Changes in functional properties of the caffeine-sensitive Ca2+ store during differentiation of human SH-SY5Y neuroblastoma cells

Autor:	AM Brown, Sophie E. Rowbotham, Christopher P.F. Redfern, Fiona C. Riddoch, Timothy R. Cheek
Rok vydání:	2007
Předmět:	Neurite Fura-2 Phosphodiesterase Inhibitors Physiology Priming (immunology) Antineoplastic Agents Tretinoin Membrane Potentials Neuroblastoma chemistry.chemical_compound Caffeine Cell Line Tumor Neurites Humans Calcium Signaling Molecular Biology Methacholine Chloride Calcium metabolism Ryanodine receptor Chemistry Cell Differentiation Depolarization Cell Biology Microscopy Fluorescence Parasympathomimetics Cell culture Potassium Biophysics Calcium
Zdroj:	Cell Calcium. 41:195-206
ISSN:	0143-4160
DOI:	10.1016/j.ceca.2006.06.007
Popis:	We have used single cell fluorescence imaging techniques to examine how functional properties of the caffeine-sensitive Ca(2+) store change during differentiation of a sub-population of caffeine-sensitive SH-SY5Y cells. Application of caffeine (30 mM) 1-10.5 min after a 'priming' depolarisation pulse of 55 mM K(+) revealed that the caffeine-sensitive store in undifferentiated cells remained replete, whereas that in 9-cis retinoic acid (9cRA)-differentiated cells spontaneously dissipated with a t(1/2) of 2.8 min, and was essentially completely depleted approximately 10 min after priming. In 9cRA-differentiated cells that were stimulated with methacholine (10 microM) 1 min after priming, the amplitude, rate of rise and propagation velocity of the Ca(2+) wave in the neurites were all constant, whereas these kinetic parameters all progressively decreased as the wave travelled along the neurites in cells that were stimulated 10 min after priming. Use-dependent block with ryanodine inhibited the global Ca(2+) signal in 9cRA-differentiated cells stimulated with methacholine 1 min after priming (71+/-8%) but not 10 min after priming. Depolarisation was more effective at priming the caffeine-sensitive Ca(2+) store in 9cRA-differentiated cells, which lack a functional store-operated Ca(2+) entry pathway. We conclude that differentiation of caffeine-sensitive SH-SY5Y cells is accompanied by an increase in lability of the caffeine-sensitive Ca(2+) store, and that spontaneous dissipation of Ca(2+) from the store limits the time course of its molecular 'memory' during which it can amplify the hormone-induced Ca(2+) signal by Ca(2+)-induced Ca(2+) release.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::27574274efd8fb6e7a94294733406ebb https://doi.org/10.1016/j.ceca.2006.06.007 Zobrazit plný text záznamu Full Text from ScienceDirect