The composition of T cell infiltrates varies in primary invasive breast cancer of different molecular subtypes as well as according to tumor size and nodal status

T lymphocytes are the most numerous immune cells in tumor-associated infiltrates and include several subpopulations of either anticancer or pro-tumorigenic functions. However, the associations between levels of different T cell subsets and breast cancer molecular subtypes as well as other prognostic factors have not been fully established yet. We performed immunohistochemistry for CD8 (cytotoxic T cells (CTL)), FOXP3 (regulatory T cells (Tregs)), and GATA3 (Th2 cells) in 106 formalin-fixed paraffin-embedded invasive breast cancer tissue samples and analyzed both the numbers and percentages of investigated cells in tumor-associated infiltrates. We observed that triple-negative breast cancer (TNBC) and HER2+ non-luminal breast tumors were associated with more numerous CTLs and Tregs and a higher Treg/Th2 cell ratio as compared with luminal A subtype. A higher Treg percentage was related to a decreased hormone receptor expression, an increase in the Ki67 level, a greater tumor size of luminal tumors, and the presence of lymph node metastases. Moreover, differences in the composition of T cell infiltrates were associated with HER2 status and histologic grade and type, and a distinct immune pattern was observed in tumors of different phenotypes regarding pT stage and nodal status. The results of our work show the diversity of T cell infiltrates in primary invasive breast cancers of different phenotypes and suggest that progression of luminal or non-luminal tumors is related to distinct tumor-associated T cell composition.

Interleukin-35 modulates the balance between viral specific CD4+CD25+CD127dim/- regulatory T cells and T helper 17 cells in chronic hepatitis B virus infection

Background

Interleukin (IL)-35 regulates imbalance between regulatory T cells (Tregs) and T helper (Th) 17 cells, leading to an important modulator in autoimmune disorder, cancer, and infectious diseases. Our previous study revealed an immunosuppressive activity of IL-35 in chronic hepatitis B virus (HBV) infection. Thus, the aim of the current study was to investigate the role of regulatory function of IL-35 to viral specific Tregs/Th17 cells balance in chronic HBV infection.

Methods

A total of 44 HLA-A2 restricted chronic HBV infected patients, including 21 of chronic hepatitis B (CHB) and 23 of asymptomatic HBV carriers (ASC) were enrolled. Purified CD4⁺ T cells or CD4⁺CD25⁺CD127^dim/− Tregs were stimulated with recombinant IL-35. HBV core antigen specific Tregs and Th17 cells were determined by flow cytometry. FoxP3 and RORγt mRNA was measured by real-time PCR. Cytokines production (IL-10 and IL-17) was investigated by ELISA.

Results

Peripheral viral specific Tregs was comparable between CHB and ASC. However, increased percentage of viral specific Th17 cells was found in CHB, leading to the reduction of Tregs/Th17 ratio in CHB patients. IL-35 stimulation elevated viral specific Tregs, but not Th17 cells frequency, in both CHB and ASC, resulting in the elevation of Tregs/Th17 ratio in both groups. This process was accompanied by increased expression of FoxP3 mRNA and IL-10 production, and decreased IL-17 secretion and STAT3 phosphorylation in purified CD4⁺ T cells. Moreover, IL-35 stimulation inhibited viral specific Th17-like phenotype differentiation from Tregs in CHB patients. Effective anti-HBV therapy did not affect viral specific Tregs/Th17 cells frequency or IL-35 expression in CHB patients, however, reduced responsiveness of CD4⁺ T cells or Tregs to IL-35 stimulation in vitro.

Conclusion

Our findings indicated that IL-35 regulation to viral specific Tregs/Th17 balance may contribute to viral persistence in chronic HBV infection.

Dysregulation of humoral immunity in Foxp3 conditional-knockout mice

Foxp3⁺ regulatory T cells (Tregs) are crucial for maintaining tolerance to self-antigens and preventing autoimmune diseases. Loss of Foxp3 expression leads to autoimmunity and disrupts humoral immune responses, including hyperproduction of immunoglobulin E (IgE). Elucidation of how Tregs control antibody production can lead to the development of new therapies for autoimmune and allergic diseases. However, premature death of Foxp3-deficient mice makes it difficult to analyze the roles of Tregs in humoral immunity of adult mice. In this study, we developed Foxp3 conditional-knockout mice (Foxp3^floxR26^CreERT2) in which the Foxp3 gene was inducibly deleted by tamoxifen administration. After oral administration of tamoxifen, titers of immunoglobulins, particularly IgG2c and IgE, were increased in Foxp3^floxR26^CreERT2 mice compared with that in controls. Under these conditions, CD4⁺ T cells from Foxp3^floxR26^CreERT2 mice had increased expression of several activation markers, including inducible costimulator and CD40 ligand, as well as the cytokines interleukin 4 and interferon gamma. In addition, the proportions of T follicular helper (Tfh) cells and germinal center (GC) B cells were increased in Foxp3^floxR26^CreERT2 mice compared with those in controls. These results indicated that Tregs controlled excessive or pathogenic antibody production by suppressing Tfh cell differentiation and GC formation. Furthermore, these data suggested that Foxp3^floxR26^CreERT2 mice could be a useful tool for screening therapeutic agents.

Epigenetic Regulation of Regulatory T Cells in Kidney Disease and Transplantation

Regulatory T (Treg) cells are a kind of immunosuppression cells, which have been used to treat autoimmune diseases and induce allograft tolerance in clinical trials. While Treg cells based therapy is a promising treatment for kidney diseases and an emerging concept for tolerance induction in renal transplantation, a better understanding of the functions and biology of Treg cells is needed to be able to optimally exploit them. Epigenetics regulation, which refers to potentially heritable alterations in gene expression without underlying changes of the nucleotide sequence, plays an important role in Treg cells induction and maintenance. The expression of Foxp3, the key factor of Treg cells, is regulated by DNA methylation, histone modification and post-transcriptionally modification. Herein, we review the current understanding of Treg cells in kidney diseases and transplantation, and discuss the epigenetic regulation of Treg cells.

TNFR2-expressing CD4+Foxp3+ regulatory T cells in cancer immunology and immunotherapy

CD4⁺Foxp3⁺ regulatory T cells (Tregs) represent a major cellular mechanism in tumor immune evasion. Elimination of Treg activity has become a strategy to devise an effective tumor immunotherapy. We reported that TNF receptor type II (TNFR2), one of two receptors transducing TNF biological activity, is preferentially expressed by the most suppressive subset of Tregs. By interaction with TNFR2, TNF plays a decisive role in the activation, expansion and phenotype stability of Tregs. We also found that highly suppressive TNFR2-expressing Tregs appear to be tumor-associated Tregs. This finding has been supported by recent studies in mouse tumor models and in cancer patients. In this chapter, published data revealing the important role of TNFR2⁺ Tregs in tumor development and metastasis in different tumor types are reviewed and analyzed. The therapeutic potential of targeting TNF-TNFR2 interaction as means to eliminate Treg activity, and consequently to enhance anti-tumor immune responses, also is discussed.

Characteristics of regulatory T-cell populations before and after Ty21a typhoid vaccination in children and adults

Typhoid fever, caused by the pathogen Salmonella enterica serovar Typhi (S. Typhi), is a serious global health concern. Challenge studies with wild type S. Typhi identified associations between gut-homing regulatory T cells (Treg) and development of typhoid disease. Whether oral live-attenuated Ty21a vaccination induces gut-homing Treg remains unclear. Here, we analyze pediatric and adult Treg pre- and post-Ty21a vaccination in an autologous S. Typhi-antigen presentation model to address this knowledge gap. We show that peripheral memory Treg populations change from childhood to adulthood, but not following Ty21a vaccination. Unsupervised dimensionality reduction with t-distributed stochastic neighbor embedding (tSNE) identifies homing, memory, and functional features which evidence age-associated maturation of multifunctional S. Typhi-responsive Treg, which were not impacted by Ty21a vaccination. These findings improve understanding of pediatric regulatory T cells, while identifying age-related differences in S. Typhi-responsive Treg, which may aid in the development of improved pediatric vaccination strategies against S. Typhi.

Natural compound inducers of immunogenic cell death

Accumulating evidence shows that the anti-cancer potential of the immune response that can be activated by modulation of the immunogenicity of dying cancer cells. This regulated cell death process is called immunogenic cell death (ICD) and constitutes a new innovating anti-cancer strategy with immune-modulatory potential thanks to the release of damage-associated molecular patterns (DAMPs). Some conventional clinically-used chemotherapeutic drugs, as well as preclinically-investigated compounds of natural origins such as anthracyclines, microtubule-destabilizing agents, cardiac glycosides or hypericin derivatives, possess such an immune-stimulatory function by triggering ICD. Here, we discuss the effects of ICD inducers on the release of DAMPs and the activation of corresponding signaling pathways triggering immune recognition. We will discuss potential strategies allowing to overcome resistance mechanisms associated with this treatment approach as well as co-treatment strategies to overcome the immunosuppressive microenvironment. We will highlight the potential role of metronomic immune modulation as well as targeted delivery of ICD-inducing compounds with nanoparticles or liposomal formulations to improving the immunogenicity of ICD inducers aiming at long-term clinical benefits.

[Prognostic value of tumor infiltration immune cells in pancreatic cancer]

Objective: To investigate the prognostic effect of tumour-infiltrating immune cell, including CD8(+) T cell, regulatory T-cell (Treg) and myeloid-derived suppressor cells (MDSC) on pancreatic patients. Methods: This study retrospectively collected the data of 80 patients who were histologically diagnosed of pancreatic cancer and underwent classical R0 surgical resection at Tianjin Medical University Cancer Institute and Hospital from January 2010 to May 2012. All patients survival were followed up until the cut-off date of January 2015. Clinicopathological features including immunohistochemical staining of FOXP3, CD8 and CD33 were reviewed as indice for evaluating the prognosis of pancreatic patients.The prognostic effect of tumour-infiltrating immune cells were analysed by Kaplan-Meier and Log-rank test. Multiple-factor analysis was conducted with the Cox regression model. The correlation between tumour-infiltrating immune cells and clinicopathological features was analysed by χ(2) test. The C57BL/6 mouse model was used to evaluate the efficacy of Treg and MDSC depletion therapy in vivo. Student's t-test was applied to assess the difference of the tumour volume, Ki-67 positive rate and CD8(+) T-cell infiltration proportion between depletion group and control group. Results: Eventually, 80 patients were included and no patient was lost during the follow-up period. The median follow-up time was 33.2 months (7.4-59.9 months). Patients with high level of tumour-infiltrating CD8(+) T cells had longer overall survival (OS) time ((21.6±11.9)months vs. (13.6±7.4)months, χ(2)=4.647, P = 0.031) than those with low level of tumour-infiltrating CD8(+) T cells. Tumor infiltration FOXP3(+) cells were strongly associated with reduced OS((20.9±8.5)months vs.(13.4±8.8)months, χ(2)=10.528, P=0.001), reduced relapse free survival (RFS) ((15.2±9.0)months vs. (9.5±8.8)months, χ(2)=6.288, P=0.012) and larger tumor size(χ(2)=4.073, r=0.226, P=0.044). The high intratumoural MDSC group showed a significantly shorter OS((23.5±11.8)months vs. (13.8±7.6)months, χ(2)=5.724, P=0.017), RFS((17.9±11.3)months vs. (10.2±7.5)months, χ(2)=7.430, P=0.006) and more advanced N stage (χ(2)=4.714, r=0.243, P=0.030) than the low intratumoural MDSC group. Multivariate Cox analysis revealed that pTNM (P=0.008), tumour-infiltrating Treg density (P=0.009) and intratumoural MDSC density (P=0.034) were independent and negative prognostic factors for OS; pTNM(P=0.003) and tumour-infiltrating MDSC level(P=0.018) were independent and negative factors for RFS. The experiment in vivo revealed that Treg and MDSC depletion therapy significantly decreased tumour volume in the C57BL/6 mouse model of subcutaneous tumours((1 396.3±442.5)mm(3) vs. (3 356.9±533.5)mm(3), t=4.986, P=0.018). Tumour Ki-67 positive rate significantly decreased (23%±5% vs. 55%±10%, t=3.130, P=0.011) in Treg and MDSC depletion group, whereas, the proportion of tumour-infiltrating CD8(+) T cells significantly increased in depletion groups (3.25%±0.69% vs. 0.76%±0.25%, t=3.393, P=0.007). Conclusions: Tumour-infiltrating Treg, MDSC level and pTNM stage are independent prognostic factors for patients with pancreatic cancer. Treg and MDSC depletion therapy can significantly retard tumour growth and increase the level of tumour-infiltrating CD8(+) T-cells in the C57BL/6 mouse model of subcutaneous tumours.

Treg cells in autoimmunity: from identification to Treg-based therapies

Regulatory (Treg) cells are key regulators of inflammation and important for immune tolerance and homeostasis. A major progress has been made in the identification and classification of Treg cells. Due to technological advances, we have gained deep insights in the epigenetic regulation of Treg cells. The use of fate reporter mice allowed addressing the functional consequences of loss of Foxp3 expression. Depending on the environment Treg cells gain effector functions upon loss of Foxp3 expression. However, the traditional view that Treg cells become necessarily pathogenic by gaining effector functions was challenged by recent findings and supports the notion of Treg cell lineage plasticity. Treg cell stability is also a major issue for Treg cell therapies. Clinical trials are designed to use polyclonal Treg cells as therapeutic tools. Here, we summarize the role of Treg cells in selected autoimmune diseases and recent advances in the field of Treg targeted therapies.

[Artesunate attenuate chronic graft-versus-host disease by regulating Th17/Treg balance]

目的

探讨青蒿琥酯抗慢性移植物抗宿主病（cGVHD）的作用及可能机制。

方法

将B10D2小鼠的骨髓细胞和脾脏细胞混合悬液通过尾静脉输入近交系雌性BALB/c小鼠体内建立cGVHD模型，分别予青蒿琥酯（实验组）和丙酮腹腔（对照组）注射治疗。观察两组小鼠的cGVHD临床表现、生存时间和组织病理学改变；应用流式细胞术分析小鼠外周血和脾脏Th17和Treg细胞比例；免疫磁珠分选BALB/c小鼠脾脏CD4⁺T细胞，分别予丙酮和青蒿琥酯进行干预72 h，流式细胞术分析两组Th17/Treg细胞比例。

结果

①实验组小鼠cGVHD临床症状较对照组明显减轻，生存时间延长[（55.71±6.99）d对（46.57±7.83）d，χ²=5.457，P=0.020]。②实验组小鼠皮肤及肺脏cGVHD病理损伤较轻。③与对照组比较，实验组小鼠外周血、脾脏Th17细胞比例均降低[（0.58±0.19）%对（1.51±0.18）%，t=7.233，P<0.001；（0.71±0.18）%对（1.48±0.38）%，t=3.653，P=0.011]，Treg细胞比例增高[（8.40±0.23）%对（4.45±0.04）%，t=15.680，P<0.001；（10.48±0.48）%对（6.62±0.24）%，t=6.590，P=0.003]，Th17/Treg细胞比值均下降（0.09±0.03对0.34±0.05，t=7.621，P=0.002；0.06±0.02对0.19±0.03，t=6.993，P=0.002）。④体外培养小鼠脾脏CD4⁺T细胞，青蒿琥酯干预组较对照组Th17细胞比例减低[（0.82±0.37）%对（3.39±1.22）%，t=4.044，P=0.007]，Treg细胞比例明显增高[（34.63±1.29）%对（14.28±1.69）%，t=19.119，P<0.001]，Th17/Treg细胞比值下降（0.24±0.09对0.02±0.01，t=4.780，P=0.003）。

结论

青蒿琥酯可通过减少Th17细胞及增加Treg细胞，恢复Th17/Treg平衡，减轻cGVHD的临床与病理学损伤，从而发挥抗cGVHD作用。

Food allergy is linked to season of birth, sun exposure, and vitamin D deficiency

The season of birth and ultraviolet B exposure have been related to the occurrence of food allergy. The levels of vitamin D produced from skin by ultraviolet B exposure might reflect this relationship. Vitamin D is known to induce antimicrobial peptides, protect intestinal flora, enhance the gut epithelial barrier, suppress mast cell activation and IgE synthesis from B cells, and increase the number of tolerogenic dendritic cells and IL-10-producing regulatory T cells. Vitamin D deficiency has been shown to exacerbate sensitization and allergic symptoms in a murine model of food allergy. However, in clinical situations, contradictory observations have been reported regarding the relationship between food allergy and vitamin D deficiency/supplementation. In this review, we have explored the links between food allergy and vitamin D levels. One explanation for the discrepant findings is confounding factors such as race, age, residency, skin color, and epigenetic changes that contribute to vitamin D levels. In addition, the season of birth influences the development of atopic dermatitis, which could lead to food sensitization. Finally, ultraviolet radiation could lead to regulatory T cell expansion and immunosuppression, irrespective of vitamin D status. Based on our current understanding, we believe that correction of vitamin D deficiency by supplementation, appropriate skin care, and sufficient ultraviolet radiation exposure could alter the prognosis of food allergy. To identify potential treatment strategies for food allergy, it is essential to gain a better understanding of the appropriate levels of vitamin D and ultraviolet radiation exposure.

Vitamin D-modulated dendritic cells delay lethal graft-versus-host disease through induction of regulatory T cells

Graft-versus-host disease (GVHD) is the most lethal complication after allogeneic bone marrow transplantation (allo-BMT). Current approaches to prevent GVHD rely on donor lymphocyte/T cell depletion or general immunosuppression, leading to opportunistic infections and cancer relapse. Tolerogenic dendritic cells can induce regulatory T cells (Tregs) with the ability to suppress inflammation and prevent transplant rejection, making them an attractive cellular therapy to control GVHD. Active vitamin D (1α,25-dihydroxyvitamin D₃; 1α,25(OH)₂D₃) promotes the generation of tolerogenic dendritic cells (1,25D₃-DCs). This study aimed to determine the ability of ex vivo generated 1,25D₃-DCs to trigger the expansion of Tregs that are able to control lethal xenogeneic GVHD in humanized NOD/LtSz-Prkdc^scidIL2rγ^tm1Wjl (NSG) mice. We demonstrate that 1,25D₃-DCs express lower levels of HLA-DR and costimulatory molecules, such as CD80 and CD86, and produce higher levels of IL-10 and TNF-α and lower amounts of IL-12, compared to vehicle-treated DCs. Moreover, these cells express increased levels of various co-inhibitory molecules such as PD-L1 and ILT-3 and the glycoprotein CD52 that is known to suppress T cell activation. Consequently, 1,25D₃-DCs are poor stimulators of alloantigen-primed T cells, but foster the generation of antigen-specific suppressive Tregs. When adoptively transferred in humanized NSG mice, these 1,25D₃-DC-induced Tregs delayed GVHD caused by the co-transferred autologous human peripheral blood mononuclear cells (PBMCs). These results indicate that 1,25D₃-DC-induced Tregs can inhibit xenogeneic GVHD and maintain their immunomodulatory function under conditions of inflammation.

Maintenance-Phase Subcutaneous Immunotherapy with House Dust Mites Induces Cyclic Immunologic Effects

BACKGROUND

Subcutaneous immunotherapy (SCIT) is an effective treatment of respiratory allergies including house dust mite (HDM) and Hymenoptera venom allergy. During the build-up phase, the allergen is administered weekly at increasing doses, while during the maintenance phase, it is administered at a fixed high dose every 4 weeks. Upon SCIT injection, the allergen is driven to the draining lymph nodes where it most likely induces an immune response. Immunologic changes are thus supposedly induced at each injection.

OBJECTIVES

It is now established that SCIT induces tolerance in the long term, but the precise underlying immunologic mechanisms remain unclear. Therefore, we wanted to analyze the immunologic changes induced in both innate and adaptive immune cells at each individual SCIT administration during the maintenance phase in HDM-allergic patients. More specifically, we wondered whether the changes in regulatory T cell (Treg) and IgE+ B cell percentages, which are observed at the end of a 3-year course of SCIT, already occurred during the maintenance phase and whether these possible changes were sustained.

METHODS

We enrolled 6 patients suffering from HDM allergic rhinitis and undergoing maintenance HDM SCIT for 18-24 months. The same SCIT extract was used for all patients. We collected blood samples at 5 time points: T1 (immediately before a given SCIT injection), T2 (9 days after T1), T3 (29 days after T1 and right before the successive administration), T4 (39 days after T1), and T5 (61 days after T1 and just before the next injection). Six non-allergic age-matched healthy individuals were used as controls. Using flow cytometry, we assessed the following cell subsets in peripheral blood mononuclear cells: CD4 and CD8 T cells, Tregs, B cells, IgE+ B cells, NK and NKT cells, and total and activated basophils.

RESULTS

HDM-allergic patients displayed increased percentages of CD4 and CD8 T cells and NK cells compared to healthy controls. In contrast, NKT cells, total B cells, and basophils were diminished. These differences were maintained throughout the time course and seemed to be independent of the periodical SCIT injections. On the contrary, Treg percentages were significantly reduced in all HDM-allergic patients at T1. However, they increased at T2 and T4 (9 days after each SCIT injection) but decreased again at T3 and T5, just before the next one, resulting in cyclic changes. IgE+ B cells were significantly increased at T1, even more increased after each administration (T2, T4), and went back to their initial levels at T3 and T5, also resulting in a cyclic pattern.

CONCLUSIONS

Our data suggest that during the SCIT maintenance phase, cycles of expansion/contraction of Tregs and IgE+ B cells occur at each SCIT injection. Therefore, the sustained induction of immune tolerance by SCIT, through the increase of Tregs, seems to depend on the periodical exposure to the allergen, at least during the early steady state.

CD150highTreg cells may attenuate graft versus host disease and intestinal cell apoptosis after hematopoietic stem cell transplantation

Combined transplantation of regulatory T cells (Treg cells) may significantly attenuate graft versus host disease (GVHD) after hematopoietic stem cell transplantation (HSCT). Recent studies indicated that CD150+Treg cells could secret adenosine to maintain the quiescent status of HSCs. However, whether it is attributable to the attenuation of GVHD after HSCT is still unclear. In vitro studies revealed that CD150+Treg cells induced immune tolerance was comparable to that induced by CD150-Treg cells, but CD150+Treg cells can secret more adenosine, increase P-AMPK expression and regulate energy metabolism to induce the proliferation of HSC proliferation and inhibit their differentiation into dendritic cells. In this study, GVHD animal model was established, and combined transplantation of Treg cells and HSCs was performed. Results showed the survival time was significantly prolonged, the proliferation rate of HSCs increased significantly and the proportion of undifferentiated HSCs elevated significantly after CD150+Treg transplantation as compared to CD150-Treg transplantation. Immunohistochemistry revealed CD150+Treg cells could secret adenosine, activate AMPK expression and inhibit intestinal cell apoptosis and inflammation after HSCT. Taken together, this study indicates CD150+Treg cells can regulate energy metabolism to attenuate GVHD and intestinal cell apoptosis after HSCT.

Shape of gastrointestinal immunity with non-genetically modified Lactococcus lactis particles requires commensal bacteria and myeloid cells-derived TGF-β1

Heat-killed probiotics or microbial autologous components show multiple activities on modulating host immune responses towards tolerance or vice versus aggressiveness. Gram-positive enhancer matrix particles (GEMs), the non-genetically modified particles which composed of the cell wall derived from Lactococcus lactis (L. lactis), were used as a typical microbial molecule to investigate the mechanism of opposite immune responses generated in disparate scenarios. The results of stool 16S rRNA Illumina sequencing suggested that the overwhelming number of mice pre-administered with GEMs showed the expansion of Bacteroidetes but contraction of Verrucomicrobia. Co-administration GEMs and antibiotics could preserve the microbial diversity, even though the abundance of gut microbes was largely depleted by antibiotics. Additionally, dendritic cells (DCs) from mice receiving GEMs rather than DCs that in vitro treated with GEMs induced the expansion of regulatory T cells (Tregs), witnessing the critical role of gut flora alteration. Importantly, this alteration provided protection to alleviate dextran sulfate sodium (DSS)-induced intestinal inflammation. On the other hand, in the context of Helicobacter felis (H. felis) infection, the mice pre-administrated with GEMs exhibited a comparably potent gastric immunity with the elevated expression of IFN-γ, IL-17, and multiple anti-microbial factors, leading to the reduced burden of H. felis. However, tolerance for both DSS-induced intestinal inflammation and immunity against H. felis was depleted in a mice model lacking of transforming growth factor-β1 (TGF-β1) in myeloid cells. These findings suggest that GEMs can modulate host immune responses bidirectionally according to context, and may serve as a supplement for antibiotic treatment.

Triptolide ameliorates lupus via the induction of miR-125a-5p mediating Treg upregulation

Triptolide is a biologically active component of the Chinese antirheumatic herbal remedy Tripterygium wilfordii Hook F, which has been shown to be effective in treating murine lupus. However, its immunological mechanisms are poorly understood. Regulatory T cells (Treg) are pivotal for maintaining peripheral self-tolerance and controlling autoimmunity. This study was undertaken to examine the therapeutic effect of triptolide in lupus mice and the related molecular mechanisms. Our results showed that triptolide treatment ameliorated serum anti-dsDNA, proteinuria and renal histopathologic assessment in MRL/lpr mice, induced the miR-125a-5p expression and enhanced the proportion of Treg in vivo. In vitro, triptolide upregulated the proportion of Treg and the miR-125a-5p expression. Down-regulation of the miR-125a-5p expression reversed the effect of triptolide on Treg. In conclusion, triptolide could induce Treg and the miR-125a-5p expression in vivo and in vitro. Inhibiting the effect of miR-125a-5p could counteract the effect of triptolide on inducing Treg. The study has strong implications for the therapeutic applications of triptolide in systemic lupus erythematosus.

Adoptive transfer of regulatory T cells stimulated by Allogeneic Hepatic Stellate Cells mitigates liver injury in mice with concanavalin A-induced autoimmune hepatitis

Regulatory T cell (Treg)-based therapy can effectively control autoimmune hepatitis (AIH). Hepatic stellate cells (HSC) can selectively stimulate allogeneic Treg proliferation following liver transplantation. This study tested the therapeutic effect and potential mechanisms underlying the action of HSC-stimulated Tregs on AIH in a mouse model of Concanavalin A (ConA)-induced AIH. HSC were isolated from BALB/c mice and characterized. Splenic CD4⁺CD25⁺ Tregs were isolated from C57BL/6 mice by immunomagnetic beads. The cells were co-cultured with primary (HSC-0), the second generation of HSC (HSC-2) for 72 h. The proliferation of Tregs was determined by flow cytometry. Similarly, the Tregs were co-cultured with HSC in transwell plates to determine the potential cell-cell contact dependent. The CD4⁺CD25^- effector T cells (CFSE-Teffs) were co-cultured with Teff or Tregs in the presence or absence of HSC to determine the suppressive capacity of Tregs. The effects of Tregs or HSC-stimulated Tregs on AIH severity and the frequency of splenic Tregs and Th17 cells were examined in mice. Co-culture with HSC-2 significantly promoted Treg proliferation in a dose- and cell-cell contact-dependent manner, and allogeneic HSC enhanced the suppressive activity of Tregs to inhibit the proliferation of Teff in vitro. Adoptive transfer of Tregs, particularly of HSC-stimulated Tregs, significantly reduced liver injury, inflammation and Ishak modified histology activity index in AIH mice, which were associated with improving the balance of Treg and Th17 cell responses. Our data indicated that mature HSC stimulated allogeneic Treg proliferation in a dose and cell-cell contact-dependent manner, and HSC enhanced the suppressive activity of Tregs to inhibit the proliferation of Teff. Adoptive transfer of HSC-stimulated Tregs significantly reduced liver injury in AIH mice by modulating the balance of Treg and Th17 cell responses.

Autophagy in regulatory T cells: A double-edged sword in disease settings

Autophagy is an evolutionarily conserved catabolic process that directs cytoplasmic proteins, organelles and microbes to lysosomes for degradation. It not only represents an essential cell-intrinsic mechanism to protect against internal and external stresses but also shapes both innate and adaptive immunity. Regulatory T cells (Tregs) are a developmentally and functionally distinct T cell subpopulation engaged in sustaining immunological self-tolerance and homeostasis. There is compelling evidence that autophagy is actively regulated in Tregs and serves as a central signal-dependent controller for Tregs by restraining excessive apoptotic and metabolic activities. In this review, we discuss how autophagy modulates the stability and functionality of Tregs in different disease settings, and provide a perspective on how manipulation of autophagy enables better control of immune response by targeting the generation of Tregs and the maintenance of their stability.

Absolute numbers of regulatory T cells and neutrophils in corticosteroid-free patients are predictive for response to bevacizumab in recurrent glioblastoma patients

Bevacizumab (Bv) remains frequently prescribed in glioblastoma (GBM) patients, especially at recurrence. We conducted a prospective clinical trial with 29 recurrent GBM patients treated with Bv alone with a longitudinal follow-up of different circulating immune cells [complete blood count, myeloid-derived suppressor cells (MDSCs), classical, intermediate, non-classical and Tie2 monocytes, VEGFR1+ and regulatory T cells (Treg)]. We observed a significant increase for leucocytes, neutrophils, eosinophils and classical monocytes and a decrease for the fraction of Treg during the treatment. The best prognostic values for survival under Bv were obtained for basal neutrophils and Treg. Counts below 3.9 G/L for neutrophils and above 0.011 G/L for Treg were associated with an overall survival of 17.5 and 19.9 months, respectively, as compared with 5.4 and 5.6 months, respectively, for counts above and below these cutoffs (p = 0.004 and p < 0.001). No prognostic impact was observed for neutrophils in a retrospective cohort of 26 patients treated with nitrosoureas alone. In another retrospective validation cohort of 61 GBM patients treated at recurrence with a Bv-containing regimen, an interaction was observed between neutrophils and corticosteroid intake. The predictive value of neutrophils on survival under Bv was lost in patients treated with corticosteroids, when steroid-free patients with a low neutrophil count had a particularly long median survival of 3.4 years. These two simply accessible criteria (basal neutrophils and steroid intake) could be used to reserve this relatively costly treatment for patients likely to be the most responsive to Bv and prevent unnecessary side effects in others.

Vitamin D controls the capacity of human dendritic cells to induce functional regulatory T cells by regulation of glucose metabolism

Tolerogenic dendritic cells (tolDCs) instruct regulatory T cells (Tregs) to dampen autoimmunity. Active vitamin D₃ (1α,25-dihydroxyvitamin D₃; 1α,25(OH)₂D₃) imprints human monocyte-derived DCs with tolerogenic properties by reprogramming their glucose metabolism. Here we identify the glycolytic enzyme 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 4 (PFKFB4) as a critical checkpoint and direct transcriptional target of 1α,25(OH)₂D₃ in determining the tolDC profile. Using tracer metabolomics, we show that PFKFB4 activity is essential for glucose metabolism, especially for glucose oxidation, which is elevated upon 1α,25(OH)₂D₃ exposure. Pharmacological inhibition of PFKFB4 reversed the 1α,25(OH)₂D₃-mediated shift in metabolism, DC profile and function, as determined by expression of inhibitory surface markers and secretion of regulatory cytokines and factors. Moreover, PFKFB4 inhibition in 1α,25(OH)₂D₃-treated DCs blocked their hallmark capacity to induce suppressive Tregs. This work demonstrates that alterations in the bioenergetic metabolism of immune cells are central to the immunomodulatory effects induced by 1α,25(OH)₂D₃.

Counter-regulation of regulatory T cells by autoreactive CD8+ T cells in rheumatoid arthritis

The mechanisms whereby autoreactive T cells escape peripheral tolerance establishing thus autoimmune diseases in humans remain an unresolved question. Here, we demonstrate that autoreactive polyfunctional CD8⁺ T cells recognizing self-antigens (i.e., vimentin, actin cytoplasmic 1, or non-muscle myosin heavy chain 9 epitopes) with high avidity, counter-regulate Tregs by killing them, in a consistent percentage of rheumatoid arthritis (RA) patients. Indeed, these CD8⁺ T cells express a phenotype and gene profile of effector (eff) cells and, upon antigen-specific activation, kill Tregs indirectly in an NKG2D-dependent bystander fashion in vitro. This data provides a mechanistic basis for the finding showing that AE-specific (CD107a⁺) CD8⁺ T killer cells correlate, directly with the disease activity score, and inversely with the percentage of activated Tregs, in both steady state and follow-up studies in vivo. In addition, multiplex immunofluorescence imaging analyses of inflamed synovial tissues in vivo show that a remarkable number of CD8⁺ T cells express granzyme-B and selectively contact FOXP3⁺ Tregs, some of which are in an apoptotic state, validating hence the possibility that CD8⁺ Teff cells can counteract neighboring Tregs within inflamed tissues, by killing them. Alternatively, the disease activity score of a different subset of patients is correlated with the expansion of a peculiar subpopulation of autoreactive low avidity, partially-activated (pa)CD8⁺ T cells that, despite they conserve the conventional naïve (N) phenotype, produce high levels of tumor necrosis factor (TNF)-α and exhibit a gene expression signature of a progressive activation state. Tregs directly correlate with the expansion of this autoreactive (low avidity) paCD8⁺ TN cell subset in vivo, and efficiently control their differentiation rather their proliferation in vitro. Interestingly, autoreactive high avidity CD8⁺ Teff cells or low avidity paCD8⁺ TN cells are significantly expanded in RA patients who would become non-responders or patients who would become responders to TNF-α inhibitor therapy, respectively. These data provide evidence of a previously undescribed role of such mechanisms in the progression and therapy of RA.

Interleukin-33 prevents the development of autoimmune diabetes in NOD mice

IL-33/ST2 signal is important for the generation of forkhead box P3 (Foxp3)⁺ regulatory (Treg) cells, which contribute to immune homeostasis in the context of diseases. The aim of this study was to determine whether targeting IL-33/ST2 signal could establish immunological tolerance and prevent type 1 diabetes (T1D) in nonobese diabetic (NOD) mice. Female NOD mice treated with IL-33 for 4 weeks decreased the incidence and delayed the onset of autoimmune diabetes, whereas IL-33 did not revert blood glucose concentration and disease development in mice with new-onset diabetes. IL-33 reduced immune cell infiltration, increased the number of insulin-positive islet cells, as well as increased antiapoptosis molecule Bcl2 and reduced proapoptosis molecules Caspase3 at mRNA levels in the pancreas. IL-33 increased the expression of phosphorylated-Akt and phosphorylated-PI3K in the pancreas. Systemic administration of IL-33 increased the number of CD4⁺CD25⁺Foxp3⁺Treg cells and induced expression of Treg cell-associated molecules ST2 and GATA3 in splenic lymphocytes, and increased Foxp3, Ctla4, and Gata3 at the -mRNA level in pancreatic lymph nodes of NOD mice. IL-33 signaling stimulated activation of phosphorylation of p44/42 (Erk) and p38 MAPK, as well as CD39 in the spleen. Our results showed that IL-33 prevents disease development in prediabetic NOD mice, and highlight IL-33/ST2 as a potential therapeutic target to prevent T1D.

ILC3-derived OX40L is essential for homeostasis of intestinal Tregs in immunodeficient mice

OX40L is one of the co-stimulatory molecules that can be expressed by splenic lymphoid tissue inducer (Lti) cells, a subset of group 3 innate lymphoid cells (ILC3s). OX40L expression in subsets of intestinal ILC3s and the molecular regulation of OX40L expression in ILC3s are unknown. Here, we showed intestinal ILC3s marked as an OX40L^high population among all the intestinal leukocytes and were the dominant source of OX40L in Rag1^-/- mice. All ILC3 subsets expressed OX40L, and NCR^-ILC3s were the most abundant source of OX40L. The expression of OX40L in ILC3s could be upregulated during inflammation. In addition to tumor necrosis factor (TNF)-like cytokine 1A (TL1A), which has been known as a trigger for OX40L, we found that Poly (I:C) representing viral stimulus promoted OX40L expression in ILC3s via a cell-autonomous manner. Furthermore, we demonstrated that IL-7-STAT5 signaling sustained OX40L expression by ILC3s. Intestinal regulatory T cells (Tregs), most of which expressed OX40, had defective expansion in chimeric mice, in which ILC3s were specifically deficient for OX40L expression. Consistently, co-localization of Tregs and ILC3s was found in the cryptopatches of the intestine, which suggests the close interaction between ILC3s and Tregs. Our study has unveiled the crosstalk between Tregs and ILC3s in mucosal tissues through OX40-OX40L signaling, which is crucial for the homeostasis of intestinal Tregs.

Helminths protect against type 1 diabetes: effects and mechanisms

Type 1 diabetes (T1D) is an autoimmune disease in which cells of the immune system destroy pancreatic β cells, which secrete insulin. The high prevalence of T1D in developed societies may be explained by environmental changes, including lower exposure to helminths. Indeed, infection by helminths such as Schistosoma, Filaria, and Heligmosomoides polygyrus and their by-products has been reported to ameliorate or prevent the development of T1D in human and animal models. Helminths can trigger distinct immune regulatory pathways, often involving adaptive immune cells that include T helper 2 (Th2) cells and regulatory T cells (Tregs) and innate immune cells that include dendritic cells, macrophages, and invariant natural killer T cells, which may act synergistically to induce Tregs in a Toll-like receptor-dependent manner. Cytokines such as interleukin (IL)-4, IL-10, and transforming growth factor (TGF)-β also play an important role in protection from T1D. Herein, we provide a comprehensive review of the effects and mechanisms underlying protection against T1D by helminths.

Immune signatures for HIV-1 and HIV-2 induced CD4+T cell dysregulation in an Indian cohort

Background

HIV-2 infection is characterised by a longer asymptomatic phase and slower AIDS progression than HIV-1 infection. Identifying unique immune signatures associated with HIV-2 pathogenesis may thus provide therapeutically useful insight into the management of HIV infection. This study examined the dynamics of the CD4⁺T cell compartment, critical in disease progression, focussing on chronic HIV-2 and HIV-1 infected individuals at various stages of disease progression.

Methods

A total of 111 participants including untreated and treated HIV infected individuals and seronegative individuals were enrolled in this study. The relative proportion of CD4⁺T cell subsets, expressing CD25 (IL-2Rα) and CD127 (IL-7R), in HIV infected individuals and seronegative controls were assessed by multiparametric flow cytometry. Additionally, levels of immune activation and cytotoxic T lymphocytes in both the CD4⁺T and CD8⁺T cell compartments was evaluated.

Results

Both treated and untreated, HIV-1 and HIV-2 infected individuals showed apparent dysregulation in CD4⁺ T cell subset frequency that was associated with disease progression. Furthermore, longitudinal sampling from a group of HIV-1 infected individuals on virologically effective ART showed no significant change in dysregulated CD4⁺T cell subset frequency. For both ART naïve and receiving groups associations with disease progression were strongest and significant with CD4⁺ T cell subset frequency compared to per cell expression of IL-2Rα and IL-7Rα. In untreated HIV-2 infected individuals, T cell activation was lower compared to ART naïve HIV-1 infected individuals and higher than seronegative individuals. Also, the level of Granzyme-B expressing circulating T cells was higher in both ART-naïve HIV-1 and HIV-2 infected individuals compared to seronegative controls.

Conclusion

Dysregulation of IL-2 and IL-7 homeostasis persists in CD4⁺T cell subsets irrespective of presence or absence of viremia or antiretroviral therapy in HIV infection. Furthermore, we report for the first time on levels of circulating Granzyme-B expressing CD4⁺T and CD8⁺T cells in chronic HIV-2 infection. Lower immune activation in these individuals indicates that persistent immune activation driven CD4⁺T cell depletion, as observed in untreated HIV-1 infected individuals, may not be as severe and provides evidence for a disparate pathogenesis mechanism. Our work also supports novel immunomodulatory therapeutic strategies for both HIV-1 and HIV-2 infection.

Electronic supplementary material

The online version of this article (10.1186/s12879-019-3743-7) contains supplementary material, which is available to authorized users.