Arachidonic acid mediates non‐capacitative calcium entry evoked by CB 1 ‐cannabinoid receptor activation in DDT 1 MF‐2 smooth muscle cells

Arachidonic acid mediates non‐capacitative calcium entry evoked by CB 1 ‐cannabinoid receptor activation in DDT 1 MF‐2 smooth muscle cells

Cannabinoid CB 1 ‐receptor stimulation in DDT 1 MF‐2 smooth muscle cells induces a rise in [Ca 2+ ] i , which is dependent on extracellular Ca 2+ and modulated by thapsigargin‐sensitive stores, suggesting capacitative Ca 2+ entry (CCE), and by MAP kinase. Non‐capacitative Ca 2+ entry (NCCE) stimulat...

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Veröffentlicht in:Journal of cellular physiology 2005-10, Vol.205 (1), p.58-67
Hauptverfasser: Demuth, Dirk G., Gkoumassi, Effimia, Dröge, Melloney J., Dekkers, Bart G.J., Esselink, Henk J., van Ree, Rutger M., Parsons, Mike E., Zaagsma, Johan, Molleman, Areles, Nelemans, S. Ad
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container_issue 1
container_start_page 58
container_title Journal of cellular physiology
container_volume 205
creator Demuth, Dirk G.
Gkoumassi, Effimia
Dröge, Melloney J.
Dekkers, Bart G.J.
Esselink, Henk J.
van Ree, Rutger M.
Parsons, Mike E.
Zaagsma, Johan
Molleman, Areles
Nelemans, S. Ad
description Cannabinoid CB 1 ‐receptor stimulation in DDT 1 MF‐2 smooth muscle cells induces a rise in [Ca 2+ ] i , which is dependent on extracellular Ca 2+ and modulated by thapsigargin‐sensitive stores, suggesting capacitative Ca 2+ entry (CCE), and by MAP kinase. Non‐capacitative Ca 2+ entry (NCCE) stimulated by arachidonic acid (AA) partly mediates histamine H 1 ‐receptor‐evoked increases in [Ca 2+ ] i in DDT 1 MF‐2 cells. In the current study, both Ca 2+ entry mechanisms and a possible link between MAP kinase activation and increasing [Ca 2+ ] i were investigated. In the whole‐cell patch clamp configuration, the CB‐receptor agonist CP 55, 940 evoked a transient, Ca 2+ ‐dependent K + current, which was not blocked by the inhibitors of CCE, 2‐APB, and SKF 96365. AA, but not its metabolites, evoked a transient outward current and inhibited the response to CP 55,940 in a concentration‐dependent manner. CP 55,940 induced a concentration‐dependent release of AA, which was inhibited by the CB 1 antagonist SR 141716. The non‐selective Ca 2+ channel blockers La 3+ and Gd 3+ inhibited the CP 55,940‐induced current at concentrations that had no effect on thapsigargin‐evoked CCE. La 3+ also inhibited the AA‐induced current. CP 55,940‐induced AA release was abolished by Gd 3+ and by phospholipase A 2 inhibition using quinacrine; this compound also inhibited the outward current. The CP 55,940‐induced AA release was strongly reduced by the MAP kinase inhibitor PD 98059. The data suggest that in DDT 1 MF‐2 cells, AA is an integral component of the CB 1 receptor signaling pathway, upstream of NCCE and, via PLA 2 , downstream of MAP kinase. © 2005 Wiley‐Liss, Inc.
doi_str_mv 10.1002/jcp.20390
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In the whole‐cell patch clamp configuration, the CB‐receptor agonist CP 55, 940 evoked a transient, Ca 2+ ‐dependent K + current, which was not blocked by the inhibitors of CCE, 2‐APB, and SKF 96365. AA, but not its metabolites, evoked a transient outward current and inhibited the response to CP 55,940 in a concentration‐dependent manner. CP 55,940 induced a concentration‐dependent release of AA, which was inhibited by the CB 1 antagonist SR 141716. The non‐selective Ca 2+ channel blockers La 3+ and Gd 3+ inhibited the CP 55,940‐induced current at concentrations that had no effect on thapsigargin‐evoked CCE. La 3+ also inhibited the AA‐induced current. CP 55,940‐induced AA release was abolished by Gd 3+ and by phospholipase A 2 inhibition using quinacrine; this compound also inhibited the outward current. The CP 55,940‐induced AA release was strongly reduced by the MAP kinase inhibitor PD 98059. 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Ad</creatorcontrib><title>Arachidonic acid mediates non‐capacitative calcium entry evoked by CB 1 ‐cannabinoid receptor activation in DDT 1 MF‐2 smooth muscle cells</title><title>Journal of cellular physiology</title><description>Cannabinoid CB 1 ‐receptor stimulation in DDT 1 MF‐2 smooth muscle cells induces a rise in [Ca 2+ ] i , which is dependent on extracellular Ca 2+ and modulated by thapsigargin‐sensitive stores, suggesting capacitative Ca 2+ entry (CCE), and by MAP kinase. Non‐capacitative Ca 2+ entry (NCCE) stimulated by arachidonic acid (AA) partly mediates histamine H 1 ‐receptor‐evoked increases in [Ca 2+ ] i in DDT 1 MF‐2 cells. In the current study, both Ca 2+ entry mechanisms and a possible link between MAP kinase activation and increasing [Ca 2+ ] i were investigated. In the whole‐cell patch clamp configuration, the CB‐receptor agonist CP 55, 940 evoked a transient, Ca 2+ ‐dependent K + current, which was not blocked by the inhibitors of CCE, 2‐APB, and SKF 96365. AA, but not its metabolites, evoked a transient outward current and inhibited the response to CP 55,940 in a concentration‐dependent manner. CP 55,940 induced a concentration‐dependent release of AA, which was inhibited by the CB 1 antagonist SR 141716. The non‐selective Ca 2+ channel blockers La 3+ and Gd 3+ inhibited the CP 55,940‐induced current at concentrations that had no effect on thapsigargin‐evoked CCE. La 3+ also inhibited the AA‐induced current. CP 55,940‐induced AA release was abolished by Gd 3+ and by phospholipase A 2 inhibition using quinacrine; this compound also inhibited the outward current. The CP 55,940‐induced AA release was strongly reduced by the MAP kinase inhibitor PD 98059. 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In the current study, both Ca 2+ entry mechanisms and a possible link between MAP kinase activation and increasing [Ca 2+ ] i were investigated. In the whole‐cell patch clamp configuration, the CB‐receptor agonist CP 55, 940 evoked a transient, Ca 2+ ‐dependent K + current, which was not blocked by the inhibitors of CCE, 2‐APB, and SKF 96365. AA, but not its metabolites, evoked a transient outward current and inhibited the response to CP 55,940 in a concentration‐dependent manner. CP 55,940 induced a concentration‐dependent release of AA, which was inhibited by the CB 1 antagonist SR 141716. The non‐selective Ca 2+ channel blockers La 3+ and Gd 3+ inhibited the CP 55,940‐induced current at concentrations that had no effect on thapsigargin‐evoked CCE. La 3+ also inhibited the AA‐induced current. CP 55,940‐induced AA release was abolished by Gd 3+ and by phospholipase A 2 inhibition using quinacrine; this compound also inhibited the outward current. The CP 55,940‐induced AA release was strongly reduced by the MAP kinase inhibitor PD 98059. The data suggest that in DDT 1 MF‐2 cells, AA is an integral component of the CB 1 receptor signaling pathway, upstream of NCCE and, via PLA 2 , downstream of MAP kinase. © 2005 Wiley‐Liss, Inc.</abstract><doi>10.1002/jcp.20390</doi><tpages>10</tpages></addata></record>
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title Arachidonic acid mediates non‐capacitative calcium entry evoked by CB 1 ‐cannabinoid receptor activation in DDT 1 MF‐2 smooth muscle cells
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