Abstract
The cytosolic Ca(2+) concentration ([Ca(2+)](c)) controls diverse cellular events via various Ca(2+) signaling patterns; the latter are influenced by the method of cell activation. Here, in single-voltage clamped smooth muscle cells, sarcolemma depolarization generated uniform increases in [Ca(2+)](c) throughout the cell entirely by Ca(2+) influx. On the other hand, the Ca(2+) signal produced by InsP(3)-generating agonists was a propagated wave. Using localized uncaged InsP(3), the forward movement of the Ca(2+) wave arose from Ca(2+)-induced Ca(2+) release at the InsP(3) receptor (InsP(3)R) without ryanodine receptor involvement. The decline in [Ca(2+)](c) (the back of the wave) occurred from a functional compartmentalization of the store, which rendered the site of InsP(3)-mediated Ca(2+) release, and only this site, refractory to the phosphoinositide. The functional compartmentalization arose by a localized feedback deactivation of InsP(3) receptors produced by an increased [Ca(2+)](c) rather than a reduced luminal [Ca(2+)] or an increased cytoplasmic [InsP(3)]. The deactivation of the InsP(3) receptor was delayed in onset, compared with the time of the rise in [Ca(2+)](c), persisted (>30 s) even when [Ca(2+)](c) had regained resting levels, and was not prevented by kinase or phosphatase inhibitors. Thus different forms of cell activation generate distinct Ca(2+) signaling patterns in smooth muscle. Sarcolemma Ca(2+) entry increases [Ca(2+)](c) uniformly; agonists activate InsP(3)R and produce Ca(2+) waves. Waves progress by Ca(2+)-induced Ca(2+) release at InsP(3)R, and persistent Ca(2+)-dependent inhibition of InsP(3)R accounts for the decline in [Ca(2+)](c) at the back of the wave.
Highlights
Changes in [Ca2ϩ]c,1 central to the functioning of biological systems, regulate numerous signaling pathways
This study has shown that Ca2ϩ waves progress by sequential release of Ca2ϩ from the InsP3 receptor triggered by Ca2ϩ itself and that ryanodine receptors (RyR) do not play a significant role in this process
The present study using intact, single, smooth muscle cells with both InsP3 receptor (InsP3R) and RyR has examined the signaling patterns evoked by Ca2ϩ influx via voltage-dependent Ca2ϩ channels and following Ca2ϩ release by InsP3R activity
Summary
From male guinea pigs (500 –700 g), humanely killed by cervical dislocation followed by immediate exsanguination in accordance with the guidelines of the Animal (Scientific Procedures) Act UK 1986, a segment of intact distal colon (ϳ5 cm) was transferred to an oxygenated (95% O2, 5% CO2) physiological saline solution of the following composition (mM): NaCl 118.4, NaHCO3 25, KCl 4.7, NaH2PO4 1.13, MgCl2 1.3, CaCl2 2.7, and glucose 11 (pH 7.4). From this tissue, following removal of the mucosa, single smooth muscle cells were enzymatically dissociated [39].
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