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  The calcium signal in human neutrophils and its relation to exocytosis investigated by patch-clamp capacitance and Fura-2 measurements.

Nüsse, O., & Lindau, M. (1993). The calcium signal in human neutrophils and its relation to exocytosis investigated by patch-clamp capacitance and Fura-2 measurements. Cell Calcium, 14(4), 255-269.

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Nüsse, O., Author
Lindau, M.1, Author              
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1Research Group of Nanoscale Cell Biology, MPI for Biophysical Chemistry, Max Planck Society, ou_1832294              

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 Abstract: Intracellular calcium ([Ca2+]i) and exocytosis of human neutrophils were investigated with patch-clamp capacitance and Fura-2 fluorescence measurements. Intracellular application of GTP gamma S induces a calcium transient and exocytosis. The onset of degranulation occurs at the time where the maximal [Ca2+]i is reached. Despite the close correlation in time, buffering [Ca2+]i at the resting level or at approximately 2 microM leaves the extent and the time course of degranulation unchanged. The decay of the calcium transient is due to diffusional equilibration between the cytosol and the pipette volume. GTP gamma S activates no cellular mechanisms for Ca2+ reuptake or extrusion. The endogenous calcium buffer capacity can be estimated to be as low as that of approximately 90 microM Fura-2. Stimulation with fMLP also induces degranulation and a calcium transient. The decay of fMLP-induced calcium transients is much faster than that of GTP gamma S-induced transients and is independent of diffusion indicating that fMLP also induces rapid reuptake or extrusion of Ca2+. Degranulation but not the calcium transient requires the presence of intracellular GTP. Different signalling pathways appear to be involved in GTP gamma S- and fMLP-stimulated calcium signals. The intracellular calcium release is not an essential signal to initiate exocytosis in neutrophils.

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Language(s): eng - English
 Dates: 1993-04
 Publication Status: Published in print
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Title: Cell Calcium
Source Genre: Journal
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Pages: - Volume / Issue: 14 (4) Sequence Number: - Start / End Page: 255 - 269 Identifier: -