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Literature DB >> 15474007

Ca2+-dependent interaction of BAPTA with phospholipids.

M Rousset¹, T Cens, N Vanmau, P Charnet.

Abstract

Starting from a comparative study of different Ca2+ chelators on the G-protein-induced inhibition of the CaV2.1 Ca channels, we demonstrate that BAPTA and DM-nitrophen are able to interact, in a Ca2+- and lipid-dependent manner, with phospholipid monolayers. Critical insertion pressure and sensitivity to charged lipids indicated that insertion in the lipid film may occur in biological membranes as those found on Xenopus oocytes. This novel property is not found for EGTA and EDTA and may participate to the unusual ability of BAPTA-related molecules to chelate Ca2+ ions in the very close vicinity of the plasma membrane, where most of the Ca2+-dependent signalling triggered by voltage-gated Ca2+ currents occurs. Copyright 2004 Federation of European Biochemical Societies

Entities: Chemical Gene Species

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Year: 2004 PMID： 15474007 DOI： 10.1016/j.febslet.2004.08.058

Source DB: PubMed Journal: FEBS Lett ISSN： 0014-5793 Impact factor: 4.124

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Cited

6 in total

1. Ca2+/CaM-dependent inactivation of the skeletal muscle L-type Ca2+ channel (Cav1.1).

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2. Adenosine receptors regulate gap junction coupling of the human cerebral microvascular endothelial cells hCMEC/D3 by Ca²⁺ influx through cyclic nucleotide-gated channels.

Authors: Almke Bader; Willem Bintig; Daniela Begandt; Anne Klett; Ina G Siller; Carola Gregor; Frank Schaarschmidt; Babette Weksler; Ignacio Romero; Pierre-Olivier Couraud; Stefan W Hell; Anaclet Ngezahayo
Journal: J Physiol Date: 2017-02-14 Impact factor: 5.182

3. Presence of multiple binding sites on α9α10 nAChR receptors alludes to stoichiometric-dependent action of the α-conotoxin, Vc1.1.

Authors: Dinesh C Indurthi; Elena Pera; Hye-Lim Kim; Cindy Chu; Malcolm D McLeod; J Michael McIntosh; Nathan L Absalom; Mary Chebib
Journal: Biochem Pharmacol Date: 2014-02-15 Impact factor: 5.858

Ca2+-dependent interaction of BAPTA with phospholipids.

1. Ca2+/CaM-dependent inactivation of the skeletal muscle L-type Ca2+ channel (Cav1.1).

2. Adenosine receptors regulate gap junction coupling of the human cerebral microvascular endothelial cells hCMEC/D3 by Ca²⁺ influx through cyclic nucleotide-gated channels.

3. Presence of multiple binding sites on α9α10 nAChR receptors alludes to stoichiometric-dependent action of the α-conotoxin, Vc1.1.

4. TLR-independent induction of human monocyte IL-1 by phosphoglycolipids from thermophilic bacteria.

5. Role of Mitofusin-2 in mitochondrial localization and calcium uptake in skeletal muscle.

6. Hysteresis of gating underlines sensitization of TRPV3 channels.

Ca2+-dependent interaction of BAPTA with phospholipids.

1. Ca2+/CaM-dependent inactivation of the skeletal muscle L-type Ca2+ channel (Cav1.1).

2. Adenosine receptors regulate gap junction coupling of the human cerebral microvascular endothelial cells hCMEC/D3 by Ca2+ influx through cyclic nucleotide-gated channels.

3. Presence of multiple binding sites on α9α10 nAChR receptors alludes to stoichiometric-dependent action of the α-conotoxin, Vc1.1.

4. TLR-independent induction of human monocyte IL-1 by phosphoglycolipids from thermophilic bacteria.

5. Role of Mitofusin-2 in mitochondrial localization and calcium uptake in skeletal muscle.

6. Hysteresis of gating underlines sensitization of TRPV3 channels.

2. Adenosine receptors regulate gap junction coupling of the human cerebral microvascular endothelial cells hCMEC/D3 by Ca²⁺ influx through cyclic nucleotide-gated channels.