αβ Lineage-committed thymocytes can be rescued by the γδ T cell receptor (TCR) in the absence of TCR β chain

Commitment of the αβ and γδ T cell lineages within the thymus has been studied in T cell receptor (TCR)-transgenic and TCR mutant murine strains. TCRγδ-transgenic or TCRβ knockout mice, both of which are unable to generate TCRαβ-positive T cells, develop phenotypically αβ-like thymocytes in significant proportions. We provide evidence that in the absence of functional TCRβ protein, the γδTCR can promote the development of αβ-like thymocytes, which, however, do not expand significantly and do not mature into γδ T cells. These results show that commitment to the αβ lineage can be determined independently of the isotype of the TCR, and suggest that αβ versus γδ T cell lineage commitment is principally regulated by mechanisms distinct from TCR-mediated selection. To accommodate our data and those reported previously on the effect of TCRγ and δ gene rearrangements on αβ T cell development, we propose a model in which lineage commitment occurs independently of TCR gene rearrangement.     

Modulation of γδ T‐cell activation by neutrophil elastase

γδ T cells are non‐conventional, innate‐like T cells, characterized by a restricted T‐cell receptor repertoire. They participate in protective immunity responses against extracellular and intracellular pathogens, tumour surveillance, modulation of innate and adaptive immune responses, tissue healing, epithelial cell maintenance and regulation of physiological organ function. In this study, we investigated the role of neutrophils during the activation of human blood γδ T cells through CD3 molecules. We found that the up‐regulation of CD69 expression, and the production of interferon‐γ and tumour necrosis factor‐α induced by anti‐CD3 antibodies was potentiated by neutrophils. We found that inhibition of caspase‐1 and neutralization of interleukin‐18 did not affect neutrophil‐mediated modulation. By contrast, the treatment with serine protease inhibitors prevented the potentiation of γδ T‐cell activation induced by neutrophils. Moreover, the addition of elastase to γδ T‐cell culture increased their stimulation, and the treatment of neutrophils with elastase inhibitor prevented the effect of neutrophils on γδ T‐cell activation. Furthermore, we demonstrated that the effect of elastase on γδ T cells was mediated through the protease‐activated receptor, PAR1, because the inhibition of this receptor with a specific antagonist, RWJ56110, abrogated the effect of neutrophils on γδ T‐cell activation.     

The major diversification of Vγ1.1+ and Vγ2+ thymocytes in mice occurs after commitment to the γδ T‐cell lineage

γδ T cells are a heterogeneous cell population with different subsets playing specialized and often opposing roles during immune responses. A key question is whether γδ thymocytes are determined for their effector function already at an early stage, before their commitment to the γδ T‐cell lineage, or are instructed during their later development. Here, we show that the adult Vγ1.1⁺ and Vγ2⁺ γδ T‐cell subsets both go through a CD73⁺CD24⁺ development stage, and that the gene regulation involved in lineage commitment is shared by both subsets. We demonstrate that the major subset diversification first occurs after the cells have committed to the γδ T‐cell lineage, strongly supporting an instructive model for functional programming of γδ T cells. In conclusion, we show that the two major adult γδ T‐cell subsets in mice develop through a shared pathway utilizing similar cellular machinery and that they diverge after the CD24⁺CD73⁺ maturity stage.     

Changes in thymic export of γδ and αβ T cells during fetal and postnatal development

The thymus plays an essential role in the generation and selection of T cells and exports approximately 0.5–1% of thymocytes per day in young animals and considerably fewer in older animals. To date there have been no studies directly examining fetal thymic export in any species. Using the technique of intrathymic injection of fluorescein isothiocyanate, followed by an assay for green fluorescent cells in the periphery and for the expression of cell surface antigens on these cells, we have compared directly the export of T cells from the fetal and postnatal ovine thymus. While the thymus exports both αβ and γδ T cells, our results demonstrate that the proportion of thymic γδ T cells that are exported per day is much higher than that of thymic αβ T cells. Moreover, the export rate of γδ T cells increased from approximately 1 in every 60 γδ thymocytes per day emigrating from the fetal thymus to 1 in every 20 from the postnatal thymus. In addition, we identify a population of CD5⁺CD4^?CD8^?γδ^? T cells emigrating from the fetal thymus but greatly reduced among thymic emigrants after birth. These findings have several implications regarding the mechanisms and control of selection of both γδ and αβ T cells.     

The homogeneity of the TCRδ repertoire expressed by the Thy-1dull γ δ T cell population is due to cellular selection

Thy-1^dull γ δ T cells are an unusual subset of mature TCRγ δ T cells characterized by their highly restricted TCR repertoire. In DBA/2 mice, they predominantly express the product of the Vγ1 gene together with that of a member of the Vδ6 subfamily (the Vδ6.4 gene) and their junctional sequences show very little diversity. To address the mechanisms underlying the expression of the restricted TCRγ δ repertoire, we have cloned all Vδ6 subfamily members present in DBA/2 mice and studied their frequency of expression in Thy-1^dull and Thy-1^bright γ δ thymocyte populations. Furthermore, we have also cloned non-functional Vδ6DδJδ1 rearrangements present in the Thy-1^dull γ δ T cell population and compared their Vδ6 gene utilization and their junctional sequences with those expressed by this population. Our results indicate that the restricted TCRδ repertoire expressed by the Thy-1^dull γ δ thymocytes results from cellular selection, rather than molecular constraints suggesting the existence of a limited set of self-ligands. Finally, phenotypic, functional and TCRγ δ repertoire analysis of Thy-1^dull γ δ T cells in β2 -microglobulin (β₂m)-deficient mice indicated that these putative ligands are not β₂m-dependent major histocompatibility complex class I or class I-like molecules.     

γδ T‐cell conference 2012: Close encounters for the fifth time

The fifth international γδ T‐cell conference was held in Freiburg, Germany, from May 31 to June 2, 2012, bringing together approximately 170 investigators from all over the world. The scientific program covered topics such as thymic development and the mechanisms of ligand recognition and activation, the interaction of γδ T cells with other immune and non‐immune cells and its implications for homeostasis, infection, tissue repair and autoimmunity, and the role of γδ T cells in malignancy and their potential for novel immunotherapies. Here we discuss a selection of the oral communications at the conference, and summarise exciting new findings in the field regarding the development, mode of antigen recognition, and responses to microorganisms, viruses and tumours by human and mouse γδ T cells.     

Liver distribution of γδ‐T‐cells in patients with chronic hepatitis of different etiology

The γδ T cells represent a minor unique T‐cell subpopulation long been considered as innate‐like immune cells. They are found in increased numbers in tissues from various inflammatory conditions. Their role in chronic hepatitis, however, is still discussed controversially. Fresh frozen tissues from 50 patients (18 cases hepatitis B infection, 25 hepatitis C, three cases with co‐infection of hepatitis B and C and four patients with autoimmune hepatitis) were investigated. Immunohistochemistry with primary antibodies detecting αβ and γδ TCR was used to evaluate their incidence and distribution in the different histological structures of the liver. The inflammatory infiltrate in all cases of chronic hepatitis was dominated by αβ T cells and was mainly localized in the portal tracts with formation of an interface hepatitis (95.3%αβ T cells; 4.7%γδ T cells). There were neither significant differences between inflammatory infiltrate nor the amount or percentage of γδ T cells between hepatitis B, C or autoimmune hepatitis. No accumulation of γδ T cells could be observed in cases of chronic hepatitis of different etiologies. The immune‐mediated phenomena in chronic hepatitis are dominated by αβ T cells. Thus, the adapted immune system is responsible for the inflammatory processes in chronic hepatitis.     

Neutrophils suppress γδ T‐cell function

γδ T cells have been shown to stimulate the recruitment and activation of neutrophils through the release of a range of cytokines and chemokines. Here, we investigated the reverse relationship, showing that human neutrophils suppress the function of human blood γδ T cells. We show that the upregulation of CD25 and CD69 expression, the production of IFN‐γ, and the proliferation of γδ T cells induced by (E)‐1‐hydroxy‐2‐methylbut‐2‐enyl 4‐diphosphate are inhibited by neutrophils. Spontaneous activation of γδ T cells in culture is also suppressed by neutrophils. We show that inhibitors of prostaglandin E2 and arginase I do not exert any effect, although, in contrast, catalase prevents the suppression of γδ T cells induced by neutrophils, suggesting the participation of neutrophil‐derived ROS. We also show that the ROS‐generating system xanthine/xanthine oxidase suppresses γδ T cells in a similar fashion to neutrophils, while neutrophils from chronic granulomatous disease patients only weakly inhibit γδ T cells. Our results reveal a bi‐directional cross‐talk between γδ T cells and neutrophils: while γδ T cells promote the recruitment and the activation of neutrophils to fight invading pathogens, neutrophils in turn suppress the activation of γδ T cells to contribute to the resolution of inflammation.     

Inhibition of murine γδ lymphocyte expansion and effector function by regulatory αβ T cells is cell‐contact‐dependent and sensitive to GITR modulation

γδ T cells are highly cytolytic lymphocytes that produce large amounts of pro‐inflammatory cytokines during immune responses to multiple pathogens. Furthermore, their ability to kill tumor cells has fueled the development of γδ‐T‐cell‐based cancer therapies. Thus, the regulation of γδ‐T‐cell activity is of great biological and clinical relevance. Here, we show that murine CD4⁺CD25⁺ αβ T cells, the vast majority of which express the Treg marker, Foxp3, abolish key effector functions of γδ T cells, namely the production of the pro‐inflammatory cytokines, IFN‐γ and IL‐17, cytotoxicity, and lymphocyte proliferation in vitro and in vivo. We further show that suppression is dependent on cellular contact between Treg and γδ T cells, results in the induction of an anergic state in γδ lymphocytes, and can be partially reversed by manipulating glucocorticoid‐induced TNF receptor‐related protein (GITR) signals. Our data collectively dissect a novel mechanism by which the expansion and pro‐inflammatory functions of γδ T cells are regulated.     

Changes in thymic export of L-selectin+ γδ and αβ T cells during fetal and postnatal development

We have used the technique of in situ intrathymic injection of fluorescein isothiocyanate to examine L-selectin expression on γδ and αβ T cells immediately after emigrating from the thymus of fetal and postnatal animals. We found that the percentage of L-selectin⁺ thymocytes exported per day decreased by half after birth and that the export of T cells from the thymus does not rely on expression of the peripheral lymph node homing receptor, L-selectin. Analysis of L-selectin on emigrant and mature T cell subsets revealed a remarkable heterogeneity of expression, both in terms of the numbers of cells expressing this molecule as well as the level of expression. γδ T cells, reportedly not having a propensity for homing to lymph nodes, not only contained the highest proportion of L-selectin⁺ cells, but also expressed far more of this molecule than either CD4⁺CD8^? or CD4^?CD8⁺ αβ T cells. Furthermore, those emigrant T cells expressing L-selectin are somewhat immature in their expression of this molecule. Subsequent maturation resulted in up-regulation of L-selectin on mature peripheral blood T cells, maturation that was clearly independent of extrinsic antigen. This antigen-independent post-thymic maturation appeared to occur as part of the normal progression from immature thymocyte to mature peripheral T cell in both fetal and postnatal animals.     

γδ T cells support gut Ag‐reactive colitogenic effector T‐cell generation by enhancing Ag presentation by CD11b+ DCs in the mesenteric LN

T cells expressing the γδ TCR are dominant T‐cell subsets in the intestinal immune system. We previously demonstrated that γδ T cells play important roles in augmenting Th17‐type colitogenic immune responses in a T‐cell‐induced colitic inflammation model. However, its underlying mechanism remains poorly understood. In this study, an in vitro coculture system using effector T cells enriched in gut Ag‐reactive cells was employed as a readout tool to search for gut Ag presenting APCs. We found that the presence of γδ T cells dramatically enhances gut Ag presentation within the mLN in mice. Gut Ag presentation by CD11b⁺ DC subsets was particularly controlled by γδ T cells. Interestingly, γδ T‐cell entry to the lymph nodes was essential to improve the Ag presentation. Therefore, our results highlight that γδ T cells play a previously unrecognized role to support colitogenic immunity by regulating gut Ag presentation in the draining LN.     

CD45RA expression on γδ and αβ T cells emigrating from the fetal and postnatal thymus

We have compared the expression of CD45RA on αβ and γδ T cells emigrating from the fetal and postnatal thymus. The fetal and postnatal thymus export both CD45RA⁺ and CD45RA^- T cells. The number of γδ⁺CD45RA⁺ T cells was remarkably constant regardless of stage of ontogeny or T cell maturity. Around 5--8% of γδ thymic emigrants, thymocytes and peripheral blood lymphocytes expressed CD45RA in both fetal and postnatal animals. In contrast to γδ T cells, up to one quarter of both fetal and postnatal αβ emigrants expressed CD45RA. Post-thymic maturation of CD45RA expression on αβ emigrants, which occurred both before and after birth, appeared to be antigen independent.     

Human γδ T Cells Express a Higher TCR/CD3 Complex Density Than αβ T Cells

The aim of our study was to compare CD3 expression on γδ T cells and αβ T cells in human patients. The antigen density of TCR and CD3 on both subsets was assessed by a quantitative method in eight patients. In parallel, we developed and validated a reliable direct tricolor staining protocol that we tested on samples from hospitalized and healthy individuals (n = 60). Our results demonstrate that human γδ T cells constitutively express approximately twofold more of the TCR/CD3 complex than αβ T cells. We suggest that this enhanced expression of the TCR/CD3 complex could contribute to the higher reactivity of γδ T cells compared to αβ T cells. These clinical laboratory results confirm the fundamental data described elsewhere. γδ T cells deserve further clinical investigations to understand their precise role in human immunity.     

Inhibition of R5‐tropic HIV type‐1 replication in CD4+ natural killer T cells by γδ T lymphocytes

After the development of highly active anti‐retroviral therapy, it became clear that the majority of emergent HIV‐1 is macrophage‐tropic and infects CD4⁺, CCR5‐expressing cells (R5‐tropic). There are three distinct cell populations, R5‐tropic, HIV‐1‐susceptible CD4⁺ cells: (i) natural killer T (NKT) cells, (ii) dendritic cells and macrophages, and (iii) tissue‐associated T cells residing primarily at mucosal surfaces. We have confirmed that CD4⁺ NKT cells derived from peripheral blood mononuclear cells (PBMCs) predominantly express CCR5 rather than CXCR4, whereas the reverse is true for CD4⁺ T cells derived from circulating PBMCs, and that R5‐tropic HIV‐1 expands efficiently in the CD4⁺ NKT cells. Moreover, when PBMCs depleted of CD8α⁺ cells were stimulated in the presence of α‐galactosylceramide (α‐GalCer) and R5‐tropic HIV‐1 [NL(AD8)], the production of HIV‐1 virions was not suppressed, whereas, similar to the untreated PBMCs, depletion of CD8β⁺ cells from PBMCs significantly inhibited virion production. These findings suggest that CD8αα⁺ but not CD8αβ⁺ cells may have the ability to inhibit R5‐tropic HIV‐1 replication in CD4⁺ NKT cells. Here, we show that co‐culturing R5‐tropic HIV‐1‐infected CD4⁺ NKT cells with CD8αα⁺ γδ T cells, in particular Vγ1Vδ1 cells, but not with CD8αα⁺ NKT cells or CD8αα⁺ dendritic cells, inhibits HIV‐1 replication mainly by secreting chemokines, such as macrophage inflammatory proteins 1α and 1β and RANTES. Collectively, these results indicate the importance of CD8αα⁺ γδ T cells in the control of R5‐tropic HIV‐1 replication and persistence in CD4⁺ NKT cells.     

CCR7‐mediated migration in the thymus controls γδ T‐cell development

αβ T‐cell development and selection proceed while thymocytes successively migrate through distinct regions of the thymus. For γδ T cells, the interplay of intrathymic migration and cell differentiation is less well understood. Here, we crossed C‐C chemokine receptor (CCR)7‐deficient (Ccr7^?/?) and CCR9‐deficient mice (Ccr9^?/?) to mice with a TcrdH2BeGFP reporter background to investigate the impact of thymic localization on γδ T‐cell development. γδ T‐cell frequencies and numbers were decreased in CCR7‐deficient and increased in CCR9‐deficient mice. Transfer of CCR7‐ or CCR9‐deficient BM into irradiated C57BL/6 WT recipients reproduced these phenotypes, pointing toward cell‐intrinsic migration defects. Monitoring recent thymic emigrants by intrathymic labeling allowed us to identify decreased thymic γδ T‐cell output in CCR7‐deficient mice. In vitro, CCR7‐deficient precursors showed normal γδ T‐cell development. Immunohistology revealed that CCR7 and CCR9 expression was important for γδ T‐cell localization within thymic medulla or cortex, respectively. However, γδ T‐cell motility was unaltered in CCR7‐ or CCR9‐deficient thymi. Together, our results suggest that proper intrathymic localization is important for normal γδ T‐cell development.     

α4β1 integrin promotes accumulation of tissue‐resident memory CD8+ T cells in salivary glands

The salivary glands (SGs) of virus‐immune mice contain substantial numbers of tissue‐resident memory CD8⁺ T cells (T_RM cells) that can provide immunity to local infections. Integrins regulate entry of activated T cells into nonlymphoid tissues but the molecules that mediate migration of virus‐specific CD8⁺ T cells to the SGs have not yet been defined. Here, we found that polyinosinic‐polycytidylic acid (poly(I:C)) strongly promoted the accumulation of P14 TCR‐transgenic CD8⁺ T_RM cells in SGs in an α₄β₁ integrin‐dependent manner. After infection with lymphocytic choriomeningitis virus, accumulation of P14 T_RM cells in SGs and intestine but not in kidney was also α₄ integrin dependent. Blockade of α₄β₇ by monoclonal antibodies (mAbs) inhibited lymphocytic choriomeningitis virus‐induced accumulation of P14 T_RM cells in the intestine but not in SGs. In conclusion, our data reveal that α₄β₁ integrin mediates CD8⁺ T_RM accumulation in SGs and that poly(I:C) can be used to direct activated CD8⁺ T cells to this organ.     

4–1BB signal stimulates the activation,expansion, and effector functions of γδ T cells in mice and humans

We show here that the expression of 4–1BB is rapidly induced in γδ T cells following antigenic stimulation in both mice and humans, and ligation of the newly acquired 4–1BB with an agonistic anti‐4–1BB augments cell division and cytokine production. We further demonstrate that γδ rather than αβ T cells protect mice from Listeria monocytogenes (LM) infection and 4–1BB stimulation enhances the γδ T‐cell activities in the acute phase of LM infection. IFN‐γ produced from γδ T cells was the major soluble factor regulating LM infection. Vγ1⁺ T cells were expanded in LM‐infected mice and 4–1BB signal triggered an exclusive expansion of Vγ1⁺ T cells and induced IFN‐γ in these Vγ1⁺ T cells. Similarly, 4–1BB was induced on human γδ T cells and shown to be fully functional. Combination treatment with human γδ T cells and anti‐hu4–1BB effectively protected against LM infection in human γδ T cell‐transferred NOD‐SCID mice. Taken together, these data provide evidence that the 4–1BB signal is an important regulator of γδ T cells and induces robust host defense against LM infection.