Autoreactive T cells that are capable of inducing disease exist in normal adult animals, but are maintained in a dormant or inactive state due to the suppressive functions of CD4+CD25+Foxp3+ regulatory T cells (Treg). Our recent studies have focused on defining the mechanism of action of the CD4+CD25+Foxp3+ Treg cells in vitro and on an analysis of their potential dysfunction in autoimmune disease: (1) We are analyzing the role of the transcription factor Helios (Ikzf2) in Treg function. Helios is a transcription factor belonging to the zinc finger containing Ikaros family comprised of five transcription factors-- Ikaros, Helios, Aiolos, Eos and Pegasus. Ikaros is expressed in all immune cells. Ikaros has the capacity to dimerize, not only with other Ikaros isoforms, but also with Aiolos or Helios isoforms. Ikaros can act both as a repressor and an activator of gene transcription. Helios can dimerize with itself, as well as with other family members. The Helios gene (Ikzf2) encodes protein isoforms with zinc-finger domains exhibiting considerable homology to Ikaros family proteins. Human and mouse Helios share 97% identity in their amino acid sequences. We screened a differentially expressed cDNA library from CD4+CD25+ T cells and found that helios was expressed at much higher levels when compared to CD4+CD25- T cells. Real-time PCR confirmed that helios mRNA is expressed at a rate 75-fold greater in CD4+CD25+ T cells than in CD4+CD25- T cells. To further characterize Helios, we examined Helios mRNA expression in various thymic subpopulations. We observed that Helios was expressed in the thymus at low levels as early as the DN stage. Helios continued to be expressed at low levels in DP cells, CD8+ cells and CD4+CD25- cells. However, there was a striking increase in Helios mRNA in thymic CD4+CD25+ cells, concurrent with the first appearance of Foxp3 mRNA. In order to more thoroughly examine Helios expression and function, we generated a monoclonal antibody (22F6) to a large peptide within the non-conserved 110 amino acid region in Helios. In agreement with the qPCR, mAb 22F6 reacted preferentially with CD4+CD25+ Tregs. Notably, when LN cells were gated on CD4+ cells and analyzed for Foxp3 and Helios expression, Helios was expressed on only 70% of Foxp3+ cells. As 22F6 was raised to a mouse peptide that differed from the human sequence by only two amino acids, we analyzed the reactivity of 22F6 in human cells. 22F6 also reacted with human PBMCs and was again, specific to the CD4+CD25hi Treg subset. Although much more variable than in mouse CD4+ cells, Helios was expressed in a subset of CD4+Foxp3+ cells in human that ranged from 50-90%, but on average, comprised 70% of Foxp3+ cells. Helios was expressed at the DN stage of thymic development, in agreement with the quantitative PCR data. Specifically, Helios was expressed at low levels as early as DN1, but was expressed in 100% of DN2 and DN3 cells. By DN4, Helios expression had begun to decrease. In contrast, Foxp3 was not expressed at the DN stage and thus, Helios precedes Foxp3 expression. We also observed that percentage of CD4+Foxp3+ Helios- cells was significantly lower in the thymus than in the periphery. Notably, there are no Foxp3+ Helios- cells at day 3 of life. Foxp3+ Helios- cells are absent in the neonate, do not significantly appear in the spleen until between day 7 and day 14 of life and do not reach the percentage observed in an adult until after the pups have been weaned. The observation that Foxp3+Helios- cells appear to arise in peripheral lymphoid tissue and do not acquire their full phenotypic profile until after weaning led us to examine the expression of Helios in TGF-beta induced iTreg cells. Both human and mouse iTreg were helios-. Collectively, these results demonstrate that Helios is a specific marker of thymic-derived Treg cells and raise the possibility that a significant percentage of Foxp3+ Treg cells are generated extra-thymically. (2) Toll-like receptors (TLRs) are a class of conserved pattern recognition receptors that are used by cells of the innate immune system. Recent studies have demonstrated the expression of TLRs on both human and mouse T cells raising the possibility that TLRs play a direct role in adaptive immunity. TLR2 is activated primarily by bacterial wall components including peptidoglycan and lipoproteins. Several studies have shown that mouse Treg express TLR2 and claimed that engagement of TLR2 by synthetic ligands reversed their suppressive function. In contrast, enhancement of Treg function was observed following engagement of TLR2 on human Treg. We have re-examined the expression and function of TLR2 on mouse Treg purified from Foxp3-GFP knock in mice. TLR2 ligation by the TLR2 agonist, the synthetic bacterial lipoprotein, Pam3CSK4, enhanced the proliferative responses of both conventional T cells and Treg in response to TLR stimulation in the absence of APC. Treatment of Foxp3+ Treg with Pam3CSK4 did not alter their suppressive function in vitro or in vivo and did not reduce their level of Foxp3 expression. An additional effect of TLR2 stimulation of Treg was induction of Bcl-xL resulting in enhanced survival in vitro. Treatment of mice with the TLR2 agonist enhanced the antigen-driven proliferation of Treg in vivo, but did not abolish their ability to suppress the development of EAE. Development of methods to selectively stimulate TLR2 on Treg may lead to a novel approaches for the treatment of autoimmune diseases. (3)Statins are widely used drugs for the treatment of hypercholesterolemia. They function as competitive inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A reductase, which is the rate-determining enzyme of the mevalonate pathway. More recent studies have also suggested that statins can mediate immunosuppressive functions and have proven effective in the treatment of autoimmune diseases or graft-versus-host disease in animal models. Although direct effects of statins on Treg function have not been reported, a number of studies have suggested that Treg play an important role in the control of pathology in atherosclerosis and atherosclerotic plaques have been reported to contain a lower percentage of Foxp3+ Tregs compared to normal tissue. We have evaluated the effects of simvastatin blockade of the mevalonate pathway on the induction of Foxp3 expressing iTregs in vitro. We demonstrate that simvastatin itself can mediate induction of Foxp3+ T cells and can also synergize with low levels of TGF-beta in the induction of functional Foxp3+ Treg. The effects of simvastatin are secondary to a blockade of protein geranylgeranylation, are mediated 24 hours after TCR stimulation, and are associated with TCR-specific DNA demethylation of the Foxp3 promoter and TCR-specific induction of Smad6 and 7 proteins. Although it is difficult to extrapolate from our in vitro models systems to the in vivo situation, our results that simvastatin can markedly enhance the induction of Foxp3 expression in the presence of low concentrations of TGF-beta strongly suggest that some of the beneficial effects of simvastatin include the generation of Tregs in the inflammatory milieu of the atherosclerotic plaque.

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Support Year
4
Fiscal Year
2009
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$1,205,484
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Shevach, Ethan M (2018) Foxp3+ T Regulatory Cells: Still Many Unanswered Questions-A Perspective After 20?Years of Study. Front Immunol 9:1048
Holt, Michael P; Punkosdy, George A; Glass, Deborah D et al. (2017) TCR Signaling and CD28/CTLA-4 Signaling Cooperatively Modulate T Regulatory Cell Homeostasis. J Immunol 198:1503-1511
Sebastian, Mathew; Lopez-Ocasio, Maria; Metidji, Amina et al. (2016) Helios Controls a Limited Subset of Regulatory T Cell Functions. J Immunol 196:144-55
Myers, Jennifer M; Cooper, Leslie T; Kem, David C et al. (2016) Cardiac myosin-Th17 responses promote heart failure in human myocarditis. JCI Insight 1:
Ujiie, Hideyuki; Shevach, Ethan M (2016) ?? T Cells Protect the Liver and Lungs of Mice from Autoimmunity Induced by Scurfy Lymphocytes. J Immunol 196:1517-28
Metidji, Amina; Rieder, Sadiye Amcaoglu; Glass, Deborah Dacek et al. (2015) IFN-?/? receptor signaling promotes regulatory T cell development and function under stress conditions. J Immunol 194:4265-76
Rieder, Sadiye Amcaoglu; Metidji, Amina; Glass, Deborah Dacek et al. (2015) Eos Is Redundant for Regulatory T Cell Function but Plays an Important Role in IL-2 and Th17 Production by CD4+ Conventional T Cells. J Immunol 195:553-63
Shevach, Ethan M; Thornton, Angela M (2014) tTregs, pTregs, and iTregs: similarities and differences. Immunol Rev 259:88-102
Edwards, Justin P; Thornton, Angela M; Shevach, Ethan M (2014) Release of active TGF-?1 from the latent TGF-?1/GARP complex on T regulatory cells is mediated by integrin ?8. J Immunol 193:2843-9
Zhu, Jinfang; Shevach, Ethan M (2014) TCR signaling fuels T(reg) cell suppressor function. Nat Immunol 15:1002-3

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