Signaling Alterations in Activation-Induced Nonresponsive CD8 T Cells

Tham, Ee Loon; Mescher, Matthew F.

doi:10.4049/jimmunol.167.4.2040

Cited by 37 publications

(51 citation statements)

References 45 publications

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“…The addition of exogenous IL-2 can reverse AINR, which has been characterized to result from impaired TCR-induced MAPK activation (including ERK) and IL-2 production (47)(48)(49). We found that cultures of stimulated gal-1-deficient CD8 cells produce more IL-2 than their wild-type counterparts.…”

Section: Discussionmentioning

confidence: 73%

“…Previous studies by Mescher and colleagues (47)(48)(49) have identified a period of activation-induced nonresponsiveness (AINR) in CD8 T cells 2-4 days after initial TCR engagement, wherein CD8 T cells become unable to produce IL-2 or proliferate in response to secondary TCR engagement. The addition of exogenous IL-2 can reverse AINR, which has been characterized to result from impaired TCR-induced MAPK activation (including ERK) and IL-2 production (47)(48)(49).…”

Section: Discussionmentioning

confidence: 99%

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Galectin-1 Tunes TCR Binding and Signal Transduction to Regulate CD8 Burst Size

Liu

Tomassian

Bruhn

et al. 2009

The Journal of Immunology

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T cell burst size is regulated by the duration of TCR engagement and balanced control of Ag-induced activation, expansion, and apoptosis. We found that galectin-1-deficient CD8 T cells undergo greater cell division in response to TCR stimulation, with fewer dividing cells undergoing apoptosis. TCR-induced ERK signaling was sustained in activated galectin-1-deficient CD8 T cells and antagonized by recombinant galectin-1, indicating galectin-1 modulates TCR feed-forward/feedback loops involved in signal discrimination and procession. Furthermore, recombinant galectin-1 antagonized binding of agonist tetramers to the TCR on activated OT-1 T cells. Finally, galectin-1 produced by activated Ag-specific CD8 T cells negatively regulated burst size and TCR avidity in vivo. Therefore, galectin-1, inducibly expressed by activated CD8 T cells, functions as an autocrine negative regulator of peripheral CD8 T cell TCR binding, signal transduction, and burst size. Together with recent findings demonstrating that gal-1 promotes binding of agonist tetramers to the TCR of OT-1 thymocytes, these studies identify galectin-1 as a tuner of TCR binding, signaling, and functional fate determination that can differentially specify outcome, depending on the developmental and activation stage of the T cell.

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Section: Discussionmentioning

confidence: 73%

Section: Discussionmentioning

confidence: 99%

Galectin-1 Tunes TCR Binding and Signal Transduction to Regulate CD8 Burst Size

Liu

Tomassian

Bruhn

et al. 2009

The Journal of Immunology

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“…Defects in activation of all three of these MAPKs were seen in AINR CD8 T cells [68]. Initial activation of ERK (1 min) was comparable in normal and AINR cells, but activity declined much more rapidly in AINR cells.…”

Section: The Molecular Basis For the Ainr Statementioning

confidence: 88%

“…Treatment of AINR cells with phorbol myristic acetate (PMA), an activator of ras and PKC, and ionomycin, a calcium ionophore, activated ERK, JNK and p38 and stimulated IL-2 production and proliferation by the cells, and the proliferation was inhibited by ERK and p38 inhibitors [68]. These results suggest that cells in the AINR state are unable to activate p21 ras via TCR and CD28 signaling, although this has not yet been directly demonstrated.…”

Section: The Molecular Basis For the Ainr Statementioning

confidence: 96%

“…Signaling in naïve and AINR CD8 T cells was studied in vitro using artificial APC having just peptide-MHC Ag complex or anti-TCR mAb immobilized alone on microspheres to provide signal 1, or along with immobilized B7-1 to provide signals 1 and 2 [68]. ERK was activated in response to just TCR engagement, and activation was increased little, if at all, when B7-1 was present (Fig.…”

Section: The Molecular Basis For the Ainr Statementioning

confidence: 99%

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Molecular basis for checkpoints in the CD8 T cell response: Tolerance versus activation

Mescher¹,

Agarwal²,

Casey³

et al. 2007

Seminars in Immunology

Self Cite

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CD8 T cells specific for self-antigens are present in the peripheral lymphoid system and can contribute to autoimmunity or transplant rejection. Whether recognition of Ag leads to full activation, or to induction of tolerance, depends upon availability of cytokine at critical stages of the response. Signals provided by IL-12 and/or IFN-α/β are required for activation of naïve CD8 T cells, and IL-2 is needed to sustain and further expand the effector cells if Ag persists. These critical signaling requirements provide new insights into the factors that regulate the CD8 T cell contributions to development of autoimmunity or rejection of transplants.

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Epigenetic Modifications Associated with T Cell Tolerance

Wells

Thomas

2009

The Epigenetics of Autoimmune Diseases

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The vertebrate immune system has evolved to protect against invasive pathogens, but with this adaptation comes the risk of autoimmunity, the recognition and destruction of self tissues by cells of the immune system. To avoid this problem the system has evolved active mechanisms by which tolerance is induced against self-antigens. These mechanisms include deletion of autoreactive lymphocytes, functional inactivation of lymphocytes (anergy) and suppression of inflammatory responses by a specialized subset of regulatory T cells (Tregs). The latter two modes of tolerance induction involve active transcriptional repression of pro-inflammatory cytokine genes in the affected T lymphocytes, and are likely mediated via epigenetic mechanisms. Therefore, anergy affecting the expression of the il2 and ifng genes in conventional T cells and Tregs will serve as the main subject of discussion in this review.

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Signaling Alterations in Activation-Induced Nonresponsive CD8 T Cells

Cited by 37 publications

References 45 publications

Galectin-1 Tunes TCR Binding and Signal Transduction to Regulate CD8 Burst Size

Galectin-1 Tunes TCR Binding and Signal Transduction to Regulate CD8 Burst Size

Molecular basis for checkpoints in the CD8 T cell response: Tolerance versus activation

Epigenetic Modifications Associated with T Cell Tolerance

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