γ9δ2 T-Cell Expansion and Phenotypic Profile Are Reflected in the CDR3δ Repertoire of Healthy Adults

Anna Vyborova; Anke Janssen; Lucrezia Gatti; Froso Karaiskaki; Austin Yonika; Sanne van Dooremalen; Jasper Sanders; Dennis X Beringer; Trudy Straetemans; Zsolt Sebestyen; Jürgen Kuball

doi:10.3389/fimmu.2022.915366

γ9δ2 T-Cell Expansion and Phenotypic Profile Are Reflected in the CDR3δ Repertoire of Healthy Adults

Anna Vyborova, Anke Janssen, Lucrezia Gatti, Froso Karaiskaki, Austin Yonika, Sanne van Dooremalen, Jasper Sanders, Dennis X Beringer, Trudy Straetemans, Zsolt Sebestyen, Jürgen Kuball

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Abstract

γ9δ2T cells fill a distinct niche in human immunity due to the unique physiology of the phosphoantigen-reactive γ9δ2TCR. Here, we highlight reproducible TCRδ complementarity-determining region 3 (CDR3δ) repertoire patterns associated with γ9δ2T cell proliferation and phenotype, thus providing evidence for the role of the CDR3δ in modulating in vivo T-cell responses. Features that determine γ9δ2TCR binding affinity and reactivity to the phosphoantigen-induced ligand in vitro appear to similarly underpin in vivo clonotypic expansion and differentiation. Likewise, we identify a CDR3δ bias in the γ9δ2T cell natural killer receptor (NKR) landscape. While expression of the inhibitory receptor CD94/NKG2A is skewed toward cells bearing putative high-affinity TCRs, the activating receptor NKG2D is expressed independently of the phosphoantigen-sensing determinants, suggesting a higher net NKR activating signal in T cells with TCRs of low affinity. This study establishes consistent repertoire-phenotype associations and justifies stratification for the T-cell phenotype in future research on γ9δ2TCR repertoire dynamics.

Original language	English
Article number	915366
Pages (from-to)	1-13
Journal	Frontiers in Immunology
Volume	13
DOIs	https://doi.org/10.3389/fimmu.2022.915366
Publication status	Published - 7 Jul 2022

Keywords

CD94/ NKG2A(B)
CDR3d
NKG2D
adult Vd2 repertoire
differentiation profile
human g9d2 T cells
public clonotypes
CDR3δ
human γ9δ2 T cells
adult Vδ2 repertoire
CD94/NKG2A(B)

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@article{806df1094f55468a90d88c3ebd4674f4,

title = "γ9δ2 T-Cell Expansion and Phenotypic Profile Are Reflected in the CDR3δ Repertoire of Healthy Adults",

abstract = "γ9δ2T cells fill a distinct niche in human immunity due to the unique physiology of the phosphoantigen-reactive γ9δ2TCR. Here, we highlight reproducible TCRδ complementarity-determining region 3 (CDR3δ) repertoire patterns associated with γ9δ2T cell proliferation and phenotype, thus providing evidence for the role of the CDR3δ in modulating in vivo T-cell responses. Features that determine γ9δ2TCR binding affinity and reactivity to the phosphoantigen-induced ligand in vitro appear to similarly underpin in vivo clonotypic expansion and differentiation. Likewise, we identify a CDR3δ bias in the γ9δ2T cell natural killer receptor (NKR) landscape. While expression of the inhibitory receptor CD94/NKG2A is skewed toward cells bearing putative high-affinity TCRs, the activating receptor NKG2D is expressed independently of the phosphoantigen-sensing determinants, suggesting a higher net NKR activating signal in T cells with TCRs of low affinity. This study establishes consistent repertoire-phenotype associations and justifies stratification for the T-cell phenotype in future research on γ9δ2TCR repertoire dynamics. ",

keywords = "CD94/ NKG2A(B), CDR3d, NKG2D, adult Vd2 repertoire, differentiation profile, human g9d2 T cells, public clonotypes, CDR3δ, human γ9δ2 T cells, adult Vδ2 repertoire, CD94/NKG2A(B)",

author = "Anna Vyborova and Anke Janssen and Lucrezia Gatti and Froso Karaiskaki and Austin Yonika and {van Dooremalen}, Sanne and Jasper Sanders and Beringer, {Dennis X} and Trudy Straetemans and Zsolt Sebestyen and J{\"u}rgen Kuball",

note = "Funding Information: Funding for this study was provided by ZonMW 43400003 and VIDI-ZonMW 917.11.337, KWF UU 2010-4669, UU 2013-6426, UU 2014-6790, and UU 2015-7601, UU 2018-11393, UU 2018-11979, UU 2020-12586, and UU 2021-13043 to JK. Publisher Copyright: Copyright {\textcopyright} 2022 Vyborova, Janssen, Gatti, Karaiskaki, Yonika, van Dooremalen, Sanders, Beringer, Straetemans, Sebestyen and Kuball.",

year = "2022",

month = jul,

day = "7",

doi = "10.3389/fimmu.2022.915366",

language = "English",

volume = "13",

pages = "1--13",

journal = "Frontiers in Immunology",

issn = "1664-3224",

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T1 - γ9δ2 T-Cell Expansion and Phenotypic Profile Are Reflected in the CDR3δ Repertoire of Healthy Adults

AU - Vyborova, Anna

AU - Janssen, Anke

AU - Gatti, Lucrezia

AU - Karaiskaki, Froso

AU - Yonika, Austin

AU - van Dooremalen, Sanne

AU - Sanders, Jasper

AU - Beringer, Dennis X

AU - Straetemans, Trudy

AU - Sebestyen, Zsolt

AU - Kuball, Jürgen

N1 - Funding Information: Funding for this study was provided by ZonMW 43400003 and VIDI-ZonMW 917.11.337, KWF UU 2010-4669, UU 2013-6426, UU 2014-6790, and UU 2015-7601, UU 2018-11393, UU 2018-11979, UU 2020-12586, and UU 2021-13043 to JK. Publisher Copyright: Copyright © 2022 Vyborova, Janssen, Gatti, Karaiskaki, Yonika, van Dooremalen, Sanders, Beringer, Straetemans, Sebestyen and Kuball.

PY - 2022/7/7

Y1 - 2022/7/7

N2 - γ9δ2T cells fill a distinct niche in human immunity due to the unique physiology of the phosphoantigen-reactive γ9δ2TCR. Here, we highlight reproducible TCRδ complementarity-determining region 3 (CDR3δ) repertoire patterns associated with γ9δ2T cell proliferation and phenotype, thus providing evidence for the role of the CDR3δ in modulating in vivo T-cell responses. Features that determine γ9δ2TCR binding affinity and reactivity to the phosphoantigen-induced ligand in vitro appear to similarly underpin in vivo clonotypic expansion and differentiation. Likewise, we identify a CDR3δ bias in the γ9δ2T cell natural killer receptor (NKR) landscape. While expression of the inhibitory receptor CD94/NKG2A is skewed toward cells bearing putative high-affinity TCRs, the activating receptor NKG2D is expressed independently of the phosphoantigen-sensing determinants, suggesting a higher net NKR activating signal in T cells with TCRs of low affinity. This study establishes consistent repertoire-phenotype associations and justifies stratification for the T-cell phenotype in future research on γ9δ2TCR repertoire dynamics.

AB - γ9δ2T cells fill a distinct niche in human immunity due to the unique physiology of the phosphoantigen-reactive γ9δ2TCR. Here, we highlight reproducible TCRδ complementarity-determining region 3 (CDR3δ) repertoire patterns associated with γ9δ2T cell proliferation and phenotype, thus providing evidence for the role of the CDR3δ in modulating in vivo T-cell responses. Features that determine γ9δ2TCR binding affinity and reactivity to the phosphoantigen-induced ligand in vitro appear to similarly underpin in vivo clonotypic expansion and differentiation. Likewise, we identify a CDR3δ bias in the γ9δ2T cell natural killer receptor (NKR) landscape. While expression of the inhibitory receptor CD94/NKG2A is skewed toward cells bearing putative high-affinity TCRs, the activating receptor NKG2D is expressed independently of the phosphoantigen-sensing determinants, suggesting a higher net NKR activating signal in T cells with TCRs of low affinity. This study establishes consistent repertoire-phenotype associations and justifies stratification for the T-cell phenotype in future research on γ9δ2TCR repertoire dynamics.

KW - CD94/ NKG2A(B)

KW - CDR3d

KW - NKG2D

KW - adult Vd2 repertoire

KW - differentiation profile

KW - human g9d2 T cells

KW - public clonotypes

KW - CDR3δ

KW - human γ9δ2 T cells

KW - adult Vδ2 repertoire

KW - CD94/NKG2A(B)

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U2 - 10.3389/fimmu.2022.915366

DO - 10.3389/fimmu.2022.915366

M3 - Article

C2 - 35874769

SN - 1664-3224

VL - 13

SP - 1

EP - 13

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 915366

ER -

γ9δ2 T-Cell Expansion and Phenotypic Profile Are Reflected in the CDR3δ Repertoire of Healthy Adults

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