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Literature DB >> 11728131

Intracellular stores maintain stable cytosolic Ca(2+) gradients in epithelial cells by active Ca(2+) redistribution.

Abstract

A stable localized region of high calcium concentration near the plasma membrane has been postulated to exist as an outcome of prolonged calcium influx and to play a crucial role in regulation of cellular life. However, the mechanism supporting this phenomenon is a perplexing problem. We show here that a sustained localized region of high cytosolic Ca(2+) concentration is formed near the plasma membrane. Calcium influx, calcium uptake by intracellular stores and calcium release from the stores are essential for this phenomenon. Our results strongly suggest that the mechanism of formation of stable calcium gradient near the plasma membrane involves a process of active redistribution-uptake of entering calcium into intracellular stores and its release from the stores toward the plasma membrane. Copyright 2001 Harcourt Publishers Ltd.

Entities: Chemical

Mesh：

Substances：
Calcium

Year: 2001 PMID： 11728131 DOI： 10.1054/ceca.2001.0245

Source DB: PubMed Journal: Cell Calcium ISSN： 0143-4160 Impact factor: 6.817

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Cited

7 in total

1. P2Y2-receptor-mediated activation of a contralateral, lanthanide-sensitive calcium entry pathway in the human airway epithelium.

Authors: Parmjit Bahra; Jonathan Mesher; Su Li; Christopher T Poll; Henry Danahay
Journal: Br J Pharmacol Date: 2004-08-02 Impact factor: 8.739

2. Immunogold electron microscopic demonstration of distinct submembranous localization of the activated gammaPKC depending on the stimulation.

Authors: Miho Oyasu; Mineko Fujimiya; Kaori Kashiwagi; Shiho Ohmori; Hirotsugu Imaeda; Naoaki Saito
Journal: J Histochem Cytochem Date: 2007-11-26 Impact factor: 2.479

3. Dual Oxidase 2 (Duox2) Regulates Pannexin 1-mediated ATP Release in Primary Human Airway Epithelial Cells via Changes in Intracellular pH and Not H2O2 Production.

Authors: Stefanie Krick; Junjie Wang; Melissa St-Pierre; Carlos Gonzalez; Gerhard Dahl; Matthias Salathe
Journal: J Biol Chem Date: 2016-01-28 Impact factor: 5.157

4. Computational modelling elucidates the mechanism of ciliary regulation in health and disease.

Authors: Nikolay V Kotov; Declan G Bates; Antonina N Gizatullina; Bulat Gilaziev; Rustem N Khairullin; Michael Z Q Chen; Ignat Drozdov; Yoshinori Umezawa; Christian Hundhausen; Alexey Aleksandrov; Xing-gang Yan; Sarah K Spurgeon; C Mark Smales; Najl V Valeyev
Journal: BMC Syst Biol Date: 2011-09-15

Intracellular stores maintain stable cytosolic Ca(2+) gradients in epithelial cells by active Ca(2+) redistribution.

1. P2Y2-receptor-mediated activation of a contralateral, lanthanide-sensitive calcium entry pathway in the human airway epithelium.

2. Immunogold electron microscopic demonstration of distinct submembranous localization of the activated gammaPKC depending on the stimulation.

3. Dual Oxidase 2 (Duox2) Regulates Pannexin 1-mediated ATP Release in Primary Human Airway Epithelial Cells via Changes in Intracellular pH and Not H2O2 Production.

4. Computational modelling elucidates the mechanism of ciliary regulation in health and disease.

5. Distinct axonemal processes underlie spontaneous and stimulated airway ciliary activity.

6. The mechanism of ciliary stimulation by acetylcholine: roles of calcium, PKA, and PKG.

7. Intracellular Ca2+ regulates the phosphorylation and the dephosphorylation of ciliary proteins via the NO pathway.