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Laboratoire de Physiologie des Eléments Excitables, CNRS UMR 5578, Université C. Bernard, Villeurbanne, France.

1. Enzymatically isolated skeletal muscle fibres were used to investigate the effects of applying acetylcholine (ACh) onto the endplate area on intracellular free calcium concentration ([Ca2+]i) measured using the indicator indo-1 and single channel activity using the patch clamp technique. 2. Using a Tyrode solution containing 5 microM tetrodotoxin (TTX) as extracellular solution, ACh applications (at 0.1 or 1 mM) onto the endplate induced intracellular free calcium transients the mean maximal amplitude of which was 360 +/- 30 nM from a mean resting value of 72 +/- 7 nM (n = 13). In cells bathed with a K(+)-rich solution (145 mM K+), applications of ACh (0.1 mM) induced transient rises in [Ca2+]i from a mean resting value of 53 +/- 7 nM to a maximum of 222 +/- 24 nM (n = 33). 3. In cell-attached membrane patches at the endplate membrane of muscle fibres bathed in a K(+)-rich external solution, using a pipette filled with Tyrode solution, external application of 0.1 mM ACh could induce a transient burst opening of channels carrying an outward current of an average amplitude of 4.6 +/- 0.2 pA at 0 mV (n = 8). 4. These channels were characterized as Ca2(+)-activated K+ channels. At 0 mV, in inside-out patches excised from the endplate membrane area, they displayed a conductance of 60 and 224 pS in the presence of Tyrode and K(+)-rich solution in the pipette, respectively. Half-maximum activation was found for a [Ca2+]i close to 4 microM. The channels showed a typical voltage dependence. In outside-out patches these channels were shown to be blocked by 100 nM charybdotoxin (CTX). 5. In fibres bathed in a Tyrode solution containing TTX (5 microM), CTX had no clear effect on the change in membrane voltage, recorded near the endplate with a single intracellular microelectrode, in response to the application of ACh. 6. Although the physiological relevance of this ACh-induced K+ channel activation remains unclear, results suggest that, in the presence of a physiological extracellular [Ca2+], Ca2+ entry through the endplate nicotinic receptors can produce a local increase in [Ca2+]i, sufficient to trigger the opening of Ca2+-activated K+ channels in the adjacent surface membrane.

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				N. Mallouk and B. Allard Ca2+ Influx and Opening of Ca2+-Activated K+ Channels in Muscle Fibers from Control and mdx Mice Biophys. J., June 1, 2002; 82(6): 3012 - 3021. [Abstract] [Full Text] [PDF]