Aaron J. Tooley scite author profile

The in vivo mechanism of regulatory T cell (T(reg) cell) function in controlling autoimmunity remains controversial. Here we have used two-photon laser-scanning microscopy to analyze lymph node priming of diabetogenic T cells and to delineate the mechanisms of T(reg) cell control of autoimmunity in vivo. Islet antigen-specific CD4(+)CD25(-) T helper cells (T(H) cells) and T(reg) cells swarmed and arrested in the presence of autoantigens. These T(H) cell activities were progressively inhibited in the presence of increasing numbers of T(reg) cells. There were no detectable stable associations between T(reg) and T(H) cells during active suppression. In contrast, T(reg) cells directly interacted with dendritic cells bearing islet antigen. Such persistent T(reg) cell-dendritic cell contacts preceded the inhibition of T(H) cell activation by dendritic cells, supporting the idea that dendritic cells are central to T(reg) cell function in vivo.

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Cutting Edge: CD28 Controls Peripheral Homeostasis of CD4+CD25+ Regulatory T Cells

Tang

et al. 2003

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CD28/B7 blockade leads to exacerbated autoimmune disease in the nonobese diabetic mouse strain as a result of a marked reduction in the number of CD4+CD25+ regulatory T cells (Tregs). Herein, we demonstrate that CD28 controls both thymic development and peripheral homeostasis of Tregs. CD28 maintains a stable pool of peripheral Tregs by both supporting their survival and promoting their self-renewal. CD28 engagement promotes survival by regulating IL-2 production by conventional T cells and CD25 expression on Tregs.

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Amoeboid T lymphocytes require the septin cytoskeleton for cortical integrity and persistent motility

et al. 2008

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The systems that refine actomyosin forces during motility remain poorly understood. Septins assemble on the T cell cortex and are enriched at the mid-zone in filaments. Septin knockdown causes membrane blebbing, excess leading edge protrusions, and lengthening of the trailingedge uropod. The associated loss of rigidity permits motility, but cells become uncoordinated and poorly persistent. This also relieves a previously unrecognized restriction to migration through small pores. Pharmacologically rigidifying cells counteracts this effect, and relieving cytoskeletal rigidity synergizes with septin-depletion. These data suggest that septins tune actomyosin forces during motility, and likely regulate lymphocyte trafficking in confined tissues.

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Myosin-IIA and ICAM-1 Regulate the Interchange between Two Distinct Modes of T Cell Migration

Jacobelli

Bennett²,

Pandurangi³

et al. 2009

112

137

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How T cells achieve rapid chemotactic motility under certain circumstances and efficient cell surface surveillance in others is not fully understood. We show that T lymphocytes are motile in two distinct modes: a fast “amoeboid-like” mode, which uses sequential discontinuous contacts to the substrate; and a slower mode using a single continuously translating adhesion, similar to mesenchymal motility. Myosin-IIA is necessary for fast amoeboid motility, and our data suggests that this occurs via cyclical rear-mediated compressions that eliminate existing adhesions while licensing subsequent ones at the front of the cell. Regulation of Myosin-IIA function in T cells is thus a key mechanism to regulate surface contact area and crawling velocity within different environments. This can provide T lymphocytes with motile and adhesive properties that are uniquely suited toward alternative requirements for immune surveillance and response.

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A Synaptic Basis for Paracrine Interleukin-2 Signaling during Homotypic T Cell Interaction

et al. 2008

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Summary T cells slow their motility, increase adherence and arrest after encounters with antigen-presenting cells (APCs) bearing peptide-MHC complexes. Here, we analyzed the cell-cell communication among activating T cells. In vivo and in vitro, activating T cells associate in large clusters that collectively persist for >30 minutes, but they also engaged in more transient interactions, apparently distal to APCs. Homotypic aggregation was driven by LFA-1 integrin interactions. Ultrastructural analysis revealed that cell-cell contacts between activating T cells were organized as multifocal synapses, and T cells oriented both the microtubule organizing complex and interleukin-2 (IL-2) secretion toward this synapse. T cells engaged in homotypic interactions more effectively captured IL-2 relative to free cells. T cells receiving paracrine synaptic IL-2 polarized their IL-2 signaling subunits into the synaptic region and more efficiently phosphorylated the transcription factor STAT5, likely through a synapse-associated signaling complex. Thus, synapse-mediated cytokine delivery accelerates responses in activating T cells.

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Aaron J. Tooley

Visualizing regulatory T cell control of autoimmune responses in nonobese diabetic mice

Cutting Edge: CD28 Controls Peripheral Homeostasis of CD4+CD25+ Regulatory T Cells

Amoeboid T lymphocytes require the septin cytoskeleton for cortical integrity and persistent motility

Myosin-IIA and ICAM-1 Regulate the Interchange between Two Distinct Modes of T Cell Migration

A Synaptic Basis for Paracrine Interleukin-2 Signaling during Homotypic T Cell Interaction

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