scholarly journals Dendritic cell actin dynamics controls T cell priming efficiency at the immunological synapse

2020 ◽  
Author(s):  
Alexander Leithner ◽  
Lukas M. Altenburger ◽  
Robert Hauschild ◽  
Frank Assen ◽  
Klemens Rottner ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Immunological Synapse ◽  
Actin Dynamics ◽  
Cell Contact ◽  
Synaptic Structure ◽  
T Cell Priming ◽  
Heterologous Cell ◽  
Cell Cell

AbstractDendritic cells (DCs) are crucial for the priming of naïve T cells and the initiation of adaptive immunity. Priming is initiated at a heterologous cell-cell contact, the immunological synapse (IS). While it is established that actin dynamics regulates signalling at the T cell side of the contact, little is known about the cytoskeletal contribution on the DC side. We show that that the DC cytoskeleton is decisive for the formation of a multifocal synaptic structure, which correlates with T cell priming efficiency. We demonstrate that DC actin appears in transient foci at the IS and that these foci are dynamized by the WAVE complex. Absence of WAVE in DCs leads to stabilized contacts with T cells, caused by an increase in ICAM1-integrin mediated cell-cell adhesions. This results in a lower number of activated and proliferating T cells. Our results reveal an important role of DC actin in the regulation of synaptic contacts with crucial relevance for full T cell expansion.

scholarly journals Dendritic cell actin dynamics control contact duration and priming efficiency at the immunological synapse

2021 ◽  
Vol 220 (4) ◽  
Author(s):  
Alexander Leithner ◽  
Lukas M. Altenburger ◽  
Robert Hauschild ◽  
Frank P. Assen ◽  
Klemens Rottner ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Immunological Synapse ◽  
Actin Dynamics ◽  
Cell Contact ◽  
Immune Synapse ◽  
Synaptic Structure ◽  
Regulatory Complex ◽  
Heterologous Cell ◽  
Cell Cell

Dendritic cells (DCs) are crucial for the priming of naive T cells and the initiation of adaptive immunity. Priming is initiated at a heterologous cell–cell contact, the immunological synapse (IS). While it is established that F-actin dynamics regulates signaling at the T cell side of the contact, little is known about the cytoskeletal contribution on the DC side. Here, we show that the DC actin cytoskeleton is decisive for the formation of a multifocal synaptic structure, which correlates with T cell priming efficiency. DC actin at the IS appears in transient foci that are dynamized by the WAVE regulatory complex (WRC). The absence of the WRC in DCs leads to stabilized contacts with T cells, caused by an increase in ICAM1-integrin–mediated cell–cell adhesion. This results in lower numbers of activated and proliferating T cells, demonstrating an important role for DC actin in the regulation of immune synapse functionality.

scholarly journals αII-spectrin in T cells is involved in the regulation of cell-cell contact leading to immunological synapse formation?

PLoS ONE ◽  
2017 ◽  
Vol 12 (12) ◽  
pp. e0189545 ◽  
Author(s):  
Justyna M. Meissner ◽  
Aleksander F. Sikorski ◽  
Tomasz Nawara ◽  
Jakub Grzesiak ◽  
Krzysztof Marycz ◽  
...  
Keyword(s):  
T Cells ◽  
Synapse Formation ◽  
Immunological Synapse ◽  
Cell Contact ◽  
Cell Cell

Low-affinity LFA-1/ICAM-3 interactions augment LFA-1/ICAM-1-mediated T cell adhesion and signaling by redistribution of LFA-1

2000 ◽  
Vol 113 (3) ◽  
pp. 391-400 ◽  
Author(s):  
D.A. Bleijs ◽  
M.E. Binnerts ◽  
S.J. van Vliet ◽  
C.G. Figdor ◽  
Y. van Kooyk
Keyword(s):  
T Cell ◽  
Cell Interactions ◽  
T Cell Proliferation ◽  
Cell Contact ◽  
Surface Distribution ◽  
Affinity Ligand ◽  
Large Clusters ◽  
High Affinity Ligand ◽  
Cell Cell

Although ICAM-3 is implicated in both adhesion and signal transduction events of leukocytes, its low affinity for LFA-1 compared to other ligands of LFA-1 has puzzled many investigators. Here we investigated the role of ICAM-3 in supporting LFA-1-mediated ICAM-1 binding and subsequently cell signaling. We observed that although ICAM-3 binds poorly to LFA-1 expressed on resting T cells, it specifically facilitates and increases LFA-1-mediated adhesion to the high affinity ligand of LFA-1, ICAM-1. We demonstrate that low-affinity binding of LFA-1 to ICAM-3 together with ICAM-1 alters the cell surface distribution of LFA-1 dramatically, inducing large clusters of LFA-1 that facilitate ICAM-1 binding after LFA-1 activation. We found that LFA-1-mediated ICAM-1 cell-cell interactions such as T cell proliferation greatly depend on low affinity LFA-1/ICAM-3 interactions that enhance stable LFA-1/ICAM-1 cell-cell contact. Taken together, these data demonstrate that low affinity LFA-1 binding to ICAM-3 regulates strong LFA-1/ICAM-1-mediated adhesion by driving LFA-1 into clusters to facilitate cell-cell interactions that take place in the immune system.

scholarly journals Effect of Pharmacological Inhibition of the Catalytic Activity of Phosphatases of Regenerating Liver in Early T Cell Receptor Signaling Dynamics and IL-2 Production

2020 ◽  
Vol 21 (7) ◽  
pp. 2530 ◽  
Author(s):  
Oscar Aguilar-Sopeña ◽  
Sara Hernández-Pérez ◽  
Sergio Alegre-Gómez ◽  
Patricia Castro-Sánchez ◽  
Alba Iglesias-Ceacero ◽  
...  
Keyword(s):  
T Cells ◽  
Catalytic Activity ◽  
T Cell ◽  
Immunological Synapse ◽  
Lymphocyte Activation ◽  
Regulatory Role ◽  
Regenerating Liver ◽  
Pharmacological Inhibition ◽  
Signaling Dynamics

We have previously shown the delivery of phosphatase of regenerating liver-1 (PRL-1) to the immunological synapse (IS) and proposed a regulatory role of the catalytic activity of PRLs (PRL-1, PRL-2 and PRL-3) in antigen-induced IL-2 production. Nonetheless, the expression in T cells and delivery to the IS of the highly homologous PRL-3, as well as the role of the catalytic activity of PRLs in antigen-induced early signaling, has not been investigated. Here, the expression of PRL-3 protein was detected in primary CD4 T cells and in the CD4 T cell line Jurkat (JK), in which an overexpressed GFP-PRL-3 fluorescent fusion protein trafficked through the endosomal recycling compartment and co-localized with PLCγ1 signaling sites at the IS. Pharmacological inhibition was used to compare the role of the catalytic activity of PRLs in antigen-induced early signaling and late IL-2 production. Although the phosphatase activity of PRLs was not critical for early signaling triggered by antigen, it seemed to regulate signaling dynamics and was necessary for proper IL-2 production. We propose that enzymatic activity of PRLs has a higher significance for cytokine production than for early signaling at the IS. However, further research will be necessary to deeply understand the regulatory role of PRLs during lymphocyte activation and effector function.

scholarly journals Contact-Induced Mitochondrial Polarization Supports HIV-1 Virological Synapse Formation

2014 ◽  
Vol 89 (1) ◽  
pp. 14-24 ◽  
Author(s):  
Elisabetta Groppelli ◽  
Shimona Starling ◽  
Clare Jolly
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Lymphocytes ◽  
Virological Synapse ◽  
Cell Contact ◽  
Target Cells ◽  
Cell Contacts ◽  
Cell Spread ◽  
Hiv 1 ◽  
Cell Cell

ABSTRACTRapid HIV-1 spread between CD4 T lymphocytes occurs at retrovirus-induced immune cell contacts called virological synapses (VS). VS are associated with striking T cell polarization and localized virus budding at the site of contact that facilitates cell-cell spread. In addition to this, spatial clustering of organelles, including mitochondria, to the contact zone has been previously shown. However, whether cell-cell contact specifically induces dynamic T cell remodeling during VS formation and what regulates this process remain unclear. Here, we report that contact between an HIV-1-infected T cell and an uninfected target T cell specifically triggers polarization of mitochondria concomitant with recruitment of the major HIV-1 structural protein Gag to the site of cell-cell contact. Using fixed and live-cell imaging, we show that mitochondrial and Gag polarization in HIV-1-infected T cells occurs within minutes of contact with target T cells, requires the formation of stable cell-cell contacts, and is an active, calcium-dependent process. We also find that perturbation of mitochondrial polarization impairs cell-cell spread of HIV-1 at the VS. Taken together, these data suggest that HIV-1-infected T cells are able to sense and respond to contact with susceptible target cells and undergo dynamic cytoplasmic remodeling to create a synaptic environment that supports efficient HIV-1 VS formation between CD4 T lymphocytes.IMPORTANCEHIV-1 remains one of the major global health challenges of modern times. The capacity of HIV-1 to cause disease depends on the virus's ability to spread between immune cells, most notably CD4 T lymphocytes. Cell-cell transmission is the most efficient way of HIV-1 spread and occurs at the virological synapse (VS). The VS forms at the site of contact between an infected cell and an uninfected cell and is characterized by polarized assembly and budding of virions and clustering of cellular organelles, including mitochondria. Here, we show that cell-cell contact induces rapid recruitment of mitochondria to the contact site and that this supports efficient VS formation and consequently cell-cell spread. Additionally, we observed that cell-cell contact induces a mitochondrion-dependent increase in intracellular calcium, indicative of cellular signaling. Taken together, our data suggest that VS formation is a regulated process and thus a potential target to block HIV-1 cell-cell spread.

scholarly journals Mesenchymal Stromal Cells Rapidly Suppress TCR Signaling-Mediated Cytokine Transcription in Activated T Cells Through the ICAM-1/CD43 Interaction

2021 ◽  
Vol 12 ◽  
Author(s):  
Shuwei Zheng ◽  
Ke Huang ◽  
Wenjie Xia ◽  
Jiahao Shi ◽  
Qiuli Liu ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Cell Activation ◽  
Cell Activation ◽  
Inflammatory Diseases ◽  
Cell Contact ◽  
Dependent Manner ◽  
Tcr Signaling ◽  
Activated T Cells ◽  
Cell Cell

Cell-cell contact participates in the process of mesenchymal stromal cell (MSC)-mediated T cell modulation and thus contributes to MSC-based therapies for various inflammatory diseases, especially T cell-mediated diseases. However, the mechanisms underlying the adhesion interactions between MSCs and T cells are still poorly understood. In this study, we explored the interaction between MSCs and T cells and found that activated T cells could rapidly adhere to MSCs, leading to significant reduction of TNF-α and IFN-γ mRNA expression. Furthermore, TCR-proximal signaling in activated T cells was also dramatically suppressed in the MSC co-culture, resulting in weakened Ca2+ signaling. MSCs rapidly suppressed TCR signaling and its downstream signaling in a cell-cell contact-dependent manner, partially through the ICAM-1/CD43 adhesion interaction. Blockade of either ICAM-1 on MSCs or CD43 on T cells significantly reversed this rapid suppression of proinflammatory cytokine expression in T cells. Mechanistically, MSC-derived ICAM-1 likely disrupts CD43-mediated TCR microcluster formation to limit T cell activation. Taken together, our results reveal a fast mechanism of activated T cell inhibition by MSCs, which provides new clues to unravel the MSC-mediated immunoregulatory mechanism for aGVHD and other severe acute T cell-related diseases.

scholarly journals HIV Infection Stabilizes Macrophage-T Cell Interactions To Promote Cell-Cell HIV Spread

2019 ◽  
Vol 93 (18) ◽  
Author(s):  
Paul Lopez ◽  
Wan Hon Koh ◽  
Ryan Hnatiuk ◽  
Thomas T. Murooka
Keyword(s):  
T Cells ◽  
T Cell ◽  
Live Cell Imaging ◽  
Cell Contact ◽  
Cell Infection ◽  
Cell Contacts ◽  
3 Dimensional ◽  
Viral Spread ◽  
Large Numbers ◽  
Cell Cell

ABSTRACTMacrophages are susceptible to HIV infection and play an important role in viral dissemination through cell-cell contacts with T cells. However, our current understanding of macrophage-to-T cell HIV transmission is derived from studies that do not consider the robust migration and cell-cell interaction dynamics between these cells. Here, we performed live-cell imaging studies in 3-dimensional (3D) collagen that allowed CD4+T cells to migrate and to locate and engage HIV-infected macrophages, modeling the dynamic aspects of thein situenvironment in which these contacts frequently occur. We show that HIV+macrophages form stable contacts with CD4+T cells that are facilitated by both gp120-CD4 and LFA-1–ICAM-1 interactions and that prolonged contacts are a prerequisite for efficient viral spread. LFA-1–ICAM-1 adhesive contacts function to restrain highly motile T cells, since their blockade substantially destabilized macrophage-T cell contacts, resulting in abnormal tethering events that reduced cell-cell viral spread. HIV-infected macrophages displayed strikingly elongated podosomal extensions that were dependent on Nef expression but were dispensable for stable cell-cell contact formation. Finally, we observed persistent T cell infection in dynamic monocyte-derived macrophage (MDM)-T cell cocultures in the presence of single high antiretroviral drug concentrations but achieved complete inhibition with combination therapy. Together, our data implicate macrophages as drivers of T cell infection by altering physiological MDM-T cell contact dynamics to access and restrain large numbers of susceptible, motile T cells within lymphoid tissues.IMPORTANCEOnce HIV enters the lymphoid organs, exponential viral replication in T cells ensues. Given the densely packed nature of these tissues, where infected and uninfected cells are in nearly constant contact with one another, efficient HIV spread is thought to occur through cell-cell contactsin vivo. However, this has not been formally demonstrated. In this study, we performed live-cell imaging studies within a 3-dimensional space to recapitulate the dynamic aspects of the lymphoid microenvironment and asked whether HIV can alter the morphology, migration capacity, and cell-cell contact behaviors between macrophages and T cells. We show that HIV-infected macrophages can engage T cells in stable contacts through binding of virus- and host-derived adhesive molecules and that stable macrophage-T cell contacts were required for high viral spread. Thus, HIV alters physiological macrophage-T cell interactions in order to access and restrain large numbers of susceptible, motile T cells, thereby playing an important role in HIV progression.

Platelets regulate CD4+ T-cell differentiation via multiple chemokines in humans

2011 ◽  
Vol 106 (08) ◽  
pp. 353-362 ◽  
Author(s):  
Norbert Gerdes ◽  
Linjing Zhu ◽  
Maria Ersoy ◽  
Andreas Hermansson ◽  
Paul Hjemdahl ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Cell Activation ◽  
Cd4 T Cells ◽  
Cell Activation ◽  
Cytokine Production ◽  
Cd4 T Cell ◽  
Cell Contact ◽  
Direct Cell ◽  
Cell Cell

SummaryAtherosclerosis is an inflammatory and thrombotic disease. Both platelets and lymphocytes play important roles in atherogenesis. However, information on their interaction is limited. We therefore studied how platelets regulate CD4+ T cell activation and differentiation. Human CD4+ T cells and autologous platelets were co-cultured. Platelets concentration-dependently enhanced anti-CD3/CD28-induced IFNγ production by CD4+ T cells, but attenuated their proliferation. Abrogation of heterotypic cell-cell contact partially reversed the enhancement, and supernatant from activated platelets partially mimicked the enhancement, suggesting that platelets exert their effects via both soluble mediators and direct cell-cell contact. Platelets enhanced the production of IL-10 and cytokines characteristic for type 1 T helper (TH1) (IFNγ/ TNFα) and TH17 (IL-17) cells, but influenced TH2 cytokines (IL-4/IL-5) little. The cytokine responses were accompanied by enhanced TH1/TH17/TReg differentiation. Using neutralising antibodies and recombinant PF4, RANTES, and TGFβ, we found that platelet-derived PF4 and RANTES enhanced both pro- and anti-inflammatory cytokine production, whilst recombinant TGFβ enhanced IL-10 but not TNFα production. In conclusion, platelets enhance the differentiation and cytokine production of anti-CD3/CD28-stimulated CD4+ T cells via both multiple chemokines and direct cell-cell contact. Our study provides new insights into the cross-talk between thrombosis and adaptive immunity, and indicates that platelets can enhance T-effector cell development.

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