CD28 controls the development of innate‐like CD8+ T cells by promoting the functional maturation of NKT cells

NK T cells(NKT cells) share functional characteristics and homing properties that are distinct from conventional T cells. In this study, we investigated the contribution of CD28 in the functional development of γδ NKT and αβ NKT cells in mice. We show that CD28 promotes the thymic maturation of promyelocytic leukemia zinc finger⁺ IL‐4⁺ NKT cells and upregulation of LFA‐1 expression on NKT cells. We demonstrate that the developmental defect of γδ NKT cells in CD28‐deficient mice is cell autonomous. Moreover, we show in both wild‐type C57BL/6 mice and in downstream of tyrosine kinase‐1 transgenic mice, a mouse model with increased numbers of γδ NKT cells, that CD28‐mediated regulation of thymic IL‐4⁺ NKT cells promotes the differentiation of eomesodermin⁺ CD44^high innate‐like CD8⁺ T cells. These findings reveal a previously unappreciated mechanism by which CD28 controls NKT‐cell homeostasis and the size of the innate‐like CD8⁺ T‐cell pool.     

Positive selection of self‐antigen‐specific CD8+ T cells by hematopoietic cells

In contrast to thymic epithelial cells, which induce the positive selection of conventional CD8⁺ T cells, hematopoietic cells (HCs) select innate CD8⁺ T cells whose Ag specificity is not fully understood. Here we show that CD8⁺ T cells expressing an H‐Y Ag‐specific Tg TCR were able to develop in mice in which only HCs expressed MHC class I, when HCs also expressed the H‐Y Ag. These HC‐selected self‐specific CD8⁺ T cells resemble innate CD8⁺ T cells in WT mice in terms of the expression of memory markers and effector functions, but are phenotypically distinct from the thymus‐independent CD8⁺ T‐cell population. The peripheral maintenance of H‐Y‐specific CD8⁺ T cells required presentation of the self‐Ag and IL‐15 on HCs. HC‐selected CD8⁺ T cells in mice lacking the Tg TCR also showed these features. Furthermore, by using MHC class I tetramers with a male Ag peptide, we found that self‐Ag‐specific CD8⁺ T cells in TCR non‐Tg mice could develop via HC‐induced positive selection, supporting results obtained from H‐Y TCR Tg mice. These findings indicate the presence of self‐specific CD8⁺ T cells that are positively selected by HCs in the peripheral T‐cell repertoire.     

CCRL1/ACKR4 is expressed in key thymic microenvironments but is dispensable for T lymphopoiesis at steady state in adult mice

Thymus colonisation and thymocyte positioning are regulated by interactions between CCR7 and CCR9, and their respective ligands, CCL19/CCL21 and CCL25. The ligands of CCR7 and CCR9 also interact with the atypical receptor CCRL1 (also known as ACKR4), which is expressed in the thymus and has recently been reported to play an important role in normal αβT‐cell development. Here, we show that CCRL1 is expressed within the thymic cortex, predominantly by MHC‐II^lowCD40^? cortical thymic epithelial cells and at the subcapsular zone by a population of podoplanin⁺ thymic epithelial cells in mice. Interestingly, CCRL1 is also expressed by stromal cells which surround the pericytes of vessels at the corticomedullary junction, the site for progenitor cell entry and mature thymocyte egress from the thymus. We show that CCRL1 suppresses thymocyte progenitor entry into the thymus, however, the thymus size and cellularity are the same in adult WT and CCRL1^?/? mice. Moreover, CCRL1^?/? mice have no major perturbations in T‐cell populations at different stages of thymic differentiation and development, and have a similar rate of thymocyte migration into the blood. Collectively, our findings argue against a major role for CCRL1 in normal thymus development and function.     

Aire controls the recirculation of murine Foxp3+ regulatory T‐cells back to the thymus

In the thymus, medullary thymic epithelial cells (mTEC) determine the fate of newly selected CD4⁺ and CD8⁺ single positive (SP) thymocytes. For example, mTEC expression of Aire controls intrathymic self‐antigen availability for negative selection. Interestingly, alterations in both Foxp3⁺ Regulatory T‐cells (T‐Reg) and conventional SP thymocytes in Aire^?/? mice suggest additional, yet poorly understood, roles for Aire during intrathymic T‐cell development. To examine this, we analysed thymocytes from Aire^?/? mice using Rag2GFP and Foxp3 expression, and a recently described CD69/MHCI subset definition of post‐selection CD4⁺ conventional thymocytes. We show that while Aire is dispensable for de novo generation of conventional αβT‐cells, it plays a key role in controlling the intrathymic T‐Reg pool. Surprisingly, a decline in intrathymic T‐Reg in Aire^?/? mice maps to a reduction in mature recirculating Rag2GFP^? T‐Reg that express CCR6 and re‐enter the thymus from the periphery. Furthermore, we show mTEC expression of the CCR6 ligand CCL20 is reduced in Aire^?/? mice, and that CCR6 is required for T‐Reg recirculation back to the thymus. Collectively, our study re‐defines requirements for late stage intrathymic αβT‐cell development, and demonstrates that Aire controls a CCR6‐CCL20 axis that determines the developmental makeup of the intrathymic T‐Reg pool.     

Secreted IL‐1α promotes T‐cell activation and expansion of CD11b+Gr1+ cells in carbon tetrachloride‐induced liver injury in mice

Interleukin‐1α is mainly expressed on the cell membrane, but can also be secreted during inflammation. The roles of secreted and membrane IL‐1α in acute liver inflammation are still not known. Here, we examined the functions of secreted and membrane IL‐1α in a mouse model of carbon tetrachloride‐induced acute liver injury. We show that secreted IL‐1α aggravates liver damage and membrane IL‐1α slightly protects mice from liver injury. Further studies showed that secreted IL‐1α promotes T‐cell activation. It also increased the expansion of CD11b⁺Gr1⁺ myeloid cells, which may serve as a negative regulator of acute liver inflammation. Moreover, secreted IL‐1α induced IL‐6 production from hepatocytes. IL‐6 neutralization reduced the proliferation of CD11b⁺Gr1⁺ myeloid cells in vivo. CCL2 and CXCL5 expression was increased by secreted IL‐1α in vitro and in vivo. Antagonists of the chemokine receptors for CCL2 and CXCL5 significantly reduced the migration of CD11b⁺Gr1⁺ myeloid cells. These results demonstrate that secreted and membrane IL‐1α play different roles in acute liver injury. Secreted IL‐1α could promote T‐cell activation and the recruitment and expansion of CD11b⁺Gr1⁺ myeloid cells through induction of CCL2, CXCL5, and IL‐6. The controlled release of IL‐1α could be a critical regulator during acute liver inflammation.     

Changes in cell migration‐related molecules expressed by thymic microenvironment during experimental Plasmodium berghei infection: consequences on thymocyte development

We previously showed alterations in the thymus during experimental infection with Plasmodium berghei. Such alterations comprised histological changes, with loss of cortical–medullary limits, and the intrathymic presence of parasites. As the combination of chemokines, adhesion molecules and extracellular matrix (ECM) is critical to appropriate thymocyte development, we analysed the thymic expression of ECM ligands and receptors, as well as chemokines and their respective receptors during the experimental P. berghei infection. Increased expression of ECM components was observed in thymi from infected mice. In contrast, down‐regulated surface expression of fibronectin and laminin receptors was observed in thymocytes from these animals. Moreover, in thymi from infected mice there was increased CXCL12 and CXCR4, and a decreased expression of CCL25 and CCR9. An altered thymocyte migration towards ECM elements and chemokines was seen when the thymi from infected mice were analysed. Evaluation of ex vivo migration patterns of CD4/CD8‐defined thymocyte subpopulations revealed that double‐negative (DN), and CD4⁺ and CD8⁺ single‐positive (SP) cells from P. berghei‐infected mice have higher migratory responses compared with controls. Interestingly, increased numbers of DN and SP subpopulations were found in the spleens of infected mice. Overall, we show that the thymic atrophy observed in P. berghei‐infected mice is accompanied by thymic microenvironmental changes that comprise altered expression of thymocyte migration‐related molecules of the ECM and chemokine protein families, which in turn can alter the thymocyte migration pattern. These thymic disturbances may have consequences for the control of the immune response against this protozoan.     

Epithelial expression of human papillomavirus type 16 E7 protein results in peripheral CD8 T‐cell suppression mediated by CD4+CD25+ T cells

The role of thymic versus peripheral epithelium in the regulation of the antigen‐specific CD8 T‐cell repertoire is still largely unresolved. We generated TCR‐β chain transgenic mice in which an increased frequency of peripheral CD8 T cells recognizes an epitope from a viral oncoprotein (HPV16E7) in the context of H‐2D^b MHC class I. When T cells from these mice developed through the thymus of mice expressing functional E7 protein from a keratin 14 promoter, no major perturbation to transgenic T‐cell development in the thymus was observed in these double‐transgenic mice. In contrast, peripheral CD8 T‐cell responses in the single‐transgenic, K14E7 mice, including those unrelated to E7 antigen, are reduced whereas CD4 T‐cell responses and antibody production are unchanged in these mice. Peripheral non‐responsiveness among CD8 T cells was mediated largely by CD4⁺CD25⁺ T cells. This suggested that epithelium expressing HPV16E7 protein induces Treg that specifically down‐regulate CD8 T‐cell responses in the periphery. This may have important consequences for the treatment of cervical pre‐cancers and provides a model for understanding differential suppression of T and B lymphocyte subsets by Treg.     

Thymic emigration patterns in patients with type 2 diabetes treated with metformin

Recent data suggest that thymic output, which provides the naive T cells necessary for the normal functioning of T‐cell‐dependent immunosurveillance cellular immunity including anti‐cancer protection, can be disturbed in the course of type 2 diabetes. Metformin, an anti‐diabetic drug commonly confirmed as an agent with many potential anti‐cancer activities, might be helpful in this immune correction. The profile of thymic output was evaluated in the current study on the basis of the signal‐joint T‐cell receptor excision circle (sjTREC) concentration in peripheral blood polymorphonuclear cells and thymic emigrant content in peripheral blood evaluated from CD127 and/or CD132 antigen expression. It was revealed that recent thymic emigrants and more differentiated CD127⁺ CD132⁺ cell populations were decreased among naive T cells and CD8⁺ T cells, whereas RTE count was increased in CD4⁺ T cells, and the CD127⁺ CD132⁺ cell population was less numerous than in non‐diabetic participants. Terminally differentiated thymic emigrants, i.e. CD127^? CD132⁺ cells, were increased in naive T cells and in CD8⁺ T cells. Metformin affects mainly the early phases of thymic export, increasing CD127⁺ CD132^? and CD127⁺ CD132⁺ cell populations in naive T cells and the CD127⁺ CD132^? population in CD4⁺ T lymphocytes. It could be concluded that type 2 diabetes deteriorates thymic immunostasis. The decreased thymic output could be compensated by metformin, especially with regard to CD4⁺ naive T cells. It is the first time that therapy with metformin has been documented by us as particularly useful in the control and normalization of thymus function, regarding correction of early populations of thymic emigrants.     

Changes in thymic function in HIV-positive patients treated with highly active antiretroviral therapy and interleukin-2

Despite its potent antiviral activity, highly active antiretroviral therapy (HAART) only exerts a marginal effect on CD4⁺ T‐cell regeneration in HIV‐infected subjects. Combination therapies aimed at boosting T‐cell activity and maturation may provide an important contribution to the restoration of immune function. Here, we report the results obtained by a two‐year follow‐up of a cohort of HIV‐infected patients treated with a combination of HAART and interleukin‐2 (IL‐2). In these patients, in addition to a series of quantitative virological and immunological parameters, we investigated T‐cell regeneration by an immunophenotypic assay monitoring CD4⁺ naïve T cells, and by analysis of thymic function, through the quantification of the excision DNA products of T‐cell receptor rearrangement (TRECs) in lymphocytes. Compared with HAART alone, we found that the IL‐2 combination therapy was equally effective in reducing the levels of viremia and marginally more effective in decreasing proviral DNA load. Strikingly, the IL‐2 combination produced a marked increase in the number of CD4⁺ T cells bearing a naïve phenotype (CD45RA⁺, CD62L⁺), which was apparent for over 96 weeks after therapy. To assess whether these cells were the product of improved T‐cell generation, we exploited a competitive quantitative molecular assay to quantify TRECs in peripheral blood lymphocytes. Surprisingly, we found that the levels of these molecules were unchanged in these patients. These findings indicate that improved thymic function does not account for the early rise of CD4 naïve cells in HIV‐positive patients treated with IL‐2, and suggest that alternative mechanisms of T‐cell maturation and differentiation are responsible for this event.     

Myeloid leukemia cells with a B7‐2+ subpopulation provoke Th‐cell responses and become immuno‐suppressive through the modulation of B7 ligands

Expression of the B7 family molecules in acute myeloid leukemia (AML) has been demonstrated by independent clinical studies. Intriguingly, the expression of the most potent costimulatory molecules B7‐2 (CD86) and B7‐H2 (ICOS Ligand) on AML cells has been associated with poor prognosis and disease severity. Here, this phenomenon was modeled in vitro with the myeloid leukemia cell line HL‐60, which is capable of differentiating through the FAB M2/M3 and M4/M5 immunophenotypes. These derivatives of HL‐60 harbored a B7‐2⁺ subpopulation and recapitulated the distribution of B7 ligands previously reported in primary AML cases. B7‐2⁺ AML cells significantly contributed to T‐cell responses. This costimulatory activity enabled helper (Th)‐cell activation, proliferation, and production of Th1‐associated cytokines. Conversely, even a short‐term incubation with stimulated T cells resulted in upregulation of inhibitory B7‐H1 (PD‐L1) and B7‐DC (PD‐L2), and downregulation of stimulatory B7‐H2 molecules on leukemia cells. Purified from iHL‐60‐T‐cell co‐cultures, these myeloid leukemia cells severely suppressed Th‐cell responses specifically through the PD‐1 pathway. In conclusion, Th‐cell responses can be directly supported by B7‐2⁺ leukemia subpopulations. However, this interaction can facilitate the acquisition of a suppressive character that may contribute to immune evasion in myeloid leukemia.     

Lymph node and circulating T cell characteristics are strongly correlated in end‐stage renal disease patients,but highly differentiated T cells reside within the circulation

Ageing is associated with changes in the peripheral T cell immune system, which can be influenced significantly by latent cytomegalovirus (CMV) infection. To what extent changes in circulating T cell populations correlate with T cell composition of the lymph node (LN) is unclear, but is crucial for a comprehensive understanding of the T cell system. T cells from peripheral blood (PB) and LN of end‐stage renal disease patients were analysed for frequency of recent thymic emigrants using CD31 expression and T cell receptor excision circle content, relative telomere length and expression of differentiation markers. Compared with PB, LN contained relatively more CD4⁺ than CD8⁺ T cells (P < 0·001). The percentage of naive and central memory CD4⁺ and CD8⁺ T cells and thymic output parameters showed a strong linear correlation between PB and LN. Highly differentiated CD28^null T cells, being CD27^–, CD57⁺ or programmed death 1 (PD‐1⁺), were found almost exclusively in the circulation but not in LN. An age‐related decline in naive CD4⁺ and CD8⁺ T cell frequency was observed (P = 0·035 and P = 0·002, respectively) within LN, concomitant with an increase in central memory CD8⁺ T cells (P = 0·033). Latent CMV infection increased dramatically the frequency of circulating terminally differentiated T cells, but did not alter T cell composition and ageing parameters of LN significantly. Overall T cell composition and measures of thymic function in PB and LN are correlated strongly. However, highly differentiated CD28^null T cells, which may comprise a large part of circulating T cells in CMV‐seropositive individuals, are found almost exclusively within the circulation.     

A role for the histone H2A deubiquitinase MYSM1 in maintenance of CD8+ T cells

Several previous studies outlined the importance of the histone H2A deubiquitinase MYSM1 in the regulation of stem cell quiescence and haematopoiesis. In this study we investigated the role of MYSM1 in T‐cell development. Using mouse models that allow conditional Mysm1 ablation at late stages of thymic development, we found that MYSM1 is intricately involved in the maintenance, activation and survival of CD8⁺ T cells. Mysm1 ablation resulted in a twofold reduction in CD8⁺ T‐cell numbers, and also led to a hyperactivated CD8⁺ T‐cell state accompanied by impaired proliferation and increased pro‐inflammatory cytokine production after ex vivo stimulation. These phenotypes coincided with an increased apoptosis and preferential up‐regulation of p53 tumour suppressor protein in CD8⁺ T cells. Lastly, we examined a model of experimental cerebral malaria, in which pathology is critically dependent on CD8⁺ T cells. In the mice conditionally deleted for Mysm1 in the T‐cell compartment, CD8⁺ T‐cell numbers remained reduced following infection, both in the periphery and in the brain, and the mice displayed improved survival after parasite challenge. Collectively, our data identify MYSM1 as a novel factor for CD8⁺ T cells in the immune system, increasing our understanding of the role of histone H2A deubiquitinases in cytotoxic T‐cell biology.     

Thymic but not splenic CD8⁺ DCs can efficiently cross-prime T cells in the absence of licensing factors

Cross‐presentation is an important mechanism to elicit both immune defenses and tolerance. Although only a few DC subsets possess the machinery required for cross‐presentation, little is known about differences in cross‐presenting capabilities of DCs belonging to the same subpopulation but localized in different lymphoid organs. In this study, we demonstrate that steady‐state thymic CD8⁺ DCs can efficiently cross‐prime naïve CD8⁺ T cells in the absence of costimulation. Surprisingly, cross‐priming by splenic CD8⁺ DCs was dependent on licensing factors such as GM‐CSF. In the absence of GM‐CSF, antigen–MHC‐class‐I complexes were detected on thymic but not on splenic CD8⁺ DCs, indicating that the cross‐presentation capacity of the thymic subpopulation was higher. The observed cross‐priming differences between thymic and splenic CD8⁺ DCs did not correlate with differential antigen capture or costimulatory molecules found on the surface of DCs. Moreover, we did not detect overall impairment of antigen presentation, as peptide‐loaded splenic CD8⁺ DCs were able to induce CD8⁺ T‐cell proliferation. The observation that thymic CD8⁺ DCs are more efficient than splenic CD8⁺ DCs in T‐cell cross‐priming in the absence of licensing factors indicates that the requirements for efficient antigen presentation differ between these cells.     

Gender-Related Differences in the Rates of Age Associated Thymic Atrophy

Age associated thymic atrophy has been shown to be linked to problems with rearrangement of the β chain of the T cell receptor (TCR) in male mice during the early phases of the intrathymic T cell developmental pathway. In this study, thymic atrophy in female mice was found to occur at a different rate than in male mice. At 9 months of age there was a significantly greater number of cells in the thymus of female mice compared with male mice, with the major difference found in the CD4⁺CD8⁺ populations. The thymii of female mice at 9 months of age contained double the number of these cells compared with male mice. Analysis of the CD4⁺CD8⁺ cells at 9 months of age demonstrated increased numbers of cells expressing higher levels of CD3 in females compared with males indicating that in females more of these cells were producing successful αβTCR pairings. In F5 transgenic mice comparison of the CD4⁺CD8⁺ population revealed no significant difference in their absolute numbers at 9 months of age. These results indicate that the gender differences at this time point were due to fewer permitted divisions prior to the expression of a selectable TCR α chain within the CD4⁺CD8⁺ populations in male compared with female mice. This gender difference was not due to the action of testosterone and unlikely to be due to differences in the level of oestrogen. The potential mechanisms of this difference may be related to a regulatory feedback of peripheral T cells on the developing thymocyte populations. Such age related changes in the numbers of cells within distinct thymic subpopulations leads to the possibility that the potential repertoire in females is greater than in males later in life.     

Thymus‐resident memory CD8+ T cells mediate local immunity

The thymus is a primary lymphoid organ responsible for production and selection of T cells. Nonetheless, mature T cells and in particular activated T cells can reenter the thymus. Here, we identified memory CD8⁺ T cells specific for lymphocytic choriomeningitis virus or vaccinia virus in the thymus of mice long‐time after the infection. CD8⁺ T cells were mainly located in the thymic medulla, but also in the cortical areas. Interestingly, virus‐specific memory CD8⁺ T cells in the thymus expressed the cell surface markers CD69 and CD103 that are characteristic of tissue‐resident memory T cells in a time‐dependent manner. Kinetic analyses and selective depletion of peripheral CD8⁺ T cells by antibodies further revealed that thymic virus‐specific memory CD8⁺ T cells did not belong to the circulating pool of lymphocytes. Finally, we demonstrate that these thymus‐resident virus‐specific memory CD8⁺ T cells efficiently mounted a secondary proliferative response, exhibited immediate effector functions and were able to protect the thymus from lymphocytic choriomeningitis virus reinfection. In conclusion, the present study not only describes for the first time virus‐specific memory CD8⁺ T cells with characteristics of tissue‐resident memory T (T_RM) cells in a primary lymphoid organ but also extends our knowledge about local T‐cell immunity in the thymus.     

Enhanced renewal of regulatory T cells in relation to CD4+ conventional T lymphocytes in the peripheral compartment

CD4⁺ Foxp3⁺ regulatory T (Treg) cells are necessary for the maintenance of self‐tolerance and T‐cell homeostasis. This population is kept at stable frequencies in secondary lymphoid organs for the majority of the lifetime, despite permanent thymic emigration or in the face of thymic involution. Continuous competition is expected to occur between recently thymus‐emigrated and resident Treg cells (either natural or post‐thymically induced). In the present work, we analysed the renewal dynamics of Treg cells compared with CD4⁺Foxp3‐ conventional T cells (Tconv), using protocols of single or successive T‐cell transfers into syngeneic euthymic or lymphopenic (nu/nu or RAG2^?/?) mice, respectively. Our results show a higher turnover for Treg cells in the peripheral compartment, compared with Tconv cells, when B cell‐sufficient euthymic or nude hosts are studied. This increased renewal within the Treg pool, shown by the greater replacement of resident Treg cells by donor counterparts, correlates with augmented rates of proliferation and is not modified following temporary environmental perturbations induced by inflammatory state or microbiota alterations. Notably, the preferential substitution of Treg lymphocytes was not observed in RAG2^?/? hosts. We showed that limited B‐cell replenishment in the RAG2^?/? hosts decisively contributed to the altered peripheral T‐cell homeostasis. Accordingly, weekly transfers of B cells to RAG2^?/? hosts rescued the preferential substitution of Treg lymphocytes. Our study discloses a new aspect of T‐cell homeostasis that depends on the presence of B lymphocytes to regulate the relative incorporation of recently arrived Treg and Tconv cells in the peripheral compartment.     

Transient Treg‐cell depletion in adult mice results in persistent self‐reactive CD4+ T‐cell responses

Depletion of Foxp3⁺CD4⁺ regulatory T cells (Treg) in adults results in chronic inflammation and autoimmune disease. However, the impact of transient Treg‐cell depletion on self‐reactive responses is poorly defined. Here, we studied the effect of transient depletion of Treg cells on CD4⁺ T‐cell responses to endogenous self‐antigens. Short‐term ablation of Treg cells in mice resulted in rapid activation of CD4⁺ T cells, increased percentage of IFN‐γ⁺ and Th17 cells in lymphoid organs, and development of autoimmune gastritis. To track self‐reactive responses, we analyzed the activation of naïve gastric‐specific CD4⁺ T cells. There was a dramatic increase in proliferation and acquisition of effector function of gastric‐specific T cells in the stomach draining LNs of Treg‐cell‐depleted mice, compared with untreated mice, either during Treg‐cell depletion or after Treg‐cell reconstitution. Moreover, the hyperproliferation of gastric‐specific T cells in the Treg‐cell‐ablated mice was predominantly antigen‐dependent. Transient depletion of Treg cells resulted in a shift in the ratio of peripheral:thymic Treg cells in the reemerged Treg‐cell population, indicating an altered composition of Treg cells. These findings indicate that transient Treg‐cell depletion results in ongoing antigen‐driven self‐reactive T‐cell responses and emphasize the continual requirement for an intact Treg‐cell population.