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3. Extracellular ATP induces oscillations of intracellular [Ca.sup.2+] and membrane potential and promotes transcription of IL-6 in macrophages

Author

Hanley, Peter J., Musset, Boris, Renigunta, Vijay, Limberg, Sven H., Dalpke, Alexander H., Sus, Rainer, Heeg, Klaus M., Preisig-Muller, Regina, and Daut, Jurgen

Subjects
Macrophages -- Research, Science and technology
Abstract

The effects of low concentrations of extracellular ATP on cytosolic [Ca.sup.2+], membrane potential, and transcription of IL-6 were studied in monocyte-derived human macrophages. During inflammation or infection many cells secrete ATP. We show here that application of 10 [micro]M ATP or 10 [micro]M UTP induces oscillations in cytosolic [Ca.sup.2+] with a frequency of [approximately equal to] 12 [min.sup.-1] and oscillations in membrane potential. RT-PCR analysis showed expression of P2[Y.sub.1], P2[Y.sub.2], P2[Y.sub.11], P2[X.sub.1], P2[X.sub.4], and P2[X.sub.7] receptors, large-conductance (KCNMA1 and KCNMB1-4), and intermediate-conductance (KCNN4) [Ca.sup.2+]- activated [K.sup.+] channels. The [Ca.sup.2+] oscillations were unchanged after removal of extracellular [Ca.sup.2+], indicating that they were mainly due to movements of [Ca.sup.2+] between intracellular compartments. Comparison of the effects of different nucleotides suggests that the [Ca.sup.2+] oscillations were elicited by activation of P2[Y.sub.2] receptors coupled to phospholipase C. Patch-clamp experiments showed that ATP induced a transient depolarization, probably mediated by activation of P2[X.sub.4] receptors, followed by membrane potential oscillations due to opening of [Ca.sup.2+]- activated [K.sup.+] channels. We also found that 10 [micro]M ATP[gamma]S increased transcription of IL-6 [aproximately equal to] 40-fold within 2 h. This effect was abolished by blockade of P2Y receptors with 100 [micro]M suramin. Our results suggest that ATP released from inflamed, damaged, or metabolically impaired cells represents a 'danger signal' that plays a major role in activating the innate immune system.

Published
2004

4. 'Host tissue damage' signal ATP promotes non-directional migration and negatively regulates toll-like receptor signaling in human monocytes.

Author

Kaufmann, Andreas, Musset, Boris, Limberg, Sven H, Renigunta, Vijay, Sus, Rainer, Dalpke, Alexander H, Heeg, Klaus M, Robaye, Bernard, Hanley, Peter J, Kaufmann, Andreas, Musset, Boris, Limberg, Sven H, Renigunta, Vijay, Sus, Rainer, Dalpke, Alexander H, Heeg, Klaus M, Robaye, Bernard, and Hanley, Peter J

Abstract

The activation of Toll-like receptors (TLRs) by lipopolysaccharide or other ligands evokes a proinflammatory immune response, which is not only capable of clearing invading pathogens but can also inflict damage to host tissues. It is therefore important to prevent an overshoot of the TLR-induced response where necessary, and here we show that extracellular ATP is capable of doing this in human monocytes. Using reverse transcription-PCR, we showed that monocytes express P2Y(1), P2Y(2), P2Y(4), P2Y(11), and P2Y(13) receptors, as well as several P2X receptors. To elucidate the function of these receptors, we first studied Ca(2+) signaling in single cells. ATP or UTP induced a biphasic increase in cytosolic Ca(2+), which corresponded to internal Ca(2+) release followed by activation of store-operated Ca(2+) entry. The evoked Ca(2+) signals stimulated Ca(2+)-activated K(+) channels, producing transient membrane hyperpolarization. In addition, ATP promoted cytoskeleton reorganization and cell migration; however, unlike chemoattractants, the migration was non-directional and further analysis showed that ATP did not activate Akt, essential for sensing gradients. When TLR2, TLR4, or TLR2/6 were stimulated with their respective ligands, ATPgammaS profoundly inhibited secretion of proinflammatory cytokines (tumor necrosis factor-alpha and monocyte chemoattractant protein-1) but increased the production of interleukin-10, an anti-inflammatory cytokine. In radioimmune assays, we found that ATP (or ATPgammaS) strongly increased cAMP levels, and, moreover, the TLR-response was inhibited by forskolin, whereas UTP neither increased cAMP nor inhibited the TLR-response. Thus, our data suggest that ATP promotes non-directional migration and, importantly, acts as a "host tissue damage" signal via the G(s) protein-coupled P2Y(11) receptor and increased cAMP to negatively regulate TLR signaling., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2005

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