Characteristics of thrombin‐induced calcium signals in rat astrocytes

Characteristics of thrombin‐induced calcium signals in rat astrocytes The protease thrombin seems to play a central role in events following neural injury, whereby the enzyme can act, in concert with other molecules as a hormone or as a growth factor. In cells derived from the nervous system, thrombin induces changes in morphology and proliferation. The signalling mechanisms involved in these thrombin‐activated processes are still unclear. In the present study we investigated Ca2+ signals in fura‐2 loaded rat astrocytes in primary culture. Brief stimulation of astrocytes with thrombin induced a dose‐dependent transient elevation of (Ca2+)i, best fitted by a double‐sigmoidal curve giving two EC50 values of 3 pM and 150 pM. Continuous superfusion of cells with thrombin induced Ca2+ responses with three different types of kinetics. In 48% of the cells tested a single transient rise superimposed with fast fluctuations of (Ca2+)i was seen. The following complex long‐term changes of (Ca2+)i, dependent on the presence of the agonist thrombin, were observed: i) a biphasic (Ca2+)i elevation, characterized by an initial peak followed by a sustained plateau phase (in 43% of the cells) and ii) oscillations of (Ca2+)i (in 9% of the cells). The observed Ca2+ responses were inhibited by the phospholipase C (PLC) inhibitor U‐73122 and the thrombin inhibitor protease nexin‐1/glia‐derived nexin. The synthetic thrombin receptor activating peptide could mimic the thrombin‐induced changes of (Ca2+)i. In astrocytes in Ca2+‐free medium, thrombin induced a sharp single transient Ca2+ rise, without superimposed fluctuations. After depletion of intracellular Ca2+ stores with thapsigargin the Ca2+ response to thrombin was diminished or completely suppressed indicating that thrombin induces the release of Ca2+ from intracellular stores. During long‐term Ca2+ responses, omission of extracellular Ca2+ resulted in a reversible interruption of the signal. In conclusion our results demonstrate that thrombin by activation of its plasma membrane receptor induces through activation of PLC different types of Ca2+ responses. The complex Ca2+ signals are generated by an interplay of InsP3‐mediated Ca2+ release from intracellular stores and Ca2+ entry across the plasma membrane. GLIA 21:361–369, 1997. © 1997 Wiley‐Liss, Inc. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Glia Wiley

Characteristics of thrombin‐induced calcium signals in rat astrocytes

Glia, Volume 21 (4) – Dec 1, 1997

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Publisher
Wiley
Copyright
Copyright © 1997 Wiley‐Liss, Inc.
ISSN
0894-1491
eISSN
1098-1136
DOI
10.1002/(SICI)1098-1136(199712)21:4<361::AID-GLIA3>3.0.CO;2-6
Publisher site
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Abstract

The protease thrombin seems to play a central role in events following neural injury, whereby the enzyme can act, in concert with other molecules as a hormone or as a growth factor. In cells derived from the nervous system, thrombin induces changes in morphology and proliferation. The signalling mechanisms involved in these thrombin‐activated processes are still unclear. In the present study we investigated Ca2+ signals in fura‐2 loaded rat astrocytes in primary culture. Brief stimulation of astrocytes with thrombin induced a dose‐dependent transient elevation of (Ca2+)i, best fitted by a double‐sigmoidal curve giving two EC50 values of 3 pM and 150 pM. Continuous superfusion of cells with thrombin induced Ca2+ responses with three different types of kinetics. In 48% of the cells tested a single transient rise superimposed with fast fluctuations of (Ca2+)i was seen. The following complex long‐term changes of (Ca2+)i, dependent on the presence of the agonist thrombin, were observed: i) a biphasic (Ca2+)i elevation, characterized by an initial peak followed by a sustained plateau phase (in 43% of the cells) and ii) oscillations of (Ca2+)i (in 9% of the cells). The observed Ca2+ responses were inhibited by the phospholipase C (PLC) inhibitor U‐73122 and the thrombin inhibitor protease nexin‐1/glia‐derived nexin. The synthetic thrombin receptor activating peptide could mimic the thrombin‐induced changes of (Ca2+)i. In astrocytes in Ca2+‐free medium, thrombin induced a sharp single transient Ca2+ rise, without superimposed fluctuations. After depletion of intracellular Ca2+ stores with thapsigargin the Ca2+ response to thrombin was diminished or completely suppressed indicating that thrombin induces the release of Ca2+ from intracellular stores. During long‐term Ca2+ responses, omission of extracellular Ca2+ resulted in a reversible interruption of the signal. In conclusion our results demonstrate that thrombin by activation of its plasma membrane receptor induces through activation of PLC different types of Ca2+ responses. The complex Ca2+ signals are generated by an interplay of InsP3‐mediated Ca2+ release from intracellular stores and Ca2+ entry across the plasma membrane. GLIA 21:361–369, 1997. © 1997 Wiley‐Liss, Inc.

Journal

GliaWiley

Published: Dec 1, 1997

References

  • Reciprocal modulation of astrocyte stellation by thrombin and protease nexin‐1
    Cavanaugh, Cavanaugh; Gurwitz, Gurwitz; Cunningham, Cunningham; Bradshaw, Bradshaw
  • Increase of intracellular calcium by oxytocin in hypothalamic cultured astrocytes
    DiScala‐Guenot, DiScala‐Guenot; Mouginot, Mouginot; Strosser, Strosser
  • Glutamate‐induced calcium signaling in astrocytes
    Kim, Kim; Rioult, Rioult; Cornell‐Bell, Cornell‐Bell
  • A molecular mechanism for synapse elimination: Novel inhibition of locally generated thrombin delays synapse loss in neonatal mouse muscle
    Zoubine, Zoubine; Ma, Ma; Smirnova, Smirnova; Citron, Citron; Festoff, Festoff

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