The calcium-induced calcium release mechanism in skeletal muscle and its modification by drugs

Several types of reagents that react with amino acid side chains induced repetitive phasic contracture of skinned skeletal muscle from frogs. The presence of 10 mM procaine or 5 mM magnesium in the medium or disruption of the sarcoplasmic reticulum (SR) eliminated this contracture, indicating that the calcium-induced calcium-release mechanism of SR is involved in the contraction. Dithiothreitol inhibited the contracture induced by chloramine T, N-acetylimidazole, or p-chloromercuriphenylsulfonic acid (pCMPS) but not in the case of carbodiimide, phenylglyoxal, trinitrobenzenesulfonic acid, diethylpyrocarbonate (DEP), or N-chlorosuccinimide (NCS). Therefore, modification of groups other than the sulfhydryl ones seems to induce contractures under such conditions. The amplitude of the caffeine-induced contracture decreased after treatment with pCMPS, DEP, or NCS. NCS shifted the pCa–tension curve toward low pCa in the SR-disrupted fibers. This shift would explain the decrease in caffeine contracture. It is tentatively concluded that pCMPS and DEP release a large amount of calcium from SR.

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Evidence in Favor of a Novel Excitation‐Contraction Calcium Release Mechanism in Skeletal Muscle L6 Cells

The FASEB Journal ◽

10.1096/fasebj.25.1_supplement.956.2 ◽

2011 ◽

Vol 25 (S1) ◽

Author(s):

Saumitra Pitake ◽

Raymond Ochs

Keyword(s):

Skeletal Muscle ◽

Calcium Release ◽

Release Mechanism ◽

L6 Cells

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Calcium-induced calcium release mechanism in guinea pig taenia caeci.

The Journal of General Physiology ◽

10.1085/jgp.94.2.363 ◽

1989 ◽

Vol 94 (2) ◽

pp. 363-383 ◽

Cited By ~ 142

Author(s):

M Iino

Keyword(s):

Guinea Pig ◽

Calcium Release ◽

Adenine Nucleotide ◽

Physiological Role ◽

Release Mechanism ◽

Smooth Muscle Fiber ◽

Skinned Smooth Muscle ◽

Intracellular Ca ◽

Almost All ◽

Calcium Induced Calcium Release

Fura-2 was used to measure the amount of Ca released from the intracellular Ca store of a saponin-skinned smooth muscle fiber bundle of the guinea pig taenia caeci (width, 150-250 microns) placed in a capillary cuvette at 20-22 degrees C. The amount of Ca actively loaded into the store was assayed when released by the application of 50 mM caffeine and/or 10 microM inositol 1,4,5-trisphosphate (IP3) in the absence of ATP, and was found to have a biphasic dependence on the loading [Ca2+] with a peak near pCa 6. After Ca loading at pCa 6, IP3 released almost all the releasable Ca, whereas caffeine discharged Ca from only approximately 40% of the store. The maximum amount of Ca in the store was some 220 mumol/liter cell water. Ca in the caffeine-releasable store was released approximately exponentially to zero with time when Ca2+ was applied in the absence of ATP, and the rate constant of the Ca-induced Ca release (CICR) increased steeply with the concentration of Ca2+ applied. Increase in [Mg2+] (0.5-5.0 mM) or decrease in pH (7.3-6.7) shifted the relation between pCa and the rate of CICR roughly in parallel toward the lower pCa. An adenine nucleotide increased the rate of the CICR, but it did not change the range of effective [Ca2+]. 5 mM caffeine greatly enhanced the CICR mechanism, making it approximately 30 times more sensitive to [Ca2+]. However the drug had no Ca-releasing action in the absence of Ca2+. Procaine in millimolar concentrations inhibited the rate of the CICR. These properties are similar to those of the skeletal muscle CICR and ryanodine receptor channels. Rates of the CICR under a physiological ionic milieu were estimated from the results, and a [Ca2+] greater than 1 microM was expected to be necessary for the activation of the Ca release. This Ca sensitivity seems too low for the CICR mechanism to play a primary physiological role in Ca mobilization, unless assisted by other mechanisms.

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