et al. A LAT-Based Signaling Complex in the Immunological Synapse as Determined with Live Cell Imaging Is Less Stable in T Cells with Regulatory Capability. Cells, 10(2),

: Peripheral immune regulation is critical for the maintenance of self-tolerance. Here we have investigated signaling processes that distinguish T cells with regulatory capability from effector T cells. The murine Tg4 T cell receptor recognizes a peptide derived from the self-antigen myelin basic protein. T cells from Tg4 T cell receptor transgenic mice can be used to generate effector T cells and three types of T cells with regulatory capability, inducible regulatory T cells, T cells tolerized by repeated in vivo antigenic peptide exposure or T cells treated with the tolerogenic drug UCB9608 (a phosphatidylinositol 4 kinase III β inhibitor). We comparatively studied signaling in all of these T cells by activating them with the same antigen presenting cells presenting the same myelin basic protein peptide. Supramolecular signaling structures, as efficiently detected by large-scale live cell imaging, are critical mediators of T cell activation. The formation of a supramolecular signaling complex anchored by the adaptor protein linker for activation of T cells (LAT) was consistently terminated more rapidly in Tg4 T cells with regulatory capability. Such termination could be partially reversed by blocking the inhibitory receptors CTLA-4 and PD-1. Our work suggests that attenuation of proximal signaling may favor regulatory over effector function in T cells.

[1]  Xiongtao Ruan,et al.  PD-1 suppresses the maintenance of cell couples between cytotoxic T cells and target tumor cells within the tumor , 2020, Science Signaling.

[2]  Sarah L Bevington,et al.  Chromatin Priming Renders T Cell Tolerance-Associated Genes Sensitive to Activation below the Signaling Threshold for Immune Response Genes , 2020, Cell reports.

[3]  G. Freeman,et al.  Interaction of SHP-2 SH2 domains with PD-1 ITSM induces PD-1 dimerization and SHP-2 activation , 2020, Communications Biology.

[4]  Clare L. Bennett,et al.  CTLA-4–mediated transendocytosis of costimulatory molecules primarily targets migratory dendritic cells , 2019, Science Immunology.

[5]  Xiongtao Ruan,et al.  Transient protein accumulation at the center of the T cell antigen-presenting cell interface drives efficient IL-2 secretion , 2018, bioRxiv.

[6]  S. Steinbacher,et al.  Discovery of a Potent, Orally Bioavailable PI4KIIIβ Inhibitor (UCB9608) Able To Significantly Prolong Allogeneic Organ Engraftment in Vivo. , 2018, Journal of medicinal chemistry.

[7]  D. Hafler,et al.  Regulatory T cells in autoimmune disease , 2018, Nature Immunology.

[8]  R. V. van Lier,et al.  Proteomic Analyses of Human Regulatory T Cells Reveal Adaptations in Signaling Pathways that Protect Cellular Identity , 2018, Immunity.

[9]  Allon M Klein,et al.  Single-cell gene expression reveals a landscape of regulatory T cell phenotypes shaped by the TCR , 2018, Nature Immunology.

[10]  B. Sharrack,et al.  Effects of ATX-MS-1467 immunotherapy over 16 weeks in relapsing multiple sclerosis , 2017, Neurology.

[11]  C. Brangwynne,et al.  Liquid phase condensation in cell physiology and disease , 2017, Science.

[12]  P. Verkade,et al.  PKCθ links proximal T cell and Notch signaling through localized regulation of the actin cytoskeleton , 2016, eLife.

[13]  R. Murphy,et al.  Systems Imaging of the Immune Synapse. , 2017, Methods in molecular biology.

[14]  R. Parker,et al.  Compositional Control of Phase-Separated Cellular Bodies , 2016, Cell.

[15]  Robert F. Murphy,et al.  Computational spatiotemporal analysis identifies WAVE2 and cofilin as joint regulators of costimulation-mediated T cell actin dynamics , 2016, Science Signaling.

[16]  A. Rudensky,et al.  An essential role for the IL-2 receptor in Treg cell function , 2016 .

[17]  C. Benoist,et al.  Imbalanced signal transduction in regulatory T cells expressing the transcription factor FoxP3 , 2015, Proceedings of the National Academy of Sciences.

[18]  Kole T. Roybal,et al.  Early Signaling in Primary T Cells Activated by Antigen Presenting Cells Is Associated with a Deep and Transient Lamellal Actin Network , 2015, PloS one.

[19]  D. Wraith,et al.  Extra‐thymically induced T regulatory cell subsets: the optimal target for antigen‐specific immunotherapy , 2015, Immunology.

[20]  D. Irvine,et al.  Actin foci facilitate activation of the phospholipase C-γ in primary T lymphocytes via the WASP pathway , 2015, eLife.

[21]  H. Chi,et al.  Treg cells require the phosphatase PTEN to restrain TH1 and TFH cell responses , 2015, Nature Immunology.

[22]  E. Wakeland,et al.  T/B‐cell interactions are more transient in response to weak stimuli in SLE‐prone mice , 2014, European journal of immunology.

[23]  D. Davis,et al.  The immune synapse clears and excludes molecules above a size threshold , 2014, Nature Communications.

[24]  D. Wraith,et al.  CTLA-4 Modulates the Differentiation of Inducible Foxp3+ Treg Cells but IL-10 Mediates Their Function in Experimental Autoimmune Encephalomyelitis , 2014, PloS one.

[25]  J. Gough,et al.  Sequential transcriptional changes dictate safe and effective antigen-specific immunotherapy , 2014, Nature Communications.

[26]  E. Shevach,et al.  tTregs, pTregs, and iTregs: similarities and differences , 2014, Immunological reviews.

[27]  C. Benoist,et al.  Treg cells expressing the coinhibitory molecule TIGIT selectively inhibit proinflammatory Th1 and Th17 cell responses. , 2014, Immunity.

[28]  S. Anderton,et al.  Induction of passive EAE using myelin-reactive CD4+ T cells. , 2014, Methods in molecular biology.

[29]  A. Liston,et al.  IL-2 coordinates IL-2–producing and regulatory T cell interplay , 2013, The Journal of experimental medicine.

[30]  V. Boussiotis,et al.  Selective Effects of PD-1 on Akt and Ras Pathways Regulate Molecular Components of the Cell Cycle and Inhibit T Cell Proliferation , 2012, Science Signaling.

[31]  J. Hammer,et al.  Actin retrograde flow and actomyosin II arc contraction drive receptor cluster dynamics at the immunological synapse in Jurkat T cells , 2012, Molecular biology of the cell.

[32]  Susana Gordo,et al.  Self-reactive human CD4 T cell clones form unusual immunological synapses , 2012, The Journal of experimental medicine.

[33]  Paul S. Russo,et al.  Phase Transitions in the Assembly of MultiValent Signaling Proteins , 2016 .

[34]  G. D’Angelo,et al.  Phosphoinositides in Golgi complex function. , 2012, Sub-cellular biochemistry.

[35]  A. Altman,et al.  Itk Controls the Spatiotemporal Organization of T Cell Activation , 2011, Science Signaling.

[36]  T. Chatila,et al.  A requisite role for induced regulatory T cells in tolerance based on expanding antigen receptor diversity. , 2011, Immunity.

[37]  R. Schwartz,et al.  Impairment of Immunological Synapse Formation in Adaptively Tolerant T Cells , 2011, The Journal of Immunology.

[38]  Nicole R. Cunningham,et al.  T cell receptor signal strength in Treg and iNKT cell development demonstrated by a novel fluorescent reporter mouse , 2011, The Journal of experimental medicine.

[39]  D. G. Osborne,et al.  Anergic CD4+ T Cells Form Mature Immunological Synapses with Enhanced Accumulation of c-Cbl and Cbl-b , 2010, The Journal of Immunology.

[40]  D. Wraith,et al.  Negative feedback control of the autoimmune response through antigen-induced differentiation of IL-10–secreting Th1 cells , 2009, The Journal of experimental medicine.

[41]  Kole T. Roybal,et al.  Spatiotemporal Patterning During T Cell Activation Is Highly Diverse , 2009, Science Signaling.

[42]  R. Friedline,et al.  CD4+ regulatory T cells require CTLA-4 for the maintenance of systemic tolerance , 2009, The Journal of experimental medicine.

[43]  T. Nomura,et al.  CTLA-4 Control over Foxp3+ Regulatory T Cell Function , 2008, Science.

[44]  H. Schneider,et al.  CTLA-4 trafficking and surface expression. , 2008, Trends in immunology.

[45]  Mark M. Davis,et al.  A Large T Cell Invagination with CD2 Enrichment Resets Receptor Engagement in the Immunological Synapse1 , 2006, The Journal of Immunology.

[46]  J. Lohr,et al.  Functional and Molecular Comparison of Anergic and Regulatory T Lymphocytes , 2006 .

[47]  J. Lamb,et al.  Secretion of IFN-gamma and not IL-2 by anergic human T cells correlates with assembly of an immature immune synapse. , 2005, Blood.

[48]  C. Wülfing,et al.  T cell receptor (TCR) clustering in the immunological synapse integrates TCR and costimulatory signaling in selected T cells. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[49]  Gudrun Wacker Similarities and Differences , 2005 .

[50]  C. Drake,et al.  Role of LAG-3 in regulatory T cells. , 2004, Immunity.

[51]  A. Sperling,et al.  The distal pole complex: a novel membrane domain distal to the immunological synapse , 2002, Immunological reviews.

[52]  J. Egen,et al.  Cytotoxic T lymphocyte antigen-4 accumulation in the immunological synapse is regulated by TCR signal strength. , 2002, Immunity.

[53]  P. Linsley,et al.  CD80 (B7-1) Binds Both CD28 and CTLA-4 with a Low Affinity and Very Fast Kinetics , 1997, The Journal of experimental medicine.

[54]  C. Monks,et al.  Selective modulation of protein kinase C-theta during T-cell activation. , 1997, Nature.

[55]  D. Kioussis,et al.  Low avidity recognition of self-antigen by T cells permits escape from central tolerance. , 1995, Immunity.

[56]  D. Wraith,et al.  MHC-binding peptides for immunotherapy of experimental autoimmune disease. , 1992, Journal of autoimmunity.