scholarly journals γδ T Cells Provide an Early Source of Interferon γ in Tumor Immunity

2003 ◽  
Vol 198 (3) ◽  
pp. 433-442 ◽  
Author(s):  
Yunfei Gao ◽  
Wancai Yang ◽  
Meng Pan ◽  
Eileen Scully ◽  
Michael Girardi ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Tumor Immunity ◽  
Fetal Liver ◽  
Tumor Development ◽  
Γδ T Cells ◽  
Γδ T Cell ◽  
Ifn Γ ◽  
Αβ T Cells ◽  
Early Source

Interferon (IFN)-γ is necessary for tumor immunity, however, its initial cellular source is unknown. Because γδ T cells primarily produce this cytokine upon activation, we hypothesized that they would provide an important early source of IFN-γ in tumor immunosurveillance. To address this hypothesis, we first demonstrated that γδ T cell–deficient mice had a significantly higher incidence of tumor development after challenge with a chemical carcinogen methylcholanthrene (MCA) or inoculation with the melanoma cell line B16. In wild-type mice, γδ T cells were recruited to the site of tumor as early as day 3 after inoculation, followed by αβ T cells at day 5. We then used bone marrow chimeras and fetal liver reconstitutions to create mice with an intact γδ T cell repertoire but one that was specifically deficient in the capacity to produce IFN-γ. Such mice had a higher incidence of tumor development, induced either with MCA or by inoculation of B16 melanoma cells, compared with mice with IFN-γ–competent γδ T cells. Moreover, genetic deficiency of γδ T cells resulted in impaired IFN-γ production by tumor antigen-triggered αβ T cell upon immunization with tumor lysate. These results demonstrate that γδ T cells can play a necessary role in tumor immunity through provision of an early source of IFN-γ that in turn may regulate the function of tumor-triggered αβ T cells.

CD56+ human blood dendritic cells effectively promote TH1-type γδ T-cell responses

Blood ◽  
2009 ◽  
Vol 114 (20) ◽  
pp. 4422-4431 ◽  
Author(s):  
Georg Gruenbacher ◽  
Hubert Gander ◽  
Andrea Rahm ◽  
Walter Nussbaumer ◽  
Nikolaus Romani ◽  
...  
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
T Cell ◽  
Human Blood ◽  
Γδ T Cells ◽  
Rapid Expansion ◽  
Γδ T Cell ◽  
Hla Dr ◽  
Tnf Α ◽  
Ifn Γ

Abstract CD56+ human dendritic cells (DCs) have recently been shown to differentiate from monocytes in response to GM-CSF and type 1 interferon in vitro. We show here that CD56+ cells freshly isolated from human peripheral blood contain a substantial subset of CD14+CD86+HLA-DR+ cells, which have the appearance of intermediate-sized lymphocytes but spontaneously differentiate into enlarged DC-like cells with substantially increased HLA-DR and CD86 expression or into fully mature CD83+ DCs in response to appropriate cytokines. Stimulation of CD56+ cells containing both DCs and abundant γδ T cells with zoledronate and interleukin-2 (IL-2) resulted in the rapid expansion of γδ T cells as well as in IFN-γ, TNF-α, and IL-1β but not in IL-4, IL-10, or IL-17 production. IFN-γ, TNF-α, and IL-1β production were almost completely abolished by depleting CD14+ cells from the CD56+ subset before stimulation. Likewise, depletion of CD14+ cells dramatically impaired γδ T-cell expansion. IFN-γ production could also be blocked by neutralizing the effects of endogenous IL-1β and TNF-α. Conversely, addition of recombinant IL-1β, TNF-α, or both further enhanced IFN-γ production and strongly up-regulated IL-6 production. Our data indicate that CD56+ DCs from human blood are capable of stimulating CD56+ γδ T cells, which may be harnessed for immunotherapy.

scholarly journals αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression

2021 ◽  
Vol 11 (9) ◽  
pp. 923
Author(s):  
Josephine G. M. Strijker ◽  
Ronja Pscheid ◽  
Esther Drent ◽  
Jessica J. F. van der Hoek ◽  
Bianca Koopmans ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Transcriptional Profiling ◽  
Γδ T Cells ◽  
Cell Receptor ◽  
Target Cells ◽  
Γδ T Cell ◽  
Mhc I ◽  
Organization Analysis ◽  
Αβ T Cells

Currently ~50% of patients with a diagnosis of high-risk neuroblastoma will not survive due to relapsing or refractory disease. Recent innovations in immunotherapy for solid tumors are highly promising, but the low MHC-I expression of neuroblastoma represents a major challenge for T cell-mediated immunotherapy. Here, we propose a novel T cell-based immunotherapy approach for neuroblastoma, based on the use of TEG002, αβ-T cells engineered to express a defined γδ-T cell receptor, which can recognize and kill target cells independent of MHC-I. In a co-culture killing assay, we showed that 3 out of 6 neuroblastoma organoids could activate TEG002 as measured by IFNγ production. Transcriptional profiling showed this effect correlates with an increased activity of processes involved in interferon signaling and extracellular matrix organization. Analysis of the dynamics of organoid killing by TEG002 over time confirmed that organoids which induced TEG002 activation were efficiently killed independent of their MHC-I expression. Of note, efficacy of TEG002 treatment was superior to donor-matched untransduced αβ-T cells or endogenous γδ-T cells. Our data suggest that TEG002 may be a promising novel treatment option for a subset of neuroblastoma patients.

scholarly journals An innate-like Vδ1+ γδ T cell compartment in the human breast is associated with remission in triple-negative breast cancer

2019 ◽  
Vol 11 (513) ◽  
pp. eaax9364 ◽  
Author(s):  
Yin Wu ◽  
Fernanda Kyle-Cezar ◽  
Richard T. Woolf ◽  
Cristina Naceur-Lombardelli ◽  
Julie Owen ◽  
...  
Keyword(s):  
Breast Cancer ◽  
T Cells ◽  
T Cell ◽  
Triple Negative Breast Cancer ◽  
Triple Negative ◽  
Γδ T Cells ◽  
Γδ T Cell ◽  
Human Breast ◽  
Cell Compartment ◽  
Αβ T Cells

Innate-like tissue-resident γδ T cell compartments capable of protecting against carcinogenesis are well established in mice. Conversely, the degree to which they exist in humans, their potential properties, and their contributions to host benefit are mostly unresolved. Here, we demonstrate that healthy human breast harbors a distinct γδ T cell compartment, primarily expressing T cell receptor (TCR) Vδ1 chains, by comparison to Vδ2 chains that predominate in peripheral blood. Breast-resident Vδ1+ cells were functionally skewed toward cytolysis and IFN-γ production, but not IL-17, which has been linked with inflammatory pathologies. Breast-resident Vδ1+ cells could be activated innately via the NKG2D receptor, whereas neighboring CD8+ αβ T cells required TCR signaling. A comparable population of Vδ1+ cells was found in human breast tumors, and when paired tumor and nonmalignant samples from 11 patients with triple-negative breast cancer were analyzed, progression-free and overall survival correlated with Vδ1+ cell representation, but not with either total γδ T cells or Vδ2+ T cells. As expected, progression-free survival also correlated with αβ TCRs. However, whereas in most cases TCRαβ repertoires focused, typical of antigen-specific responses, this was not observed for Vδ1+ cells, consistent with their innate-like responsiveness. Thus, maximal patient benefit may accrue from the collaboration of innate-like responses mounted by tissue-resident Vδ1+ compartments and adaptive responses mounted by αβ T cells.

Recovery Of Gamma/Delta+ T Cells After Transplantation With Alpha-Beta+/CD19+ Lymphocyte Depleted Hematopoietic Stem Cells From HLA-Haploidentical Donors

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 3245-3245
Author(s):  
Irma Airoldi ◽  
Ignazia Prigione ◽  
Alice Bertaina ◽  
Claudia Cocco ◽  
Daria Pagliara ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Zoledronic Acid ◽  
Γδ T Cells ◽  
Leukemia Cells ◽  
Γδ T Cell ◽  
Hematopoietic Stem ◽  
Functional Studies ◽  
Αβ T Cells ◽  
Over Time

Abstract HLA-haploidentical hematopoietic stem cell transplantation (HSCT) using CD34+ selected cells is a widely used procedure, which, however, is complicated by delayed immune reconstitution. We recently developed a new method of graft manipulation based on the physical removal of αβ+ T cells and CD19+ B cells, which permits to leave mature natural killer (NK) cells and γδ+ T cells in the graft. These cells can exert a graft-versus-leukemia (GvL) effect and reduce the risk of infection. In particular, unconventional γδ T cells play a critical role in both innate and adaptive immunity and exert HLA-unrestricted cytotoxicity against both solid and hematological tumors, thus potentially acting as beneficial effector cells in transplanted patients. Moreover, such grafts may limit the risk of graft-versus-host disease and prevent EBV-related lymphoproliferative disease. We performed phenotypic and functional studies on γδ T cells collected from 20 pediatric patients (pts, 13 males, 7 females, median age 10 years, range 6 months to 16 years) that received this type of allograft. Eighteen pts had acute leukemia and 2 non-malignant disorders. Ex vivo assays of peripheral blood γδ T cell phenotype and function were performed weekly until Hospital discharge and monthly until 6 months after HSCT. Phenotype of γδ T cells was analysed by flow cytometry. Analyses were performed on mononuclear cells labelled with mAb panels (CD3, CD45, pan-γδ, anti-Vδ1, -Vδ2, -Vγ9, CD45RO, CD45RA, CD27, CD16, CD56) allowing the identification of the main γδ+ T cell subsets, including Vδ1+ and Vδ2+ cells, naïve, central memory (CM), effector memory (EM) and terminally differentiated (TD) γδ T cells. Functional studies were performed using γδ T cells shortly after collection from pts, as well as after in vitro expansion with zoledronic acid and IL-2 for 10 days. Cytotoxic activity of γδ T cells was tested against primary leukemia cells, through CD107a degranulation assay and/or standard 51Cr-release assay. In the first 4 weeks after HSCT, T cells were consistently of the γδ subset (>90% of CD45+CD3+ cells); by contrast, αβ+ T cells gradually increased over time. In approximately half of the pts, the percentage of αβ T cells exceeded that of γδ T cells already starting from 30 days after HSCT. γδ T cells consisted of Vδ2+Vγ9+ and Vδ1+Vγ9+/- cells, and marginally of the Vδ1-Vδ2-Vγ9- population. Detailed phenotypic characterization of Vδ1+ and Vδ2+ γδ T cells revealed that, at day +20 after HSCT, 44% of Vδ1+ cells were CM (identified as CD45RO+CD27+ cells), 26% naïve (CD45RO-CD27+), 21.4% TD (CD45RO-CD27-) and 6.1% EM (CD45RO+CD27-). Similarly, 55.4% of Vδ2+ γδ T lymphocytes were CM, 9.8% naïve, 11.4% TD and 23.1% EM. The proportion of the different Vδ2+ γδ T cell subset did not change significantly over time, especially when comparing that present at day +20 after HSCT (time point, TP1) with that measured 30 days after the attainment of a 1:1 ratio of αβ-to- γδ T cells (TP2) (Figure 1, left panel). By contrast, by comparing TP1 and TP2, we found that Vδ1+ CM γδ T cells decreased and EM cells increased over time, while naïve or TD Vδ1+ γδ T cells did not change (Figure 1, right panel). In transplanted pts experiencing cytomegalovirus (CMV) reactivation, γδ T cells mostly consisted of Vδ1+ cells (mean 59.8% of γδ T cells), among which 49% were TD, 22.7% EM, 18.9% CM and 10.1% naïve. Noteworthy, in transplanted pts who did not have CMV reactivation, the main γδ T cells showed a Vδ2+ phenotype. Functional studies revealed that pt-derived γδ T cells consistently expanded in vitro after exposure to zoledronic acid and IL-2, the resulting Vγ9Vδ2 population expressing mainly an EM phenotype. These Vγ9Vδ2 cells exerted cytotoxic activities against primary allogeneic leukemia cells, especially when leukemia cells were pre-treated with zoledronic acid (Figure 2). More importantly, both Vδ1+ and Vδ2+ γδ T cells obtained from transplanted pts showed cytotoxic activity against primary leukemia cells, as assessed by CD107a degranulation assay. In conclusion, we provide the first phenotypic and functional characterization of γδ T cells, analyzed over time in children transplanted with grafts depleted of αβ+ T cells and of B lymphocytes. Our results support the concept that γδ T cells are important effector cells, which can be expanded and activated after exposure to bisphosphonates and IL-2 with the aim of improving their killing capacity against leukemia cells. Disclosures: No relevant conflicts of interest to declare.

Quantitative and Functional Alterations of the Gamma Delta T-Cell Subset within Follicular Lymphoma Microenvironment.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 2601-2601
Author(s):  
Sophie de Guibert ◽  
Jean-Baptiste Thibert ◽  
Céline Bonnaventure ◽  
Patricia Ame-Thomas ◽  
Céline Pangault ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Follicular Lymphoma ◽  
Peripheral Blood ◽  
Γδ T Cells ◽  
Γδ T Cell ◽  
Ifn Γ ◽  
Nonpeptide Antigens

Abstract T cells carrying a γδ TCR account for less than 5% of CD3pos T cells in healthy individuals but are key effectors of innate immunity through the recognition of some unprocessed nonpeptide antigens of both self and foreign origin. Whereas the Vδ2 subpopulation represents more than 70% of peripheral blood γδ T cells, the Vδ1 subset is mainly located in the mucosal tissue. Increasing evidence suggest that γδ T cells have potent antitumor activity and are implicated in the defense against some haematological and epithelial malignancies. Moreover, Vδ2 T cells constitute an attractive immunotherapy strategy since they could be expanded and activated both in vivo and in vitro using synthetic phosphoantigens and aminobiphosphonates. Such strategies are currently tested in preliminary clinical trials, notably in follicular lymphoma (FL). However, an exhaustive phenotypic and functional characterisation of γδ T cells in this disease, including tumor infiltration, is still lacking. We first explored the composition of FL microenvironment using a multicolour flow cytometry analysis. We observed a significant decrease in the percentage of myeloid (LinnegCD11cposHLADRpos) and plasmacytoid (LinnegCD123posHLADRpos) dendritic cells (P = .0011 and P < .0001, respectively) in FL compared to normal secondary lymphoid organs. In addition, among CD3pos T cells, the proportion of follicular helper T cells (CD4posCXCR5posICOShi) was increased (P = .001) whereas regulatory T-cell (CD4posCD25posfoxp3pos) frequency was not altered. When considering the γδ T-cell compartment, we first highlighted a reduction of the Vδ2 subset in normal tonsils (Vδ2 = 23.48 ± 0.15% of γδ T cells, n = 11) when compared with peripheral blood. Remaining non-δ2 γδT cells were predominantly δ1 T cells. More importantly, infiltrating γδ T cells were significantly decreased in lymph node biopsies from FL patients (mean = 0.48 ± 0.4% of CD3pos T cells; n = 27) when compared both to normal tonsils (mean = 2.49 ± 1.6% of CD3pos T cells; n = 33) (P < .0001) and reactive lymph nodes (mean = 2.64 ± 2.6% of CD3pos T cells; n = 9) (P = .0009). This reduction affected both the Vδ1 and Vδ2 T-cell subsets. The functionality of γδ T cells was then assessed by the measurement of cell expansion and production of IFN-γ upon stimulation with the isopentenyl pyrophosphate (IPP) phosphoantigen. Amplification rate in vitro reached 14.6 ± 4.6 fold in tonsils (n = 10) but only 4.36 ± 1.9 fold in FL samples (n = 7) (P < .002) after 5 days of culture in the presence of IPP + IL-2 + IL-15. When focusing on the δ2 subset, this difference was further increased with a 40-fold amplification in tonsil and a 3-fold amplification in FL samples (P = .0004). Evaluation of IFN-γ production using ELISPOT assay revealed a high heterogeneity among tumor samples since 1 to 40% of δ2 T cells were able to respond to IPP stimulation (n = 7). Preliminary data argued for an association between the quantity and the functionality of γδ T cells in FL tumors. In conclusion, we reported an alteration of γδ T cell frequency and functionality within FL tumor niche. The next purpose will be to correlate these in vitro defects with in vivo clinical responses to immunotherapy strategies targeting γδ T cells.

scholarly journals Genetic models reveal origin, persistence and non-redundant functions of IL-17–producing γδ T cells

2018 ◽  
Vol 215 (12) ◽  
pp. 3006-3018 ◽  
Author(s):  
Inga Sandrock ◽  
Annika Reinhardt ◽  
Sarina Ravens ◽  
Christoph Binz ◽  
Anneke Wilharm ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Diphtheria Toxin ◽  
Γδ T Cells ◽  
Γδ T Cell ◽  
Fetal Thymus ◽  
Effector Cells ◽  
Cell Functions ◽  
Ifn Γ ◽  
Redundant Functions

γδ T cells are highly conserved in jawed vertebrates, suggesting an essential role in the immune system. However, γδ T cell–deficient Tcrd−/− mice display surprisingly mild phenotypes. We hypothesized that the lack of γδ T cells in constitutive Tcrd−/− mice is functionally compensated by other lymphocytes taking over genuine γδ T cell functions. To test this, we generated a knock-in model for diphtheria toxin–mediated conditional γδ T cell depletion. In contrast to IFN-γ–producing γδ T cells, IL-17–producing γδ T cells (Tγδ17 cells) recovered inefficiently after depletion, and their niches were filled by expanding Th17 cells and ILC3s. Complementary genetic fate mapping further demonstrated that Tγδ17 cells are long-lived and persisting lymphocytes. Investigating the function of γδ T cells, conditional depletion but not constitutive deficiency protected from imiquimod-induced psoriasis. Together, we clarify that fetal thymus-derived Tγδ17 cells are nonredundant local effector cells in IL-17–driven skin pathology.

scholarly journals Single-cell analysis reveals the origins and intrahepatic development of liver-resident IFN-γ-producing γδ T cells

2021 ◽  
Vol 18 (4) ◽  
pp. 954-968
Author(s):  
Yuan Hu ◽  
Keke Fang ◽  
Yanan Wang ◽  
Nan Lu ◽  
Haoyu Sun ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Single Cell ◽  
Adoptive Transfer ◽  
Γδ T Cells ◽  
Developmental Trajectory ◽  
Γδ T Cell ◽  
Developmental Pathway ◽  
Hematopoietic Progenitor ◽  
Ifn Γ

Abstractγδ T cells are heterogeneous lymphocytes located in various tissues. However, a systematic and comprehensive understanding of the origins of γδ T cell heterogeneity and the extrathymic developmental pathway associated with liver γδ T cells remain largely unsolved. In this study, we performed single-cell RNA sequencing (scRNA-seq) to comprehensively catalog the heterogeneity of γδ T cells derived from murine liver and thymus samples. We revealed the developmental trajectory of γδ T cells and found that the liver contains γδ T cell precursors (pre-γδ T cells). The developmental potential of hepatic γδ T precursor cells was confirmed through in vitro coculture experiments and in vivo adoptive transfer experiments. The adoptive transfer of hematopoietic progenitor Lin−Sca-1+Mac-1+ (LSM) cells from fetal or adult liver samples to sublethally irradiated recipients resulted in the differentiation of liver LSM cells into pre-γδ T cells and interferon-gamma+ (IFN-γ+) but not interleukin-17a+ (IL-17a+) γδ T cells in the liver. Importantly, thymectomized mouse models showed that IFN-γ-producing γδ T cells could originate from liver LSM cells in a thymus-independent manner. These results suggested that liver hematopoietic progenitor LSM cells were able to differentiate into pre-γδ T cells and functionally mature γδ T cells, which implied that these cells are involved in a distinct developmental pathway independent of thymus-derived γδ T cells.

scholarly journals Critical role for Slam/SAP signaling in the thymic developmental programming of IL-17- and IFN-γ-producing γδ T cells

2019 ◽  
Author(s):  
Oliver Dienz ◽  
Victoria L. DeVault ◽  
Shawn C. Musial ◽  
Somen K. Mistri ◽  
Linda Mei ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Signaling Pathway ◽  
Functional Programming ◽  
Γδ T Cells ◽  
T Cell Subsets ◽  
Γδ T Cell ◽  
Thymic Development ◽  
Slam Family ◽  
Ifn Γ

AbstractDuring thymic development, γδ T cells commit to either an IFN-γ- or an IL-17-producing phenotype through mechanisms that remain unclear. Here, we investigated whether the SLAM/SAP signaling pathway played a role in the functional programming of thymic γδ T cells. Characterization of SLAM family receptor expression revealed that thymic γδ T cell subsets were each marked by distinct co-expression profiles of SLAMF1, SLAMF4, and SLAMF6. In the thymus, immature CD24hiVγ1 and Vγ4 γδ T cells were largely contained within a SLAMF1+SLAMF6+double positive (DP) population, while mature CD24lowsubsets were either SLAMF1+or SLAMF6+single positive (SP) cells. In the periphery, SLAMF1 and SLAMF6 expression on Vγ1, Vγ4, and Vγ6 T cells distinguished IL-17- and IFN-γ-producing subsets, respectively. Disruption of SLAM family receptor signaling through deletion of SAP resulted in impaired thymic γδ T cell maturation at the CD24hiSLAMF1+SLAMF6+DP stage that was associated with a decreased frequency of CD44+RORγt+γδ T cells. These defects were in turn associated with impaired γδ T cell IL-17 and IFN-γ production in both the thymus as well as in peripheral tissues. The role for SAP was subset-specific, as Vγ1, Vγ4, Vγ5, but not Vγ6 subsets were SAP-dependent. Together, these data suggest that the SLAM/SAP signaling pathway regulates a critical checkpoint in the functional programming of IL-17 and IFN-γ-producing γδ T cell subsets during thymic development.

scholarly journals γδ T Cells but Not NK Cells Are Essential for Cell-Mediated Immunity against Plasmodium chabaudi Malaria

2010 ◽  
Vol 78 (10) ◽  
pp. 4331-4340 ◽  
Author(s):  
William P. Weidanz ◽  
GayeLyn LaFleur ◽  
Andrew Brown ◽  
James M. Burns ◽  
Irene Gramaglia ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Nk Cells ◽  
Nk Cell ◽  
Γδ T Cells ◽  
Cell Mediated Immunity ◽  
Γδ T Cell ◽  
Plasmodium Chabaudi ◽  
Ifn Γ ◽  
Time Courses

ABSTRACT Blood-stage Plasmodium chabaudi infections are suppressed by antibody-mediated immunity and/or cell-mediated immunity (CMI). To determine the contributions of NK cells and γδ T cells to protective immunity, C57BL/6 (wild-type [WT]) mice and B-cell-deficient (JH−/− ) mice were infected with P. chabaudi and depleted of NK cells or γδ T cells with monoclonal antibody. The time courses of parasitemia in NK-cell-depleted WT mice and JH−/− mice were similar to those of control mice, indicating that deficiencies in NK cells, NKT cells, or CD8+ T cells had little effect on parasitemia. In contrast, high levels of noncuring parasitemia occurred in JH−/− mice depleted of γδ T cells. Depletion of γδ T cells during chronic parasitemia in B-cell-deficient JH−/− mice resulted in an immediate and marked exacerbation of parasitemia, suggesting that γδ T cells have a direct killing effect in vivo on blood-stage parasites. Cytokine analyses revealed that levels of interleukin-10, gamma interferon (IFN-γ), and macrophage chemoattractant protein 1 (MCP-1) in the sera of γδ T-cell-depleted mice were significantly (P < 0.05) decreased compared to hamster immunoglobulin-injected controls, but these cytokine levels were similar in NK-cell-depleted mice and their controls. The time courses of parasitemia in CCR2−/− and JH−/− × CCR2−/− mice and in their controls were nearly identical, indicating that MCP-1 is not required for the control of parasitemia. Collectively, these data indicate that the suppression of acute P. chabaudi infection by CMI is γδ T cell dependent, is independent of NK cells, and may be attributed to the deficient IFN-γ response seen early in γδ T-cell-depleted mice.

scholarly journals Human γδ TCR Repertoires in Health and Disease

Cells ◽  
2020 ◽  
Vol 9 (4) ◽  
pp. 800 ◽  
Author(s):  
Alina Suzann Fichtner ◽  
Sarina Ravens ◽  
Immo Prinz
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Cell Receptor ◽  
Γδ T Cells ◽  
Cell Receptor ◽  
Γδ T Cell ◽  
Tcr Repertoire ◽  
Repertoire Diversity ◽  
Health And Disease ◽  
Αβ T Cells

The T cell receptor (TCR) repertoires of γδ T cells are very different to those of αβ T cells. While the theoretical TCR repertoire diversity of γδ T cells is estimated to exceed the diversity of αβ T cells by far, γδ T cells are still understood as more invariant T cells that only use a limited set of γδ TCRs. Most of our current knowledge of human γδ T cell receptor diversity builds on specific monoclonal antibodies that discriminate between the two major subsets, namely Vδ2+ and Vδ1+ T cells. Of those two subsets, Vδ2+ T cells seem to better fit into a role of innate T cells with semi-invariant TCR usage, as compared to an adaptive-like biology of some Vδ1+ subsets. Yet, this distinction into innate-like Vδ2+ and adaptive-like Vδ1+ γδ T cells does not quite recapitulate the full diversity of γδ T cell subsets, ligands and interaction modes. Here, we review how the recent introduction of high-throughput TCR repertoire sequencing has boosted our knowledge of γδ T cell repertoire diversity beyond Vδ2+ and Vδ1+ T cells. We discuss the current understanding of clonal composition and the dynamics of human γδ TCR repertoires in health and disease.

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