Yoshiaki Inoue scite author profile

Cells must amplify external signals to orient and migrate in chemotactic gradient fields. We find that human neutrophils release adenosine triphosphate (ATP) from the leading edge of the cell surface to amplify chemotactic signals and direct cell orientation by feedback through P2Y2 nucleotide receptors. Neutrophils rapidly hydrolyze released ATP to adenosine that then acts via A3-type adenosine receptors, which are recruited to the leading edge, to promote cell migration. Thus, ATP release and autocrine feedback through P2Y2 and A3 receptors provide signal amplification, controlling gradient sensing and migration of neutrophils.

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Autocrine regulation of T‐cell activation by ATP release and P2X₇receptors

Yip

et al. 2009

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T-cell activation requires the influx of extracellular calcium, although mechanistic details regarding such activation are not fully defined. Here, we show that P2X(7) receptors play a key role in calcium influx and downstream signaling events associated with the activation of T cells. By real-time PCR and immunohistochemistry, we find that Jurkat T cells and human CD4(+) T cells express abundant P2X(7) receptors. We show, using a novel fluorescent microscopy technique, that T-cell receptor (TCR) stimulation triggers the rapid release of ATP (<100 microM). This release of ATP is required for TCR-mediated calcium influx, NFAT activation, and interleukin-2 (IL-2) production. TCR activation up-regulates P2X(7) receptor gene expression. Removal of extracellular ATP by apyrase or alkaline phosphatase treatment, inhibition of ATP release with the maxi-anion channel blocker gadolinium chloride, or siRNA silencing of P2X(7) receptors blocks calcium entry and inhibits T-cell activation. Moreover, lymphocyte activation is impaired in C57BL/6 mice that express poorly functional P2X(7) receptors, compared to control BALB/c mice, which express fully functional P2X(7) receptors. We conclude that ATP release and autocrine, positive feedback through P2X(7) receptors is required for the effective activation of T cells.

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Purinergic Signaling: A Fundamental Mechanism in Neutrophil Activation

et al. 2010

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Efficient activation of neutrophils is a key requirement for effective immune responses. We found that neutrophils released cellular adenosine triphosphate (ATP) in response to exogenous stimuli such as formylated bacterial peptides and inflammatory mediators that activated receptors for Fcγ, interleukin-8, C5a complement, and leukotriene B4. The release of ATP in response to stimulation of the formyl peptide receptor (FPR) occurred through pannexin-1 hemichannels that colocalized with FPR and P2Y2 nucleotide receptors on the cell surface to form a purinergic signaling system that facilitated the activation of neutrophils. Disruption of this purinergic signaling system by inhibiting or silencing pannexin-1 hemichannels or P2Y2 receptors blocked the activation of neutrophils and impaired innate host responses to bacterial infection. Thus, purinergic signaling is a fundamental mechanism that is required for neutrophil activation and immune defense.

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Yoshiaki Inoue

ATP Release Guides Neutrophil Chemotaxis via P2Y2 and A3 Receptors

Autocrine regulation of T‐cell activation by ATP release and P2X₇receptors

Purinergic Signaling: A Fundamental Mechanism in Neutrophil Activation

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Yoshiaki Inoue

ATP Release Guides Neutrophil Chemotaxis via P2Y2 and A3 Receptors

Autocrine regulation of T‐cell activation by ATP release and P2X7receptors

Purinergic Signaling: A Fundamental Mechanism in Neutrophil Activation

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Product

Resources

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Autocrine regulation of T‐cell activation by ATP release and P2X₇receptors