scholarly journals Induced, but not natural, regulatory T cells retain phenotype and function following exposure to inflamed synovial fibroblasts

2020 ◽  
Vol 6 (44) ◽  
pp. eabb0606 ◽  
Author(s):  
Sujuan Yang ◽  
Ximei Zhang ◽  
Jingrong Chen ◽  
Junlong Dang ◽  
Rongzhen Liang ◽  
...  
Keyword(s):  
T Cells ◽  
Regulatory T Cells ◽  
Synovial Fibroblasts ◽  
Foxp3 Expression ◽  
Regulatory Function ◽  
Migration And Invasion ◽  
Effector Cells ◽  
T Effector Cells

Aberrant number and/or dysfunction of CD4+Foxp3+ Regulatory T cells (Tregs) are associated with the pathogenesis of rheumatoid arthritis (RA). A previous study has demonstrated that thymus-derived, natural Tregs (nTregs) prefer to accumulate in inflamed joints and transdifferentiate to TH17 cells under the stimulation of inflamed synovial fibroblasts (SFs). In this study, we made a head-to-head comparison of both Treg subsets and demonstrated that induced Tregs (iTregs), but not nTregs, retained Foxp3 expression and regulatory function on T effector cells (Teffs) after being primed with inflamed SFs. In addition, iTregs inhibited proliferation, inflammatory cytokine production, migration, and invasion ability of collagen-induced arthritis (CIA)–SFs in vitro and in vivo. Moreover, we noted that iTregs directly targeted inflamed SFs to treat autoimmune arthritis, while nTregs failed to do this. Thus, manipulation of the iTreg subset may have a greater potential for prevention or treatment of patients with RA.

scholarly journals Vitamin A Impairs the Reprogramming of Tregs into IL-17-Producing Cells during Intestinal Inflammation

2015 ◽  
Vol 2015 ◽  
pp. 1-8 ◽  
Author(s):  
Gabriela Tejón ◽  
Valeria Manríquez ◽  
Jaime De Calisto ◽  
Felipe Flores-Santibáñez ◽  
Yessia Hidalgo ◽  
...  
Keyword(s):  
T Cells ◽  
Vitamin A ◽  
Intestinal Inflammation ◽  
Foxp3 Expression ◽  
Treg Cells ◽  
Transfer Model ◽  
Effector Cells ◽  
T Effector Cells

Maintaining the identity of Foxp3+regulatory T cells (Tregs) is critical for controlling immune responses in the gut, where an imbalance between Tregs and T effector cells has been linked to inflammatory bowel disease. Accumulating evidence suggests that Tregs can convert into Th17 cells and acquire an inflammatory phenotype. In this study, we used an adoptive transfer model of Ag-specific T cells to study the contribution of different factors to the reprogramming ofin vitro-generated Treg cells (iTreg) into IL-17-producing cells in a mouse model of gut inflammationin vivo. Our results show that intestinal inflammation induces the reprogramming of iTreg cells into IL-17-producing cells and that vitamin A restrains reprogramming in the gut. We also demonstrate that the presence of IL-2 during thein vitrogeneration of iTreg cells confers resistance to Th17 conversion but that IL-2 and retinoic acid (RA) cooperate to maintain Foxp3 expression following stimulation under Th17-polarizing conditions. Additionally, although IL-2 and RA differentially regulate the expression of different Treg cell suppressive markers, Treg cells generated under different polarizing conditions present similar suppressive capacity.

Effective Prevention of Acute Graft-Verses-Host Disease by Targeting PKC Alpha and PKC Theta in Mice

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 1898-1898
Author(s):  
Kelley M.K. Haarberg ◽  
Crystina Bronk ◽  
Dapeng Wang ◽  
Amer Beg ◽  
Xue-Zhong Yu
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Acute Gvhd ◽  
T Cell Signaling ◽  
Effector Cells ◽  
T Effector Cells ◽  
Immunologic Synapse

Abstract Abstract 1898 Protein kinase C theta (PKCθ), a T cell signaling molecule, has been implicated as a therapeutic target for several autoimmune diseases as well as graft-versus-host disease (GVHD). PKCθ plays a vital role in stabilization of the immunologic synapse between T effector cells and antigen presenting cells (APC), but has been shown to be excluded from the immunologic synapse in T regulatory cells (T reg). PKCθ inhibition reduces the alloreactivity of donor T cells responsible for induction of GVHD while preserving graft-versus-leukemia (GVL) responses. The roles of PKCθ and the potential compensatory alpha isoform (PKCα) are not clearly defined with regard to alloresponses or T cell mediated responses in GVHD. In this context, we measured PKCθ and PKCα/θ gene deficient T cell activation upon TCR-ligation in vitro using [3H]-TdR incorporation and CSFE labeling assays. T cells from PKCθ and PKCα/θ gene deficient donor mice were utilized in vivo in a pre-clinical allogenic murine model of myeloablative bone marrow transplantation (BMT). The development of GVHD was monitored in recipient mice with or without injection of A20-luciferase cells to observe the progression of GVL in vivo. Combined blockade of PKCα and PKCθ causes a significant decrease in T cell proliferation compared to blocking PKCθ alone in vitro. Deficiency in PKCα and PKCθ had no effect on immune reconstitution following irradiation and BMT in vivo. Even with a high transplant load of 5×106 CD4+ and CD8+ T cells, PKCα/θ deficient (PKCα/θ−/−) T cells failed to induce acute GVHD. Our data suggest that the ability of double deficient T cells to induce GVHD was further reduced than PKCθ-deficient T cells. Additionally, a greater number and percentage of B220+ B cells and FoxP3+ T regs were isolated from the spleens of PKCα/θ−/− T cell recipient mice 120 after BMT than were isolated from wild type (WT) or PKCθ−/− T cell recipients. Fewer CD4+ or CD8+ T effector cells were isolated from the spleens of PKCα/θ−/− T cell recipient mice 120 after BMT than were isolated from wild type or PKCθ−/− T cell recipients. Importantly, the activity of B cells isolated from PKCα/θ−/− T cell recipient mice 120 after BMT was greater on a per cell basis, while the activity of T effector cells isolated from these mice was greatly reduced compared to WT or PKCθ−/− T cell recipients. While not absent, GVL was reduced in PKCα/θ−/− T cell recipient mice when compared to WT or PKCθ−/− T cell recipients. This work demonstrates the requirement of PKCα and θ for optimal activation and function of T cells in vitro. These experiments highlight a potential compensatory role for PKCα in the absence of PKCθ in T cell signaling and activation. Combined deficiency of PKCα and θ prevents induction of acute GVHD while improving the maintenance of splenic cellularity in PKCα/θ T cell recipient mice. Additionally, PKCα/θ dual deficient T cell transplant shifts the splenic balance toward a greater number and percentage of T reg and B cells and away from T effector cells following BMT. The reduced and sub-optimally active T effector cells isolated from PKCα/θ−/− T cell recipient mice in combination with reduced GVL stresses the importance of PKCα and θ molecules and their roles in T cell activity in the context of both GVHD and GVL. Dual deficiency of PKCα/θ is associated with a decline of T effector function that is optimal for the amelioration of GVHD, but is perhaps too reduced to substantially maintain effective GVL. Modulation of PKCα and θ signaling presents a valid avenue of investigation as a therapeutic option for GVHD. Disclosures: No relevant conflicts of interest to declare.

scholarly journals CD8α+ plasmacytoid precursor DCs induce antigen-specific regulatory T cells that enhance HSC engraftment in vivo

Blood ◽  
2011 ◽  
Vol 117 (8) ◽  
pp. 2494-2505 ◽  
Author(s):  
Yiming Huang ◽  
Larry D. Bozulic ◽  
Thomas Miller ◽  
Hong Xu ◽  
Lala-Rukh Hussain ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Regulatory T Cells ◽  
Foxp3 Expression ◽  
Cell Receptor ◽  
Third Party ◽  
Antigen Specificity ◽  
Clinical Potential

Abstract CD8-positive/T-cell receptor–negative (CD8+/TCR−) graft facilitating cells (FCs) are a novel cell population in bone marrow that potently enhance engraftment of hemopoietic stem cells (HSCs). Previously, we showed that the CD11c+/B220+/CD11b− plasmacytoid-precursor dendritic cell (p-preDC) FC subpopulation plays a critical but nonredundant role in facilitation. In the present study, we investigated the mechanism of FC function. We report that FCs induce antigen-specific CD4+/CD25+/FoxP3+ regulatory T cells (Tregs) in vivo. The majority of chimeric Tregs were recipient derived. Chimeric Tregs harvested at ≥ 4 weeks after transplantation significantly enhanced engraftment of donor- and recipient-derived HSCs, but not third-party HSCs, in conditioned secondary recipients, demonstrating antigen specificity. Although Tregs were present 2 and 3 weeks after transplantation, they did not enhance engraftment. In contrast, week 5 and greater Tregs potently enhanced engraftment. The function of chimeric Tregs was directly correlated with the development of FoxP3 expression. Chimeric Tregs also induced significantly stronger suppression of T-cell proliferation to donor antigen in vitro. Removal of p-preDC FCs resulted in impaired engraftment of allogeneic HSCs and failure to produce chimeric Tregs, suggesting that the CD8α+ p-preDC subpopulation is critical in the mechanism of facilitation. These data suggest that FCs induce the production of antigen-specific Tregs in vivo, which potently enhance engraftment of allogeneic HSCs. FCs hold clinical potential because of their ability to remain tolerogenic in vivo.

scholarly journals Basiliximab impairs regulatory T cell (TREG) function and could affect the short-term graft acceptance in children with heart transplantation

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Jacobo López-Abente ◽  
Marta Martínez-Bonet ◽  
Esther Bernaldo-de-Quirós ◽  
Manuela Camino ◽  
Nuria Gil ◽  
...  
Keyword(s):  
T Cells ◽  
Heart Transplant ◽  
Solid Organ Transplantation ◽  
Foxp3 Expression ◽  
Treg Cells ◽  
Protective Role ◽  
Regulatory Function ◽  
Solid Organ

AbstractCD25, the alpha chain of the IL-2 receptor, is expressed on activated effector T cells that mediate immune graft damage. Induction immunosuppression is commonly used in solid organ transplantation and can include antibodies blocking CD25. However, regulatory T cells (Tregs) also rely on CD25 for their proliferation, survival, and regulatory function. Therefore, CD25-blockade may compromise Treg protective role against rejection. We analysed in vitro the effect of basiliximab (BXM) on the viability, phenotype, proliferation and cytokine production of Treg cells. We also evaluated in vivo the effect of BXM on Treg in thymectomized heart transplant children receiving BXM in comparison to patients not receiving induction therapy. Our results show that BXM reduces Treg counts and function in vitro by affecting their proliferation, Foxp3 expression, and IL-10 secretion capacity. In pediatric heart-transplant patients, we observed decreased Treg counts and a diminished Treg/Teff ratio in BXM-treated patients up to 6-month after treatment, recovering baseline values at the end of the 12-month follow up period. These results reveal that the use of BXM could produce detrimental effects on Tregs, and support the evidence suggesting that BXM induction could impair the protective role of Tregs in the period of highest incidence of acute graft rejection.

scholarly journals Smad3 binding to the foxp3 enhancer is dispensable for the development of regulatory T cells with the exception of the gut

2012 ◽  
Vol 209 (9) ◽  
pp. 1529-1535 ◽  
Author(s):  
Susan M. Schlenner ◽  
Benno Weigmann ◽  
Qingguo Ruan ◽  
Youhai Chen ◽  
Harald von Boehmer
Keyword(s):  
T Cells ◽  
Regulatory T Cells ◽  
Transcription Initiation ◽  
Foxp3 Expression ◽  
Cell Development ◽  
Naive T Cells ◽  
Naïve T Cells ◽  
Smad3 Binding

Regulatory T cells (T reg cells) are essential for the prevention of autoimmunity throughout life. T reg cell development occurs intrathymically but a subset of T reg cells can also differentiate from naive T cells in the periphery. In vitro, Smad signaling facilitates conversion of naive T cells into T reg cells but results in unstable Foxp3 expression. The TGF-β–Smad response element in the foxp3 locus is located in the CNS1 region in close proximity to binding sites for transcription factors implicated in TCR and retinoic acid signaling. From in vitro experiments it was previously postulated that foxp3 transcription represents a hierarchical process of transcription factor binding in which Smad3 would play a central role in transcription initiation. However, in vitro conditions generate T reg cells that differ from T reg cells encountered in vivo. To address the relevance of Smad3 binding to the CNS1 enhancer in vivo, we generated mice that exclusively lack the Smad binding site (foxp3CNS1mut). We show that binding of Smad3 to the foxp3 enhancer is dispensable for T reg cell development in newborn and adult mice with the exception of the gut.

scholarly journals Amplification of tumor-specific regulatory T cells following therapeutic cancer vaccines

Blood ◽  
2006 ◽  
Vol 107 (2) ◽  
pp. 628-636 ◽  
Author(s):  
Gang Zhou ◽  
Charles G. Drake ◽  
Hyam I. Levitsky
Keyword(s):  
T Cells ◽  
Regulatory T Cells ◽  
Cd4 T Cells ◽  
Tumor Antigens ◽  
Suppressor Activity ◽  
Effector Cells ◽  
Immune Response To Cancer ◽  
Therapeutic Cancer Vaccines

AbstractThe fate of tumor-specific CD4+ T cells is central to the outcome of the host immune response to cancer. We show that tumor antigen recognition by a subset of CD4+ T cells led to their differentiation into cells capable of suppressing naive and Th1 effector cells. Such tumor-induced regulatory T cells (TMTregs) arose both from precommitted “natural” regulatory T cells and CD4+CD25–GITRlow precursors. Once induced, TMTregs were capable of maintaining suppressor activity long after transfer into antigen-free recipients. Suppression was mediated by GITRhigh cells residing within both CD25+ and CD25– subsets. Vaccination of the tumor-bearing host concomitantly expanded TMTregs and effector cells, but suppression was dominant, blunting the expansion of naive tumor-specific T cells and blocking the execution of effector function in vitro and in vivo. These studies illustrate the possibility that therapeutic vaccination could actually worsen host tolerance to tumor antigens and support treatment paradigms that seek to not only increase the frequency of tumor-specific T cells, but to do so in conjunction with strategies that inactivate or remove regulatory T-cell populations.

scholarly journals DNA Methyltransferase Inhibition Promotes Th1 Polarization in Human CD4+CD25high FOXP3+ Regulatory T Cells but Does Not Affect Their Suppressive Capacity

2018 ◽  
Vol 2018 ◽  
pp. 1-13 ◽  
Author(s):  
Sija Landman ◽  
Marjan Cruijsen ◽  
Paulo C. M. Urbano ◽  
Gerwin Huls ◽  
Piet E. J. van Erp ◽  
...  
Keyword(s):  
T Cells ◽  
Regulatory T Cells ◽  
Dna Methyltransferase ◽  
Hematological Malignancies ◽  
Foxp3 Expression ◽  
Significant Inhibition ◽  
Naturally Occurring ◽  
Suppressive Capacity

Regulatory T cells (Treg) can show plasticity whereby FOXP3 expression, the master transcription factor for Treg suppressor function, is lost and proinflammatory cytokines are produced. Optimal FOXP3 expression strongly depends on hypomethylation of the FOXP3 gene. 5-Azacytidine (Aza) and its derivative 5-aza-2′-deoxycytidine (DAC) are DNA methyltransferase inhibitors (DNMTi) that are therapeutically used in hematological malignancies, which might be an attractive strategy to promote Treg stability. Previous in vitro research primarily focused on Treg induction by DAC from naïve conventional CD4+ T cells (Tconv). Here, we examined the in vitro effect of DAC on the stability and function of FACS-sorted human naturally occurring CD4+CD25high FOXP3+ Treg. We found that in vitro activation of Treg in the presence of DAC led to a significant inhibition of Treg proliferation, but not of Tconv. Although Treg activation in the presence of DAC led to increased IFNγ expression and induction of a Thelper-1 phenotype, the Treg maintained their suppressive capacity. DAC also induced a trend towards increased IL-10 expression. In vivo studies in patients with hematological malignancies that were treated with 5-azacytidine (Vidaza) supported the in vitro findings. In conclusion, despite its potential to increase IFNγ expression, DAC does preserve the suppressor phenotype of naturally occurring Treg.

scholarly journals Signaling through C5a receptor and C3a receptor diminishes function of murine natural regulatory T cells

2013 ◽  
Vol 210 (2) ◽  
pp. 257-268 ◽  
Author(s):  
Wing-hong Kwan ◽  
William van der Touw ◽  
Estela Paz-Artal ◽  
Ming O. Li ◽  
Peter S. Heeger
Keyword(s):  
T Cells ◽  
T Cell ◽  
Regulatory T Cells ◽  
Cell Function ◽  
Foxp3 Expression ◽  
C5a Receptor ◽  
Self Tolerance ◽  
T Cell Immune Responses

Thymus-derived (natural) CD4+ FoxP3+ regulatory T cells (nT reg cells) are required for immune homeostasis and self-tolerance, but must be stringently controlled to permit expansion of protective immunity. Previous findings linking signals transmitted through T cell–expressed C5a receptor (C5aR) and C3a receptor (C3aR) to activation, differentiation, and expansion of conventional CD4+CD25− T cells (T conv cells), raised the possibility that C3aR/C5aR signaling on nT reg cells could physiologically modulate nT reg cell function and thereby further impact the induced strength of T cell immune responses. In this study, we demonstrate that nT reg cells express C3aR and C5aR, and that signaling through these receptors inhibits nT reg cell function. Genetic and pharmacological blockade of C3aR/C5aR signal transduction in nT reg cells augments in vitro and in vivo suppression, abrogates autoimmune colitis, and prolongs allogeneic skin graft survival. Mechanisms involve C3a/C5a-induced phosphorylation of AKT and, as a consequence, phosphorylation of the transcription factor Foxo1, which results in lowered nT reg cell Foxp3 expression. The documentation that C3a/C3aR and C5a/C5aR modulate nT reg cell function via controlling Foxp3 expression suggests targeting this pathway could be exploited to manipulate pathogenic or protective T cell responses.

scholarly journals Adenosine generation catalyzed by CD39 and CD73 expressed on regulatory T cells mediates immune suppression

2007 ◽  
Vol 204 (6) ◽  
pp. 1257-1265 ◽  
Author(s):  
Silvia Deaglio ◽  
Karen M. Dwyer ◽  
Wenda Gao ◽  
David Friedman ◽  
Anny Usheva ◽  
...  
Keyword(s):  
T Cells ◽  
T Regulatory Cells ◽  
Extracellular Nucleotides ◽  
Surface Markers ◽  
Effector Cells ◽  
T Effector Cells ◽  
Inhibitory Function ◽  
Coordinated Expression

The study of T regulatory cells (T reg cells) has been limited by the lack of specific surface markers and an inability to define mechanisms of suppression. We show that the expression of CD39/ENTPD1 in concert with CD73/ecto-5′-nucleotidase distinguishes CD4+/CD25+/Foxp3+ T reg cells from other T cells. These ectoenzymes generate pericellular adenosine from extracellular nucleotides. The coordinated expression of CD39/CD73 on T reg cells and the adenosine A2A receptor on activated T effector cells generates immunosuppressive loops, indicating roles in the inhibitory function of T reg cells. Consequently, T reg cells from Cd39-null mice show impaired suppressive properties in vitro and fail to block allograft rejection in vivo. We conclude that CD39 and CD73 are surface markers of T reg cells that impart a specific biochemical signature characterized by adenosine generation that has functional relevance for cellular immunoregulation.

Stability of Foxp3 Expression Is a Critical Factor In the Ability of Regulatory T Cells to Mitigate Graft Versus Host Disease

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 731-731
Author(s):  
Amy Beres ◽  
Richard Komorowski ◽  
William R. Drobyski
Keyword(s):  
T Cells ◽  
T Cell ◽  
Regulatory T Cells ◽  
Critical Factor ◽  
Foxp3 Expression ◽  
Spleen Cells ◽  
Graft Versus Host

Abstract Abstract 731 Graft versus host disease (GVHD) is a proinflammatory T cell-mediated syndrome that is the major complication of allogeneic bone marrow transplantation (BMT). During the course of GVHD, there is a progressive loss of regulatory T cells (Tregs), leading to an imbalance between the effector and regulatory arms of the immune system. Tregs have been subdivided into two distinct subsets, termed natural and induced, which have overlapping yet unique characteristics. While the role of natural regulatory T cells (nTregs) in GVHD biology has been extensively examined, the role of induced regulatory T cells (iTregs) remains largely unknown. An attractive aspect of the latter cell population is that they can be differentiated in vitro from conventional T cells and expanded in large numbers making them a potential source for regulatory T cell therapy in vivo. To determine whether in vitro-expanded iTregs were able to suppress alloreactive donor T cell responses and to compare the efficacy of these cells relative to nTregs, studies were performed using an MHC-incompatible murine BMT model (B6[H−2b]−Balb/c[H−2d]). In initial studies, purified CD4+ Foxp3EGFP– T cells obtained from B6 Foxp3EGFP reporter mice were cultured with anti-CD3 and anti-CD28 antibodies in the presence of IL-2 and TGF-b. After three days in culture, approximately 60–70% of cells were Foxp3+, expressed GITR, CD25, and CD103, and were equally suppressive to nTregs in mixed lymphocyte cultures. To determine if iTregs were suppressive in vivo, lethally irradiated Balb/c mice were transplanted with either B6 BM alone, B6 BM and spleen cells, or B6 BM/spleen cells and in vitro-expanded iTregs. In contrast to in vitro results, adoptive transfer of iTregs failed to protect mice from lethal GVHD even when administered at high Treg: effector T cell ratios (5:1) and were much less effective than equivalent doses of nTregs at abrogating GVHD pathology. iTregs also had no additive effect when co-administered with nTregs. Notably, we observed that whereas transferred nTregs persisted for up to 60 days in transplanted animals, iTregs were undetectable after only 14 days in liver, lung, colon and spleen, indicating that reduced in vivo survival was a potential explanation for the lack of protection. Further examination, however, revealed that the inability to detect iTregs was primarily attributable to the loss of Foxp3 expression and the subsequent in vivo reversion of these cells to a proinflammatory phenotype characterized by the secretion of interferon-gamma. In prior studies (Chen et al, Blood, 2009), we demonstrated that blockade of IL-6 signaling augmented reconstitution of nTregs and reduced overall GVHD severity. To determine whether inhibition of IL-6 could stabilize Foxp3 expression and prevent phenotypic reversion of iTregs, lethally irradiated Balb/c recipients were transplanted with B6 BM and spleen cells along with in vitro-differentiated iTregs and then treated with either isotype control or anti-IL-6R-specific antibody. Analysis of cells obtained from spleen, liver, lung and colon revealed that blockade of IL-6 signaling did not prevent loss of Foxp3 expression or reversion of iTregs to a Th1 cytokine phenotype. While Tregs can be converted from conventional T cells in vitro, they can also be generated in vivo during inflammatory syndromes. We therefore examined whether in vivo induction of iTregs occurred during GVHD and the extent to which blockade of IL-6 signaling affected iTreg expansion and overall GVHD protection. To address this question, lethally irradiated Balb/c mice were transplanted with B6 Rag-1 BM cells and purified CD4+ Foxp3EGFP– T cells, and then treated with either anti-IL-6R or control antibody. We observed that in vivo conversion of Tregs was negligible in control animals (<1%), but that administration of anti-IL-6R antibody significantly increased the relative and absolute number of iTregs in GVHD target tissues with a commensurate reduction in overall pathological damage. Thus, blockade of IL-6 signaling was able to enhance reconstitution of iTregs in vivo, but had no discernible affect on adoptively transferred iTregs. In summary, these studies demonstrate that the stability of Foxp3 expression is a critical factor in the maintenance of transplantation tolerance and that instability of expression limits the utility of adoptively transferred iTregs as a source of cellular therapy for the abrogation of GVHD. Disclosures: No relevant conflicts of interest to declare.

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