SummaryElucidating mechanisms by which Ca 2+ signals are generated by monocytes is important for understanding monocyte function in health and disease. We have investigated mechanisms underlying Ca 2+ signals generated following disruption of lysosomes by exposure to the cathepsin C substrate glycyl-L-phenylalanine-b-napthylamide (GPN
The chemokine CCL2 serves to target circulating monocytes and other leukocytes to tissue during innate immune responses, and modulates the progression of chronic inflammatory disease through activation of the receptor CCR2. Here, we show that co-activation of the P2Y6 purinergic receptor (encoded by P2RY6) occurs when THP-1 cells and human peripheral blood mononuclear cells sense CCL2 through CCR2. Furthermore, P2Y6 receptor activation accounts for ∼80% of the intracellular Ca2+ signal evoked by CCL2. Scavenging extracellular nucleotides with apyrase caused a fourfold reduction in THP-1 sensitivity to CCL2, whereas inhibition of CD39-like ectonucleotidases potentiated CCL2-evoked Ca2+ responses. Pharmacological inhibition of P2Y6 impaired CCL2-evoked Ca2+ signalling and chemotaxis in peripheral blood mononuclear cells and THP-1 cells. Furthermore, stable P2Y6 receptor knockdown (of twofold) in THP-1 cells impaired CCL2-evoked Ca2+ signalling, chemotaxis and adhesion to TNFα-treated HUVECs. We demonstrate that THP-1 cells rapidly secrete ATP during signalling downstream of the CCL2–CCR2 axis and suggest this might act as a mechanism for P2Y6 receptor co-activation following CCL2 activation of the CCR2 receptor. The discovery that P2Y6 receptor mediates leukocyte responsiveness to CCL2 represents a new mechanism by which to modulate CCL2 signals.
Background: Interferons play a critical role in regulating both the innate and adaptive immune responses. Previous reports have shown increased levels of IFN-γ, IFN-γ-inducing IL-12 and IFN-γ-inducible chemokine IP-10 in patients with chronic obstructive pulmonary disease (COPD).
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