CD28–CD80 Interactions Control Regulatory T Cell Motility and Immunological Synapse Formation

ABSTRACTLAT is an important player of the signaling cascade induced by TCR activation. This adapter molecule is present at the plasma membrane of T lymphocytes and more abundantly in intracellular compartments. Upon T-cell activation the intracellular pool of LAT is recruited to the immune synapse (IS). We previously described two pathways controlling LAT trafficking: retrograde transport from endosomes to the TGN, and anterograde traffic from the Golgi to the IS. We address the specific role of 4 proteins, the GTPase Rab6, the t-SNARE syntaxin-16, the v-SNARE VAMP7 and the golgin GMAP210, in each pathway. Using different methods (endocytosis and Golgi trap assays, confocal and TIRF microscopy, TCR-signalosome pull down) we show that syntaxin-16 is regulating the retrograde transport of LAT whereas VAMP7 is regulating the anterograde transport. Moreover, GMAP210 and Rab6, known to contribute in both pathways, are in our cellular context specifically and respectively involved in anterograde and retrograde transport of LAT. Altogether, our data describe how retrograde and anterograde pathways coordinate LAT enrichment at the IS and point the Golgi as a central hub for the polarized recruitment of LAT to the IS. The role that this finely-tuned transport of signaling molecules plays in T-cell activation is discussed.

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Mechanisms for segregating T cell receptor and adhesion molecules during immunological synapse formation in Jurkat T cells

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.0710258105 ◽

2007 ◽

Vol 104 (51) ◽

pp. 20296-20301 ◽

Cited By ~ 257

Author(s):

Y. Kaizuka ◽

A. D. Douglass ◽

R. Varma ◽

M. L. Dustin ◽

R. D. Vale

Keyword(s):

T Cells ◽

T Cell ◽

Adhesion Molecules ◽

T Cell Receptor ◽

Synapse Formation ◽

Immunological Synapse ◽

Cell Receptor ◽

Jurkat T Cells

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Agent-Based Modeling of T Cell Receptor Cooperativity

International Journal of Molecular Sciences ◽

10.3390/ijms21186473 ◽

2020 ◽

Vol 21 (18) ◽

pp. 6473

Author(s):

Anastasios Siokis ◽

Philippe A. Robert ◽

Michael Meyer-Hermann

Keyword(s):

T Cell ◽

Synapse Formation ◽

Immunological Synapse ◽

Cell Receptor ◽

Agent Based Model ◽

Tcr Signaling ◽

Immune Synapse ◽

Agent Based ◽

Affinity Modulation ◽

Antigen Peptide

Immunological synapse (IS) formation is a key event during antigen recognition by T cells. Recent experimental evidence suggests that the affinity between T cell receptors (TCRs) and antigen is actively modulated during the early steps of TCR signaling. In this work, we used an agent-based model to study possible mechanisms for affinity modulation during IS formation. We show that, without any specific active mechanism, the observed affinity between receptors and ligands evolves over time and depends on the density of ligands of the antigen peptide presented by major histocompatibility complexes (pMHC) and TCR molecules. A comparison between the presence or absence of TCR–pMHC centrally directed flow due to F-actin coupling suggests that centripetal transport is a potential mechanism for affinity modulation. The model further suggests that the time point of affinity measurement during immune synapse formation is critical. Finally, a mathematical model of F-actin foci formation incorporated in the agent-based model shows that TCR affinity can potentially be actively modulated by positive/negative feedback of the F-actin foci on the TCR-pMHC association rate kon.

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Strong adhesion by regulatory T cells induces dendritic cell cytoskeletal polarization and contact-dependent lethargy

Journal of Experimental Medicine ◽

10.1084/jem.20160620 ◽

2017 ◽

Vol 214 (2) ◽

pp. 327-338 ◽

Cited By ~ 28

Author(s):

Jiahuan Chen ◽

Anutosh Ganguly ◽

Ashley D. Mucsi ◽

Junchen Meng ◽

Jiacong Yan ◽

...

Keyword(s):

Cell Adhesion ◽

T Cell ◽

Synapse Formation ◽

Immunological Synapse ◽

Super Resolution ◽

Dependent Manner ◽

Structured Illumination ◽

Structured Illumination Microscopy ◽

Cytoskeletal Component ◽

Strong Adhesion

Dendritic cells are targeted by regulatory T (T reg) cells, in a manner that operates as an indirect mode of T cell suppression. In this study, using a combination of single-cell force spectroscopy and structured illumination microscopy, we analyze individual T reg cell–DC interaction events and show that T reg cells exhibit strong intrinsic adhesiveness to DCs. This increased DC adhesion reduces the ability of contacted DCs to engage other antigen-specific cells. We show that this unusually strong LFA-1–dependent adhesiveness of T reg cells is caused in part by their low calpain activities, which normally release integrin–cytoskeleton linkage, and thereby reduce adhesion. Super resolution imaging reveals that such T reg cell adhesion causes sequestration of Fascin-1, an actin-bundling protein essential for immunological synapse formation, and skews Fascin-1–dependent actin polarization in DCs toward the T reg cell adhesion zone. Although it is reversible upon T reg cell disengagement, this sequestration of essential cytoskeletal components causes a lethargic state of DCs, leading to reduced T cell priming. Our results reveal a dynamic cytoskeletal component underlying T reg cell–mediated DC suppression in a contact-dependent manner.

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