Abstract
BackgroundT cell migration is essential for immune responses and inflammation. Activation of the T-cell receptor (TCR) triggers a migration stop signal to facilitate interaction with antigen-presenting cells and cell retention at inflammatory sites, but the mechanisms responsible for this effect are not known.Methodology/Principal FindingsMigrating T cells are polarized with a lamellipodium at the front and uropod at the rear. Here we show that transient TCR activation induces prolonged inhibition of T-cell migration. TCR pre-activation leads to cells with multiple lamellipodia and lacking a uropod even after removal of the TCR signal. A similar phenotype is induced by expression of constitutively active Rac1, and TCR signaling activates Rac1. TCR signaling acts via Rac to reduce phosphorylation of ezrin/radixin/moesin proteins, which are required for uropod formation, and to increase stathmin phosphorylation, which regulates microtubule stability. T cell polarity and migration is partially restored by inhibiting Rac or by expressing constitutively active moesin.Conclusions/SignificanceWe propose that transient TCR signaling induces sustained inhibition of T cell migration via Rac1, increased stathmin phosphorylation and reduced ERM phosphorylation which act together to inhibit T-cell migratory polarity.
Highlights
T cells play a pivotal role in the immune response against infections, in transplant rejection, and autoimmune diseases
Consistent with this, when T cells migrating on ICAM-1-coated surfaces encountered anti-CD3 antibody (OKT3)-coated beads we observed rapid inhibition of cell polarization and migration upon T-cell receptor (TCR) engagement
Cells were subsequently removed from the plates and added to transwell filters coated with ICAM-1 or fibronectin, which are ligands for the T-cell integrins LFA-1 and/or VLA-4 (a4ß1) respectively (Figure 2A)
Summary
T cells play a pivotal role in the immune response against infections, in transplant rejection, and autoimmune diseases. T cell migration is essential for their recruitment to sites of inflammation, but only T cells specific for relevant antigens are retained at these sites [1], implying that their migration is selectively inhibited by interaction with antigen (Ag) presenting cells (APCs). This activation involves the recognition of a specific Ag presented by major histocompatibility complex molecules to the TCR, together with co-stimulatory signals that cooperate to activate the T cell fully. Activation of the T-cell receptor (TCR) triggers a migration stop signal to facilitate interaction with antigen-presenting cells and cell retention at inflammatory sites, but the mechanisms responsible for this effect are not known
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