issue number	55
DOIs	https://doi.org/10.1126/SCIIMMUNOL.ABE3702
State	Published - 2021
Externally published	Yes

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1126/SCIIMMUNOL.ABE3702

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Johnnidis, J. B., Muroyama, Y., Ngiow, S. F., Chen, Z., Manne, S., Cai, Z., Song, S., Platt, J. M., Schenkel, J. M., Abdel-Hakeem, M., Beltra, J. C., Greenplate, A. R., Ali, M. A. A., Nzingha, K., Giles, J. R., Harly, C., Attanasio, J., Pauken, K. E., Bengsch, B., ... Wherry, E. J. (2021). Inhibitory signaling sustains a distinct early memory CD8⁺ T cell precursor that is resistant to DNA damage. Science Immunology, 6(55), Article eabe3702. https://doi.org/10.1126/SCIIMMUNOL.ABE3702

Johnnidis, JB, Muroyama, Y, Ngiow, SF, Chen, Z, Manne, S, Cai, Z, Song, S, Platt, JM, Schenkel, JM, Abdel-Hakeem, M, Beltra, JC, Greenplate, AR, Ali, MAA, Nzingha, K, Giles, JR, Harly, C, Attanasio, J, Pauken, KE, Bengsch, B, Paley, MA, Tomov, VT, Kurachi, M, Vignali, DAA, Sharpe, AH, Reiner, SL, Bhandoola, A, Johnson, FB & Wherry, EJ 2021, 'Inhibitory signaling sustains a distinct early memory CD8⁺ T cell precursor that is resistant to DNA damage', Science Immunology, vol. 6, no. 55, eabe3702. https://doi.org/10.1126/SCIIMMUNOL.ABE3702

@article{53560d42e9f94b03932bc9be1a2b5ef0,

title = "Inhibitory signaling sustains a distinct early memory CD8+ T cell precursor that is resistant to DNA damage",

abstract = "The developmental origins of memory T cells remain incompletely understood. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8+ T cells that possessed distinct characteristics including expression of CD62L, T cell factor 1 (TCF-1), and Eomesodermin; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1+ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8+ T cells, coupled with elevated expression of multiple inhibitory receptors including programmed cell death 1 (PD-1), lymphocyte activating gene 3 (LAG-3), cytotoxic T-lymphocyte-associated protein 4 (CTLA-4), CD5, and CD160. Genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62Lhi TCF-1+ subset and subsequent CD8+ T cell memory. Although central memory phenotype CD8+ T cells were formed in the absence of these cells, subsequent memory CD8+ T cell recall responses were compromised. Together, these results identify an important link between genome integrity maintenance and CD8+ T cell memory. Moreover, the data indicate a role for inhibitory receptors in preserving key memory CD8+ T cell precursors during initial activation and differentiation. Identification of this rare subpopulation within the memory CD8+ T cell precursor pool may help reconcile models of the developmental origin of long-term CD8+ T cell memory.",

author = "Johnnidis, {Jonathan B.} and Yuki Muroyama and Ngiow, {Shin Foong} and Zeyu Chen and Sasikanth Manne and Zhangying Cai and Shufei Song and Platt, {Jesse M.} and Schenkel, {Jason M.} and Mohamed Abdel-Hakeem and Beltra, {Jean Christophe} and Greenplate, {Allison R.} and Ali, {Mohammed Alkhatim A.} and Kito Nzingha and Giles, {Josephine R.} and Christelle Harly and John Attanasio and Pauken, {Kristen E.} and Bertram Bengsch and Paley, {Michael A.} and Tomov, {Vesselin T.} and Makoto Kurachi and Vignali, {Dario A.A.} and Sharpe, {Arlene H.} and Reiner, {Steven L.} and Avinash Bhandoola and Johnson, {F. Bradley} and Wherry, {E. John}",

note = "Funding Information: We thank the Wherry laboratory for helpful discussions and input. We also thank the NIH tetramer core for tetramers. Funding: J.B.J. was funded by T32 AI070099. Y.M. was supported by a Stand Up 2 Cancer, Society of Immunotherapy of Cancer (SU2C-SITC) Convergence Scholar Award and by the KANAE Foundation for the Promotion of Medical Science Award. S.F.N. was supported by an NHMRC C.J. Martin Fellowship (GNT1111469) and the Mark Foundation for Cancer Research Momentum Fellowship. J.R.G. was funded by T32 CA009140 and is currently a Cancer Research Institute–Mark Foundation Fellow. M.A.H. is a Cancer Research Institute–Mark Foundation Fellow. J.-C.B. and J.R.G. were supported by the Parker Institute for Cancer Immunotherapy. J.M.P. was supported by T32: 5T32DK007191-45. This work was supported by grants from the NIH (AI105343, AI117950, AI082630, AI112521, AI115712, AI108545, CA210944, and AI56299) and Stand Up 2 Cancer to E.J.W. E.J.W. and work in the Wherry laboratory were supported by the Parker Institute for Cancer Immunotherapy, which supports the Cancer Immunology program at the University Publisher Copyright: Copyright {\textcopyright} 2021 The Authors,",

year = "2021",

doi = "10.1126/SCIIMMUNOL.ABE3702",

language = "English (US)",

volume = "6",

journal = "Science Immunology",

issn = "2470-9468",

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

number = "55",

}

TY - JOUR

T1 - Inhibitory signaling sustains a distinct early memory CD8+ T cell precursor that is resistant to DNA damage

AU - Johnnidis, Jonathan B.

AU - Muroyama, Yuki

AU - Ngiow, Shin Foong

AU - Chen, Zeyu

AU - Manne, Sasikanth

AU - Cai, Zhangying

AU - Song, Shufei

AU - Platt, Jesse M.

AU - Schenkel, Jason M.

AU - Abdel-Hakeem, Mohamed

AU - Beltra, Jean Christophe

AU - Greenplate, Allison R.

AU - Ali, Mohammed Alkhatim A.

AU - Nzingha, Kito

AU - Giles, Josephine R.

AU - Harly, Christelle

AU - Attanasio, John

AU - Pauken, Kristen E.

AU - Bengsch, Bertram

AU - Paley, Michael A.

AU - Tomov, Vesselin T.

AU - Kurachi, Makoto

AU - Vignali, Dario A.A.

AU - Sharpe, Arlene H.

AU - Reiner, Steven L.

AU - Bhandoola, Avinash

AU - Johnson, F. Bradley

AU - Wherry, E. John

N1 - Funding Information: We thank the Wherry laboratory for helpful discussions and input. We also thank the NIH tetramer core for tetramers. Funding: J.B.J. was funded by T32 AI070099. Y.M. was supported by a Stand Up 2 Cancer, Society of Immunotherapy of Cancer (SU2C-SITC) Convergence Scholar Award and by the KANAE Foundation for the Promotion of Medical Science Award. S.F.N. was supported by an NHMRC C.J. Martin Fellowship (GNT1111469) and the Mark Foundation for Cancer Research Momentum Fellowship. J.R.G. was funded by T32 CA009140 and is currently a Cancer Research Institute–Mark Foundation Fellow. M.A.H. is a Cancer Research Institute–Mark Foundation Fellow. J.-C.B. and J.R.G. were supported by the Parker Institute for Cancer Immunotherapy. J.M.P. was supported by T32: 5T32DK007191-45. This work was supported by grants from the NIH (AI105343, AI117950, AI082630, AI112521, AI115712, AI108545, CA210944, and AI56299) and Stand Up 2 Cancer to E.J.W. E.J.W. and work in the Wherry laboratory were supported by the Parker Institute for Cancer Immunotherapy, which supports the Cancer Immunology program at the University Publisher Copyright: Copyright © 2021 The Authors,

PY - 2021

Y1 - 2021

N2 - The developmental origins of memory T cells remain incompletely understood. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8+ T cells that possessed distinct characteristics including expression of CD62L, T cell factor 1 (TCF-1), and Eomesodermin; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1+ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8+ T cells, coupled with elevated expression of multiple inhibitory receptors including programmed cell death 1 (PD-1), lymphocyte activating gene 3 (LAG-3), cytotoxic T-lymphocyte-associated protein 4 (CTLA-4), CD5, and CD160. Genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62Lhi TCF-1+ subset and subsequent CD8+ T cell memory. Although central memory phenotype CD8+ T cells were formed in the absence of these cells, subsequent memory CD8+ T cell recall responses were compromised. Together, these results identify an important link between genome integrity maintenance and CD8+ T cell memory. Moreover, the data indicate a role for inhibitory receptors in preserving key memory CD8+ T cell precursors during initial activation and differentiation. Identification of this rare subpopulation within the memory CD8+ T cell precursor pool may help reconcile models of the developmental origin of long-term CD8+ T cell memory.

AB - The developmental origins of memory T cells remain incompletely understood. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8+ T cells that possessed distinct characteristics including expression of CD62L, T cell factor 1 (TCF-1), and Eomesodermin; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1+ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8+ T cells, coupled with elevated expression of multiple inhibitory receptors including programmed cell death 1 (PD-1), lymphocyte activating gene 3 (LAG-3), cytotoxic T-lymphocyte-associated protein 4 (CTLA-4), CD5, and CD160. Genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62Lhi TCF-1+ subset and subsequent CD8+ T cell memory. Although central memory phenotype CD8+ T cells were formed in the absence of these cells, subsequent memory CD8+ T cell recall responses were compromised. Together, these results identify an important link between genome integrity maintenance and CD8+ T cell memory. Moreover, the data indicate a role for inhibitory receptors in preserving key memory CD8+ T cell precursors during initial activation and differentiation. Identification of this rare subpopulation within the memory CD8+ T cell precursor pool may help reconcile models of the developmental origin of long-term CD8+ T cell memory.

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Inhibitory signaling sustains a distinct early memory CD8⁺ T cell precursor that is resistant to DNA damage

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