Elementary and global aspects of calcium signalling.
TLDR
Using Ca2+ imaging techniques, the opening of individual channels has now been visualized and models have been proposed to explain how these elementary events are coordinated to generate the global Ca 2+ signals that regulate cellular activity.Abstract:
Calcium is a ubiquitous second messenger used to regulate a wide range of cellular processes. This role in signalling has to be conducted against the rigid homeostatic mechanisms that ensure that the resting level of Ca2+ is kept low (i.e. between 20 and 100 nmol l-1) in order to avoid the cytotoxic effects of a prolonged elevation of [Ca2+]. Cells have evolved a sophisticated signalling system based on the generation of brief pulses of Ca2+ which enables this ion to be used as a messenger, thus avoiding its toxic effects. Such Ca2+ spikes usually result from the coordinated release of Ca2+ from internal stores using either inositol 1,4,5-trisphosphate or ryanodine receptors. Using Ca2+ imaging techniques, the opening of individual channels has now been visualized and models have been proposed to explain how these elementary events are coordinated to generate the global Ca2+ signals that regulate cellular activity.read more
Citations
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Inositol 1,4,5-trisphosphate receptors in the endoplasmic reticulum: A single-channel point of view.
TL;DR: This review provides a concise account of the fundamental single-channel properties of the InsP3R channel: its conductance properties and its regulation byInsP3 and Ca(2+), its physiological ligands, studied using nuclear patch clamp electrophysiology.
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Regulation of Uterine Smooth Muscle Function during Gestation
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Mode Switching Is the Major Mechanism of Ligand Regulation of InsP3 Receptor Calcium Release Channels
Lucian Ionescu,Carl White,King-Ho Cheung,Jianwei Shuai,Ian Parker,John E. Pearson,J. Kevin Foskett,Don-On Daniel Mak +7 more
TL;DR: Modal switching is revealed as the major mechanism of physiological regulation of InsP3R channel activity, with implications for the kinetics of Ca2+ release events in cells.
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MS4A12 is a colon-selective store-operated calcium channel promoting malignant cell processes.
TL;DR: It is shown that loss of MS4A12 in LoVo colon cancer cells attenuates epidermal growth factor receptor-mediated effects, and this findings have implications for both the physiology of colonic epithelium as well as for the biology and treatment of colon cancer.
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Fluorescent imaging in living systems.
TL;DR: Commonly used imaging methods such as confocal and multiphoton microscopy, when combined with techniques such as fluorescence resonance energy transfer and fluorescence lifetime imaging, can provide powerful strategies with which to study molecular events in intact cells.
References
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Journal ArticleDOI
Inositol trisphosphate and calcium signalling
TL;DR: Inositol trisphosphate is a second messenger that controls many cellular processes by generating internal calcium signals through receptors whose molecular and physiological properties closely resemble the calcium-mobilizing ryanodine receptors of muscle.
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Inositol trisphosphate, a novel second messenger in cellular signal transduction.
TL;DR: Diacylglycerol operates within the plane of the membrane to activate protein kinase C, whereas inositol trisphosphate is released into the cytoplasm to function as a second messenger for mobilizing intracellular calcium.
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A model for receptor-regulated calcium entry
TL;DR: A capacitative model is proposed for the mechanism by which activation of surface membrane receptors causes sustained Ca2+ entry into cells from the extracellular space, which allows forCa2+ release and Ca2-mobilization to be controlled by a single messenger, inositol (1,4,5) trisphosphate.
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Release of Ca2+ from a nonmitochondrial intracellular store in pancreatic acinar cells by inositol-1,4,5-trisphosphate.
TL;DR: It is reported here that micromolar concentrations of Ins1,4,5P3 release Ca2+ from a nonmitochondrial intracellular Ca2- store in pancreatic acinar cells, and the results strongly suggest that this is the same Ca1+ store that is released by acetylcholine.
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Calcium sparks: elementary events underlying excitation-contraction coupling in heart muscle
TL;DR: The calcium spark is the consequence of elementary events underlying excitation-contraction coupling and provides an explanation for both spontaneous and triggered changes in the intracellular calcium concentration in the mammalian heart.