Sublingual tolerance induction with antigen conjugated to cholera toxin B subunit induces Foxp3+CD25+CD4+ regulatory T cells and suppresses delayed-type hypersensitivity reactions

Although sublingual (s.l.) immunotherapy with selected allergens is safe and often effective for treating patients with allergies, knowledge of the immunological mechanisms involved remains limited. Can s.l. administration of antigen (Ag) induce peripheral immunological tolerance and also suppress delayed‐type hypersensitivity (DTH) responses? To what extent can s.l.‐induced tolerance be explained by the generation of Foxp3⁺CD25⁺CD4⁺ regulatory T cells (T_reg)? This study addressed these questions in mice and compared the relative efficacy of administering ovalbumin (OVA) conjugated to cholera toxin B (CTB) subunit with administration of the same Ag alone. We found that s.l. administration of a single or even more efficiently three repeated 40‐μg doses of OVA/CTB conjugate suppressed T‐cell proliferative responses to OVA by cervical lymph node (CLN), mesenteric lymph node (MLN) and spleen cells and concurrently strongly increased the frequency of Ag‐specific T_reg in CLN, MLN and spleen and also transforming growth factor‐β (TGF‐β) levels in serum. The CLN and splenic cells from OVA/CTB‐treated BALB/c mice efficiently suppressed OVA‐specific T‐cell receptor (TCR) transgenic (DO11.10) CD25^?CD4⁺ effector T‐cell proliferation in vitro. Further, s.l. treatment with OVA/CTB completely suppressed OVA‐specific DTH responses in vivo and T‐cell proliferative responses in mice immunized subcutaneously with OVA in Freund's complete adjuvant. The intracellular expression of Foxp3 was strongly increased in OVA‐specific (KJ1‐26⁺) CD4⁺ T cells from OVA/CTB‐treated mice. Thus, s.l. administration of CTB‐conjugated Ag can efficiently induce peripheral T‐cell tolerance associated with strong increases in serum TGF‐β levels and in Ag‐specific Foxp3⁺CD25⁺CD4⁺ T_reg cells.     

TLR2 engagement on CD4+ T cells enhances effector functions and protective responses to Mycobacterium tuberculosis

We have previously demonstrated that mycobacterial lipoproteins engage TLR2 on human CD4⁺ T cells and upregulate TCR‐triggered IFN‐γ secretion and cell proliferation in vitro. Here we examined the role of CD4⁺ T‐cell‐expressed TLR2 in Mycobacterium tuberculosis (MTB) Ag‐specific T‐cell priming and in protection against MTB infection in vivo. Like their human counterparts, mouse CD4⁺ T cells express TLR2 and respond to TLR2 costimulation in vitro. This Th1‐like response was observed in the context of both polyclonal and Ag‐specific TCR stimulation. To evaluate the role of T‐cell TLR2 in priming of CD4⁺ T cells in vivo, naive MTB Ag85B‐specific TCR transgenic CD4⁺ T cells (P25 TCR‐Tg) were adoptively transferred into Tlr2^?/? recipient C57BL/6 mice that were then immunized with Ag85B and with or without TLR2 ligand Pam₃Cys‐SKKKK. TLR2 engagement during priming resulted in increased numbers of IFN‐γ‐secreting P25 TCR‐Tg T cells 1 week after immunization. P25 TCR‐Tg T cells stimulated in vitro via TCR and TLR2 conferred more protection than T cells stimulated via TCR alone when adoptively transferred before MTB infection. Our findings indicate that TLR2 engagement on CD4⁺ T cells increases MTB Ag‐specific responses and may contribute to protection against MTB infection.     

Fonsecaea pedrosoi‐induced Th17‐cell differentiation in mice is fostered by Dectin‐2 and suppressed by Mincle recognition

Chromoblastomycosis is a chronic skin infection caused by the pigmented saprophytic mould Fonsecaea pedrosoi. Chronicity of infection can be broken by a coordinated innate recognition of the spores by pattern recognition receptors. While Mincle signaling via the Syk/Card9 pathway is required for fungal recognition by host cells, it is not sufficient for host control. Exogenously applied TLR agonists are necessary to promote the induction of proinflammatory cytokines and clearance of infection in vivo. Here, we investigated whether costimulation by TLR agonists fosters the development of adaptive immune responses, by examining the development of fungus‐specific T cells. Subcutaneous infection of mice with F. pedrosoi spores induced the activation, expansion, and differentiation of Ag‐specific CD4⁺ T cells but TLR costimulation did not further augment these T‐cell responses. The Dectin‐2/FcRγ/Card9 signaling pathway promoted the differentiation of fungus‐specific CD4⁺ T cells into Th17 cells, whereas Mincle inhibited the development of this T‐helper subset in infected mice. These results indicate differential roles for Dectin‐2 and Mincle in the generation of adaptive immune responses to F. pedrosoi infection.     

Intravenous immunoglobulin modulates the expansion and cytotoxicity of CD8+ T cells

Intravenous immunoglobulin (IVIg) is successfully used in the treatment of autoimmune diseases involving self‐reactive CD8⁺ T cells. However, its direct influence on the cytotoxic response remains unknown. Using an antigen cross‐presentation assay and a mouse model of ovalbumin (OVA) immunization, we showed that IVIg decreases the in vitro activation, proliferation and cytokine secretion of OVA‐specific CD8⁺ T cells (OT‐I), as well as the in vivo generation of OVA‐specific CD8⁺ T cells. In addition, IVIg significantly decreases the proportion of perforin‐ and CD107a‐expressing CD8⁺ T cells, and inhibits the cytotoxic activity of OVA‐activated OT‐I cells. The interference of IVIg with the CD8⁺ T‐cell response is associated with T‐cell receptor blockade, therefore reducing the interaction between effector and target cells. A similar blockade is observed on human CD8⁺ T cells, suggesting that the observations reported here could apply to the IVIg‐mediated improvement of CD8⁺ T‐cell‐mediated autoimmune conditions in human patients.     

IL‐7 is superior to IL‐2 for ex vivo expansion of tumour‐specific CD4+ T cells

It is well established that tumours hinder both natural and vaccine‐induced tumour‐specific CD4⁺ T‐cell responses. Adoptive T‐cell therapy has the potential to circumvent functional tolerance and enhance anti‐tumour protective responses. While protocols suitable for the expansion of cytotoxic CD8⁺ T cells are currently available, data on tumour‐specific CD4⁺ T cells remain scarce. We report here that CD4⁺ T cells sensitized to tumour‐associated Ag in vivo, proliferate in vitro in response to IL‐7 without the need for exogenous Ag stimulation and accumulate several folds while preserving a memory‐like phenotype. Both cell proliferation and survival accounts for the outgrowth of tumour‐sensitized T cells among other memory and naive lymphocytes following exposure to IL‐7. Also IL‐2, previously used to expand anti‐tumour CTL, promotes tumour‐specific CD4⁺ T‐cell accumulation. However, IL‐7 is superior to IL‐2 at preserving lymphocyte viability, in vitro and in vivo, maintaining those properties, that are required by helper CD4⁺ T cells to confer therapeutic efficacy upon transplantation in tumour‐bearing hosts. Together our data support a unique role for IL‐7 in retrieving memory‐like CD4⁺ T cells suitable for adoptive T‐cell therapy.     

UV inhibits allergic airways disease in mice by reducing effector CD4+ T cells

Background In human asthma, and experimental allergic airways disease in mice, antigen‐presenting cells and CD4⁺ effector cells at the airway mucosa orchestrate, and CD4⁺CD25⁺ regulatory T cells attenuate, allergen immunity. UV irradiation of skin before sensitization with ovalbumin (OVA) causes significantly reduced asthma‐like responses in respiratory tissues. Objective To determine whether UV‐induced changes in CD11c⁺ cells, CD4⁺CD25⁺ effector cells or CD4⁺CD25⁺ regulatory cells in the trachea and airway draining lymph nodes (ADLNs) were responsible for reduced allergic airways disease. Methods The phenotype and function of CD11c⁺ cells and CD4⁺CD25⁺ cells in the trachea and ADLNs of UV‐ and non‐irradiated, OVA‐sensitized mice was examined 24 h after a single exposure to aerosolized OVA. Results No changes in the function of CD11c⁺ cells from UV‐irradiated mice were observed. CD4⁺CD25⁺ cells from UV‐irradiated, OVA‐sensitized mice harvested 24 h after OVA aerosol proliferated less in response to OVA in vitro and were unable to suppress the proliferation of OVA‐sensitized responder cells. This result suggested reduced activation of effector T cells in the airway mucosa of UV‐irradiated, OVA‐sensitized mice. To exclude regulatory cells of any type, there was similar proliferation in vivo to aerosolized OVA by CFSE‐loaded, OVA‐TCR‐specific CD4⁺ cells adoptively transferred into UV‐ and non‐irradiated, OVA‐sensitized mice. In addition, there was no difference in the expression of regulatory T cell markers (Foxp3, IL‐10, TGF‐β mRNA). To examine effector T cells, ADLN cells from UV‐irradiated, OVA‐sensitized and ‐challenged mice were cultured with OVA. There was reduced expression of the early activation marker CD69 by CD4⁺CD25⁺ cells, and reduced proliferation in the absence of the regulatory cytokine, IL‐10. Conclusion Reduced allergic airways disease in UV‐irradiated mice is due to fewer effector CD4⁺CD25⁺ cells in the trachea and ADLNs, and not due to UV‐induced regulatory cells. Cite this as: J. P. McGlade, D. H. Strickland, M. J. M. Lambert, S. Gorman, J. A. Thomas, M. A. Judge, J. T. Burchell, G. R. Zosky and P. H. Hart, Clinical & Experimental Allergy, 2010 (40) 772–785.     

Mycobacterium tuberculosis‐specific CD8+ T cells are functionally and phenotypically different between latent infection and active disease

Protective immunity to Mycobacterium tuberculosis (Mtb) remains poorly understood and the role of Mtb‐specific CD8⁺ T cells is controversial. Here we performed a broad phenotypic and functional characterization of Mtb‐specific CD8⁺ T cells in 326 subjects with latent Mtb infection (LTBI) or active TB disease (TB). Mtb‐specific CD8⁺ T cells were detected in most (60%) TB patients and few (15%) LTBI subjects but were of similar magnitude. Mtb‐specific CD8⁺ T cells in LTBI subjects were mostly T_EMRA cells (CD45RA⁺CCR7^?), coexpressing 2B4 and CD160, and in TB patients were mostly T_EM cells (CD45RA^?CCR7^?), expressing 2B4 but lacking PD‐1 and CD160. The cytokine profile was not significantly different in both groups. Furthermore, Mtb‐specific CD8⁺ T cells expressed low levels of perforin and granulysin but contained granzymes A and B. However, in vitro‐expanded Mtb‐specific CD8⁺ T cells expressed perforin and granulysin. Finally, Mtb‐specific CD8⁺ T‐cell responses were less frequently detected in extrapulmonary TB compared with pulmonary TB patients. Mtb‐specific CD8⁺ T‐cell proliferation was also greater in patients with extrapulmonary compared with pulmonary TB. Thus, the activity of Mtb infection and clinical presentation are associated with distinct profiles of Mtb‐specific CD8⁺ T‐cell responses. These results provide new insights in the interaction between Mtb and the host immune response.     

Altered effector functions of virus‐specific and virus cross‐reactive CD8+ T cells in mice immunized with related flaviviruses

Memory cross‐reactive CD8⁺ T‐cell responses may induce protection or immunopathology upon secondary viral challenge. To elucidate the potential role of T cells in sequential flavivirus infection, we characterized cross‐reactive CD4⁺ and CD8⁺ T‐cell responses between attenuated and pathogenic Japanese encephalitis virus (JEV) and pathogenic West Nile virus (WNV). A previously reported WNV NS4b CD8⁺ T‐cell epitope and its JEV variant elicited CD8⁺ T‐cell responses in both JEV‐ and WNV‐infected mice. The peptide variant homologous to the immunizing virus induced greater cytokine secretion and activated higher frequencies of epitope‐specific CD8⁺ T cells. However, there was a virus‐dependent, peptide variant‐independent pattern of cytokine secretion; the IFNγ⁺‐to‐IFNγ⁺TNFα⁺ CD8⁺ T‐cell ratio was greater in JEV‐ than in WNV‐infected mice. Despite similarities in viral burden for pathogenic WNV and JEV viruses, CD8⁺ T cells from pathogenic JEV‐immunized mice exhibited functional and phenotypic profiles similar to those seen for the attenuated JEV strain. Patterns of killer cell lectin‐like receptor G1 (KLRG1) and CD127 expression differed by virus type, with a rapid expansion and contraction of short‐lived effector cells in JEV infection and persistence of high levels of short‐lived effector cells in WNV infection. Such cross‐reactive T‐cell responses to primary infection may affect the outcomes of sequential flavivirus infections.     

Mycobacterium chelonae sensitisation induces CD4+‐mediated cytotoxicity against BCG

Significant variability in efficacy of live Mycobacterium bovis BCG as a tuberculosis vaccine is observed globally. Effects of pre‐vaccination sensitisation to non‐tuberculous environmental mycobacteria (Env) are suspected to underlie this phenomenon, but the mechanisms remain unclear. We postulated that it could be due to Env‐specific T cells exerting cytotoxicity against BCG‐infected host cells. After murine sensitisation with heat‐killed antigens of different Env species, splenocytes from M. chelonae (CHE)‐sensitised mice exerted the strongest cytotoxicity against autologous BCG‐infected macrophages. This cytotoxicity was correlated with reduced BCG viability. The cytotoxicity was reduced by the depletion of CD4⁺, but not CD8⁺ or CD56⁺ cells, and CD4⁺ cells showed higher percentage of cytotoxicity than CD4^? cells, supporting a role for CD4⁺ cells in CHE‐induced, BCG‐specific cytotoxicity. Additionally, this cytotoxicity was IFN‐γ, perforin and FasL dependent. After CHE‐sensitisation and subsequent BCG intranasal infection, there was significant expansion of lung CD4⁺ cells, the main cell type producing IFN‐γ. This was associated with 2‐ and 6‐fold reductions in lung BCG counts 1 and 3 wk, respectively post‐ infection, relative to non‐sensitised mice. This is the first report describing cytotoxicity against BCG‐infected cells as a mechanism underlying the influence of Env sensitisation on subsequent BCG responses.     

Mycobacterium tuberculosis PstS1 amplifies IFN‐γ and induces IL‐17/IL‐22 responses by unrelated memory CD4+ T cells via dendritic cell activation

The immunological mechanisms that modulate protection during Mycobacterium tuberculosis (Mtb) infection or vaccination are not fully understood. Secretion of IFN‐γ and, to a lesser extent, of IL‐17 by CD4⁺ T cells plays a major role both in protection and immunopathology. Few Mtb Ags interacting with DCs affect priming, activation, and regulation of Ag‐unrelated CD4⁺ T‐cell responses. Here we demonstrate that PstS1, a 38 kDa‐lipoprotein of Mtb, promotes Ag‐independent activation of memory T lymphocytes specific for Ag85B or Ag85A, two immunodominant protective Ags of Mtb. PstS1 expands CD4⁺ and CD8⁺ memory T cells, amplifies secretion of IFN‐γ and IL‐22 and induces IL‐17 production by effector memory cells in an Ag‐unrelated manner in vitro and in vivo. These effects were mediated through the stimulation of DCs, particularly of the CD8α^? subtype, which respond to PstS1 by undergoing phenotypic maturation and by secreting IL‐6, IL‐1β and, to a lower extent, IL‐23. IL‐6 secretion by PstS1‐stimulated DCs was required for IFN‐γ, and to a lesser extent for IL‐22 responses by Ag85B‐specific memory T cells. These results may open new perspectives for immunotherapeutic strategies to control Th1/Th17 immune responses in Mtb infections and in vaccinations against tuberculosis.     

DC‐induced CD8+ T‐cell response is inhibited by MHC class II‐dependent DX5+CD4+ Treg

CD4⁺ T cells are important for CD8⁺ T‐cell priming by providing cognate signals for DC maturation. We analyzed the capacity of CD4⁺ T cells to influence CD8⁺ T‐cell responses induced by activated DC. Surprisingly, mice depleted for CD4⁺ cells were able to generate stronger antigen‐specific CD8⁺ T‐cell responses after DC vaccination than non‐depleted mice. The same observation was made when mice were vaccinated with MHC class II^?/? DC, indicating the presence of a MHC class II‐dependent CD4⁺ T‐cell population inhibiting CD8⁺ T‐cell responses. Recently we described the expansion of DX5⁺CD4⁺ T cells, a T‐cell population displaying immune regulatory properties, upon vaccination with DC. Intriguingly, we now observe an inverse correlation between CD8⁺ T‐cell induction and expansion of DX5⁺CD4⁺ T cells as the latter cells did not expand after vaccination with MHC class II^?/? DC. In vitro, DX5⁺CD4⁺ T cells were able to limit proliferation, modulate cytokine production and induce Foxp3⁺ expression in OVA‐specific CD8⁺ T cells. Together, our data show an inhibitory role of CD4⁺ T cells on the induction of CD8⁺ T‐cell responses by activated DC and indicate the involvement of DX5⁺CD4⁺, but not CD4⁺CD25⁺, T cells in this process.     

Selective antigen‐specific CD4+ T‐cell,but not CD8+ T‐ or B‐cell,tolerance corrupts cancer immunotherapy

Self‐tolerance, presumably through lineage‐unbiased elimination of self‐antigen‐specific lymphocytes (CD4⁺ T, CD8⁺ T, and B cells), creates a formidable barrier to cancer immunotherapy. In contrast to this prevailing paradigm, we demonstrate that for some antigens, self‐tolerance reflects selective elimination of antigen‐specific CD4⁺ T cells, but preservation of CD8⁺ T‐ and B‐cell populations. In mice, antigen‐specific CD4⁺ T‐cell tolerance restricted CD8⁺ T‐ and B‐cell responses targeting the endogenous self‐antigen guanylyl cyclase c (GUCY2C) in colorectal cancer. Although selective CD4⁺ T‐cell tolerance blocked GUCY2C‐specific antitumor immunity and memory responses, it offered a unique solution to the inefficacy of GUCY2C vaccines through recruitment of self‐antigen‐independent CD4⁺ T‐cell help. Incorporating CD4⁺ T‐cell epitopes from foreign antigens into vaccines against GUCY2C reconstituted CD4⁺ T‐cell help, revealing the latent functional capacity of GUCY2C‐specific CD8⁺ T‐ and B‐cell pools, producing durable antitumor immunity without autoimmunity. Incorporating CD4⁺ T‐cell epitopes from foreign antigens into vaccines targeting self‐antigens in melanoma (Trp2) and breast cancer (Her2) produced similar results, suggesting selective CD4⁺ T‐cell tolerance underlies ineffective vaccination against many cancer antigens. Thus, identification of self‐antigens characterized by selective CD4⁺ T‐cell tolerance and abrogation of such tolerance through self‐antigen‐independent T‐cell help is essential for future immunotherapeutics.     

Multiple Antigen Peptide Containing B and T Cell Epitopes of F1 Antigen of Yersinia pestis Showed Enhanced Th1 Immune Response in Murine Model

Yersinia pestis is a facultative bacterium that can survive and proliferate inside host macrophages and cause bubonic, pneumonic and systemic infection. Apart from humoral response, cell‐mediated protection plays a major role in combating the disease. Fraction 1 capsular antigen (F1‐Ag) of Y. pestis has long been exploited as a vaccine candidate. In this study, F1‐multiple antigenic peptide (F1‐MAP or MAP)‐specific cell‐mediated and cytokine responses were studied in murine model. MAP consisting of three B and one T cell epitopes of F1‐antigen with one palmitoyl residue was synthesized using Fmoc chemistry. Mice were immunized with different formulations of MAP in poly DL‐lactide‐co‐glycolide (PLGA) microspheres. F1‐MAP with CpG oligodeoxynucleotide (CpG‐ODN) as an adjuvant showed enhanced in vitro T cell proliferation and Th1 (IL‐2, IFN‐γ and TNF‐α) and Th17 (IL‐17A) cytokine secretion. Similar formulation also showed significantly higher numbers of cytokine (IL‐2, IFN‐γ)‐secreting cells. Moreover, F1‐MAP with CpG formulation showed significantly high (P < 0.001) percentage of CD4⁺ IFN‐γ⁺ cells as compared to CD8⁺ IFN‐γ⁺ cells, and also more (CD4‐ IFN‐γ)⁺ cells secrete perforin and granzyme as compared to (CD8‐ IFN‐γ)⁺ showing Th1 response. Thus, the study highlights the importance of Th1 cytokine and existence of CD4⁺ and CD8⁺ immune response. This study proposes a new perspective for the development of vaccination strategies for Y. pestis that trigger T cell immune response.     

Epitope‐specific CD4+, but not CD8+, T‐cell responses induced by recombinant influenza A viruses protect against Mycobacterium tuberculosis infection

Tuberculosis remains a global health problem, in part due to failure of the currently available vaccine, BCG, to protect adults against pulmonary forms of the disease. We explored the impact of pulmonary delivery of recombinant influenza A viruses (rIAVs) on the induction of Mycobacterium tuberculosis (M. tuberculosis)‐specific CD4⁺ and CD8⁺ T‐cell responses and the resultant protection against M. tuberculosis infection in C57BL/6 mice. Intranasal infection with rIAVs expressing a CD4⁺ T‐cell epitope from the Ag85B protein (PR8.p25) or CD8⁺ T‐cell epitope from the TB10.4 protein (PR8.TB10.4) generated strong T‐cell responses to the M. tuberculosis‐specific epitopes in the lung that persisted long after the rIAVs were cleared. Infection with PR8.p25 conferred protection against subsequent M. tuberculosis challenge in the lung, and this was associated with increased levels of poly‐functional CD4⁺ T cells at the time of challenge. By contrast, infection with PR8.TB10.4 did not induce protection despite the presence of IFN‐γ‐producing M. tuberculosis‐specific CD8⁺ T cells in the lung at the time of challenge and during infection. Therefore, the induction of pulmonary M. tuberculosis epitope‐specific CD4⁺, but not CD8⁺ T cells, is essential for protection against acute M. tuberculosis infection in the lung.     

Protective dendritic cell responses against listeriosis induced by the short form of the deubiquitinating enzyme CYLD are inhibited by full‐length CYLD

The deubiquitinating enzyme CYLD is an important tumor suppressor and inhibitor of immune responses. In contrast to full‐length CYLD, the immunological function of the naturally occurring short splice variant of CYLD (sCYLD) is insufficiently described. Previously, we showed that DCs, which lack full‐length CYLD but express sCYLD, exhibit augmented NF‐κB and DC activation. To explore the function of sCYLD in infection, we investigated whether DC‐specific sCYLD regulates the pathogenesis of listeriosis. Upon Listeria monocytogenes infection of CD11c‐Cre Cyld^{ex7/8 fl/fl} mice, infection of CD8α⁺ DCs, which are crucial for the establishment of listeriosis in the spleen, was not affected. However, NF‐κB activity of CD11c‐Cre Cyld^{ex7/8 fl/fl} DCs was increased, while activation of ERK and p38 was normal. In addition, CD11c‐Cre Cyld^{ex7/8 fl/fl} DCs produced more TNF, IL‐10, and IL‐12 upon infection, which led to enhanced stimulation of IFN‐γ‐producing NK cells. In addition CD11c‐Cre Cyld^{ex7/8 fl/fl} DCs presented Listeria Ag more efficiently to CD8⁺ T cells resulting in a stronger pathogen‐specific CD8⁺ T‐cell proliferation and more IFN‐γ production. Collectively, the improved innate and adaptive immunity and survival during listeriosis identify the DC‐specific FL‐CYLD/sCYLD balance as a potential target to modulate NK‐cell and Ag‐specific CD8⁺ T‐cell responses.     

CD4+CD25+ T cell depletion impairs tolerance induction in a murine model of asthma

Background Regulatory T cells (Tregs) are key players in controlling the development of airway inflammation. However, their role in the mechanisms leading to tolerance in established allergic asthma is unclear. Objective To examine the role of Tregs in tolerance induction in a murine model of asthma. Methods Ovalbumin (OVA) sensitized asthmatic mice were depleted or not of CD25⁺ T cells by anti‐CD25 PC61 monoclonal antibody (mAb) before intranasal treatment (INT) with OVA, then challenged with OVA aerosol. To further evaluate the respective regulatory activity of CD4⁺CD25⁺ and CD4⁺CD25^? T cells, both T cell subsets were transferred from tolerized or non‐tolerized animals to asthmatic recipients. Bronchoalveolar lavage fluid (BALF), T cell proliferation and cytokine secretion were examined. Results Intranasal treatment with OVA led to increased levels of IL‐10, TGF‐β and IL‐17 in lung homogenates, inhibition of eosinophil recruitment into the BALF and antigen specific T cell hyporesponsiveness. CD4⁺CD25⁺Foxp3⁺ T cells were markedly upregulated in lungs and suppressed in vitro and in vivo OVA‐specific T cell responses. Depletion of CD25⁺ cells before OVA INT severely hampered tolerance induction as indicated by a strong recruitment of eosinophils into BALF and a vigorous T cell response to OVA upon challenge. However, the transfer of CD4⁺CD25^? T cells not only suppressed antigen specific T cell responsiveness but also significantly reduced eosinophil recruitment as opposed to CD4⁺CD25⁺ T cells. As compared with control mice, a significantly higher proportion of CD4⁺CD25^? T cells from OVA treated mice expressed mTGF‐β. Conclusion Both CD4⁺CD25⁺ and CD4⁺CD25^? T cells appear to be essential to tolerance induction. The relationship between both subsets and the mechanisms of their regulatory activity will have to be further analyzed.     

Distinct activation phenotype of a highly conserved novel HLA‐B57‐restricted epitope during dengue virus infection

Variation in the sequence of T‐cell epitopes between dengue virus (DENV) serotypes is believed to alter memory T‐cell responses during second heterologous infections. We identified a highly conserved, novel, HLA‐B57‐restricted epitope on the DENV NS1 protein. We predicted higher frequencies of B57‐NS1_26–34‐specific CD8⁺ T cells in peripheral blood mononuclear cells from individuals undergoing secondary rather than primary DENV infection. However, high tetramer‐positive T‐cell frequencies during acute infection were seen in only one of nine subjects with secondary infection. B57‐NS1_26–34‐specific and other DENV epitope‐specific CD8⁺ T cells, as well as total CD8⁺ T cells, expressed an activated phenotype (CD69⁺ and/or CD38⁺) during acute infection. In contrast, expression of CD71 was largely limited to DENV epitope‐specific CD8⁺ T cells. In vitro stimulation of cell lines indicated that CD71 expression was differentially sensitive to stimulation by homologous and heterologous variant peptides. CD71 may represent a useful marker of antigen‐specific T‐cell activation.     

Human antigen‐specific CD4+CD25+CD134+CD39+ T cells are enriched for regulatory T cells and comprise a substantial proportion of recall responses

Human Ag‐specific CD4⁺ T cells can be detected by their dual expression of CD134 (OX40) and CD25 after a 44 hours stimulation with cognate Ag. We show that surface expression of CD39 on Ag‐specific cells consistently identifies a substantial population of CD4⁺CD25⁺CD134⁺CD39⁺ T cells that have a Treg‐cell‐like phenotype and mostly originate from bulk memory CD4⁺CD45RO⁺CD127^lowCD25^highCD39⁺ Treg cells. Viable, Ag‐specific CD25⁺CD134⁺CD39⁺ T cells could be expanded in vitro as cell lines and clones, and retained high Forkhead Box Protein 3, CTLA‐4 and CD39 expression, suppressive activity and Ag specificity. We also utilised this combination of cell surface markers to measure HIV‐Gag responses in HIV⁺ patients before and after anti‐retroviral therapy (ART). Interestingly, we found that the percentage of CD39^? cells within baseline CD4⁺ T‐cell responses to HIV‐Gag was negatively correlated with HIV viral load pre‐ART and positively correlated with CD4⁺ T‐cell recovery over 96 weeks of ART. Collectively, our data show that Ag‐specific CD4⁺CD25⁺CD134⁺CD39⁺ T cells are highly enriched for Treg cells, form a large component of recall responses and maintain a Treg‐cell‐like phenotype upon in vitro expansion. Identification and isolation of these cells enables the role of Treg cells in memory responses to be further defined and provides a development pathway for novel therapeutics.     

Regulatory T cells in human geohelminth infection suppress immune responses to BCG and Plasmodium falciparum

Chronic helminth infections induce T‐cell hyporesponsiveness, which may affect immune responses to other pathogens or to vaccines. This study investigates the influence of Treg activity on proliferation and cytokine responses to BCG and Plasmodium falciparum‐parasitized RBC in Indonesian schoolchildren. Geohelminth‐infected children's in vitro T‐cell proliferation to either BCG or pRBC was reduced compared to that of uninfected children. Although the frequency of CD4⁺CD25^hiFOXP3⁺ T cells was similar regardless of infection status, the suppressive activity differed between geohelminth‐infected and geohelminth‐uninfected groups: Ag‐specific proliferative responses increased upon CD4⁺CD25^hi T‐cell depletion in geohelminth‐infected subjects only. In addition, IFN‐γ production in response to both BCG and parasitized RBC was increased after removal of CD4⁺CD25^hi T cells. These data demonstrate that geohelminth‐associated Treg influence immune responses to bystander Ag of mycobacteria and plasmodia. Geohelminth‐induced immune modulation may have important consequences for co‐endemic infections and vaccine trials.     

CD122+CD8+ Treg suppress vaccine‐induced antitumor immune responses in lymphodepleted mice

Lymphodeleption prior to adoptive transfer of tumor‐specific T cells greatly improves the clinical efficacy of adoptive T‐cell therapy for patients with advanced melanoma, and increases the therapeutic efficacy of cancer vaccines in animal models. Lymphodepletion reduces competition between lymphocytes, and thus creates “space” for enhanced expansion and survival of tumor‐specific T cells. Within the lymphodepleted host, Ag‐specific T cells still need to compete with other lymphocytes that undergo lymphopenia‐driven proliferation. Herein, we describe the relative capacity of naïve T cells, Treg, and NK cells to undergo lymphopenia‐driven proliferation. We found that the major population that underwent lymphopenia‐driven proliferation was the CD122⁺ memory‐like T‐cell population (CD122⁺CD8⁺ Treg), and these cells competed with Ag‐driven proliferation of melanoma‐specific T cells. Removal of CD122⁺CD8⁺ Treg resulted in a greater expansion of tumor‐specific T cells and tumor infiltration of functional effector/memory T cells. Our results demonstrate the lymphopenia‐driven proliferation of CD122⁺CD8⁺ Treg in reconstituted lymphodepleted mice limited the antitumor efficacy of DC vaccination in conjunction with adoptive transfer of tumor‐specific T cells.