Microtubules restrict F-actin polymerization to the immune synapse via GEF-H1 to maintain polarity in lymphocytes

Pineau, Judith; Pinon, Léa; Mesdjian, Olivier; Fattaccioli, Jacques; Duménil, Ana-Maria Lennon; Pierobon, Paolo

doi:10.1101/2022.01.03.473915

Cited by 3 publications

(2 citation statements)

References 51 publications

(65 reference statements)

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“…We could not access whether there is antigen internalization from the droplets. However, in a recent work we show that there is, at least on stiff droplets, exocysts enrichment at the synapse, a signature of proteases release (44). Future efforts will be directed to make droplets where mechanical extraction is possible.…”

Section: Discussionmentioning

confidence: 84%

Phenotyping Polarization Dynamics of Immune Cells Using a Lipid Droplet - Cell Pairing Microfluidic Platform

Pinon¹,

Ruyssen

Pineau

et al. 2022

SSRN Journal

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Section: Discussionmentioning

confidence: 84%

Phenotyping Polarization Dynamics of Immune Cells Using a Lipid Droplet - Cell Pairing Microfluidic Platform

Pinon¹,

Ruyssen

Pineau

et al. 2022

SSRN Journal

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“…In our experiments, LatA did not induce the formation of the static protrusive structure when the microtubule cytoskeleton was depolymerized priorly, an observation in line with Obino et al (2016). Microtubule‐mediated polarity cues for protrusion formation could involve regulating the phosphoinositide content of the plasma membrane (Golub & Caroni, 2005; Sugiyama et al , 2015), asymmetrically activating Rho signaling (Pineau et al , 2022) or providing direct interaction with membrane‐bending factors (Kelley et al , 2015). We think that, once these factors, likely to belong to the BAR protein superfamily, stably bind and bend membranes in the absence of actin cytoskeleton, subsequent microtubule depolymerization is no longer effective.…”

Section: Discussionmentioning

confidence: 99%

Plasma membrane topography governs the 3D dynamic localization of IgM B cell antigen receptor clusters

et al. 2023

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B lymphocytes recognize bacterial or viral antigens via different classes of the B cell antigen receptor (BCR). Protrusive structures termed microvilli cover lymphocyte surfaces, and are thought to perform sensory functions in screening antigen-bearing surfaces.Here, we have used lattice light-sheet microscopy in combination with tailored custom-built 4D image analysis to study the cellsurface topography of B cells of the Ramos Burkitt's Lymphoma line and the spatiotemporal organization of the IgM-BCR. Ramos B-cell surfaces were found to form dynamic networks of elevated ridges bridging individual microvilli. A fraction of membranelocalized IgM-BCR was found in clusters, which were mainly associated with the ridges and the microvilli. The dynamic ridgenetwork organization and the IgM-BCR cluster mobility were linked, and both were controlled by Arp2/3 complex activity. Our results suggest that dynamic topographical features of the cell surface govern the localization and transport of IgM-BCR clusters to facilitate antigen screening by B cells.

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Phenotyping Polarization Dynamics Of Immune Cells Using A Lipid Droplet - Cell Pairing Microfluidic Platform

Pinon

Ruyssen

Pineau

et al. 2021

Preprint

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The immune synapse is the tight contact zone between a lymphocyte and a cell presenting its cognate antigen. This structure serves as a signaling platform and entails a polarization of intra-cellular components, necessary to the immunological function of the cell. While the surface properties of the presenting cell are known to control the formation of the synapse, their impact on polarization has not yet been studied. Using functional lipid droplets as tunable artificial presenting cells combined with a microfluidic pairing device, we simultaneously observe synchronized synapses and dynamically quantify polarization patterns of individual B cells. By assessing how the ligand concentration, the surface fluidity and the substrate rigidity impact this polarization, we show that its onset depends on the antigen concentration at the synapse, and that the substrate rigidity controls both its onset and its kinetics. Our experimental system enables a fine phenotyping of monoclonal cell populations based on their synaptic readout.

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Microtubules restrict F-actin polymerization to the immune synapse via GEF-H1 to maintain polarity in lymphocytes

Cited by 3 publications

References 51 publications

Phenotyping Polarization Dynamics of Immune Cells Using a Lipid Droplet - Cell Pairing Microfluidic Platform

Phenotyping Polarization Dynamics of Immune Cells Using a Lipid Droplet - Cell Pairing Microfluidic Platform

Plasma membrane topography governs the 3D dynamic localization of IgM B cell antigen receptor clusters

Phenotyping Polarization Dynamics Of Immune Cells Using A Lipid Droplet - Cell Pairing Microfluidic Platform

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