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Paige M Porrett,
Xueli Yuan,
David F LaRosa,
Patrick T Walsh, Jaeseok Yang,
Wenda Gao,
Peiying Li,
Jidong Zhang,
Javeed M Ansari,
Wayne W Hancock,
Mohamed H Sayegh,
Maria Koulmanda,
Terry B Strom,
Laurence A Turka
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ABSTRACT: Immune activation via TLRs is known to prevent transplantation tolerance in multiple animal models. To investigate the mechanisms underlying this barrier to tolerance induction, we used complementary murine models of skin and cardiac transplantation in which prolonged allograft acceptance is either spontaneous or pharmacologically induced with anti-CD154 mAb and rapamycin. In each model, we found that prolonged allograft survival requires the presence of natural CD4(+)Foxp3(+) T regulatory cells (Tregs), and that the TLR9 ligand CpG prevents graft acceptance both by interfering with natural Treg function and by promoting the differentiation of Th1 effector T cells in vivo. We further demonstrate that although Th17 cells differentiate from naive alloreactive T cells, these cells do not arise from natural Tregs in either CpG-treated or untreated graft recipients. Finally, we show that CpG impairs natural Treg suppressor capability and prevents Treg-dependent allograft acceptance in an IL-6-independent fashion. Our data therefore suggest that TLR signals do not prevent prolonged graft acceptance by directing natural Tregs into the Th17 lineage or by using other IL-6-dependent mechanisms. Instead, graft destruction results from the ability of CpG to drive Th1 differentiation and interfere with immunoregulation established by alloreactive natural CD4(+)Foxp3(+) Tregs.
The Journal of Immunology 08/2008; 181(3):1692-9. · 5.79 Impact Factor
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Takuya Ueno,
Antje Habicht,
Michael R Clarkson,
Monica J Albin,
Kazuhiro Yamaura,
Olaf Boenisch,
Joyce Popoola,
Ying Wang,
Hideo Yagita,
Hisaya Akiba,
M Javeed Ansari, Jaeseok Yang,
Laurence A Turka,
David M Rothstein,
Robert F Padera,
Nader Najafian,
Mohamed H Sayegh
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ABSTRACT: T cell Ig mucin 1 (TIM-1) plays an important role in regulating immune responses in autoimmune and asthma models, and it is expressed on both Th1 and Th2 cells. Using an antagonistic TIM-1-specific antibody, we studied the role of TIM-1 in alloimmunity. A short course of TIM-1-specific antibody monotherapy prolonged survival of fully MHC-mismatched vascularized mouse cardiac allografts. This prolongation was associated with inhibition of alloreactive Th1 responses and preservation of Th2 responses. TIM-1-specific antibody treatment was more effective in Th1-type cytokine-deficient Stat4(-/-) recipients as compared with Th2-type cytokine-deficient Stat6(-/-) recipients. Subtherapeutic doses of rapamycin plus TIM-1-specific antibody resulted in allograft acceptance and prevented the development of chronic allograft vasculopathy. Allograft survival via this treatment was accompanied by a Th1- to Th2-type cytokine switch. Depletion of natural Tregs abrogated the graft-protecting effect of the TIM-1-specific antibody. Importantly, CD4(+)CD25(+) Tregs obtained from long-term survivors had enhanced regulatory activity as compared with naive CD4(+)CD25(+) Tregs. Consistent with this, TIM-1-specific antibody treatment both preserved Tregs and prevented the expansion of alloreactive effector Th1 cells in an alloreactive TCR transgenic adoptive transfer model. These studies define previously unknown functions of TIM-1 in regulating alloimmune responses in vivo and may provide a novel approach to promoting transplantation tolerance.
Journal of Clinical Investigation 03/2008; 118(2):742-51. · 15.39 Impact Factor
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ABSTRACT: Alloreactive memory T cells may be refractory to many of the tolerance-inducing strategies that are effective against naive T cells and thus present a significant barrier to long-term allograft survival. Because CD4(+)CD25(+) regulatory T cells (Tregs) are critical elements of many approaches to successful induction/maintenance of transplantation tolerance, we used MHC class I and II alloreactive TCR-transgenic models to explore the ability of antigen-specific Tregs to control antigen-specific memory T cell responses. Upon coadoptive transfer into RAG-1(-/-) mice, we found that Tregs effectively suppressed the ability of naive T cells to reject skin grafts, but neither antigen-unprimed nor antigen-primed Tregs suppressed rejection by memory T cells. Interestingly, different mechanisms appeared to be active in the ability of Tregs to control naive T cell-mediated graft rejection in the class II versus class I alloreactive models. In the former case, we observed decreased early expansion of effector cells in lymphoid tissue. In contrast, in the class I model, an effect of Tregs on early proliferation and expansion was not observed. However, at a late time point, significant differences in cell numbers were seen, suggesting effects on responding T cell survival. Overall, these data indicate that the relative resistance of both CD4(+) and CD8(+) alloreactive memory T cells to regulation may mediate resistance to tolerance induction seen in hosts with preexisting alloantigen-specific immunity and further indicate the multiplicity of mechanisms by which Tregs may control alloimmune responses in vivo.
Proceedings of the National Academy of Sciences 01/2008; 104(50):19954-9. · 9.68 Impact Factor
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ABSTRACT: Naturally occurring CD4+CD25+ regulatory T cells (Tregs), which play an important role in the maintenance of self-tolerance, proliferate poorly and fail to produce IL-2 following stimulation in vitro with peptide-pulsed or anti-CD3-treated APCs. When TCR proximal and distal signaling events were examined in Tregs, we observed impairments in the amplitude and duration of tyrosine phosphorylation when compared with the response of CD4+CD25- T cells. Defects were also seen in the activity of phospholipase C-gamma and in signals downstream of this enzyme including calcium mobilization, NFAT, NF-kappaB, and Ras-ERK-AP-1 activation. Enhanced stimulation of diacylglycerol-dependent pathways by inhibition of diacylglycerol metabolism could overcome the "anergic state" and support the ability of Tregs to up-regulate CD69, produce IL-2, and proliferate. Our results demonstrate that Tregs maintain their hyporesponsive state by suppressing the induction and propagation of TCR-initiated signals to control the accumulation of second messengers necessary for IL-2 production and proliferation.
The Journal of Immunology 09/2006; 177(4):2186-94. · 5.79 Impact Factor
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ABSTRACT: Low oxygen pressures exist in many solid tissues, including primary and secondary lymphoid organs. One key element in cellular adaptation to hypoxia is induced expression of hypoxia inducible factor (Hif) 1alpha. Here, we have examined the effect of Hif-1alpha, isolated from the myriad other effects of hypoxia, on T cell receptor (TCR) signaling in thymocytes. Because pVHL (von Hippel-Lindau protein) directs the proteolysis of Hif-1alpha under "normoxic" conditions, we achieved constitutive stabilization of Hif-1alpha through thymic deletion of Vhlh and reversed Hif-1alpha stabilization with double deletion of Vhlh and Hif-1alpha. We found that constitutive activity of Hif-1alpha resulted in diminished Ca(2+) response upon TCR crosslinking despite equivalent activation of phospholipase C(gamma1), normal intracellular Ca(2+) stores, and normal entry of Ca(2+) across the plasma membrane. Altered Ca(2+) response was instead due to accelerated removal of Ca(2+) from the cytoplasm into intracellular compartments, which occurred in association with Hif-1alpha-dependent overexpression of the calcium pump SERCA2 (sarcoplasmic/endoplasmic reticulum calcium ATPase 2). These data suggest a unique mechanism for control of TCR signaling through Hif-1alpha, which may be operative at the physiologic oxygen tensions seen in solid lymphoid organs.
Proceedings of the National Academy of Sciences 12/2005; 102(47):17071-6. · 9.68 Impact Factor
