Intraluminal Ca2+ dependence of Ca2+ and ryanodine-mediated regulation of skeletal muscle sarcoplasmic reticulum Ca2+ release. |
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Authors: | J S Gilchrist A N Belcastro S Katz |
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Affiliation: | Faculty of Graduate Studies, University of British Columbia, Vancouver, Canada. |
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Abstract: | The action of ryanodine upon sarcoplasmic reticulum (SR) Ca2+ handling is controversial with evidence for both activation and inhibition of SR Ca2+ release. In this study, the role of the intraluminal SR Ca2+ load was probed as a potential regulator of ryanodine-mediated effects upon SR Ca2+ release. Through dual-wavelength spectroscopy of Ca2+:antipyrylazo III difference absorbance, the intraluminal Ca2+ dependence of ryanodine and Ca(2+)-induced Ca2+ release (CICR) from skeletal SR vesicles was examined. Ryanodine addition after initiation of Ca2+ uptake (a) increased the intraluminal Ca2+ sensitivity of CICR and (b) stimulated spontaneous Ca2+ release with a delayed onset. These ryanodine effects were inversely proportional to the intraluminal Ca2+ load. Ryanodine also inhibited subsequent CICR after reaccumulation of Ca2+ released from the initial CICR. These results provide evidence that ryanodine inhibits transitions between low and high affinity Ca2+ binding states of an intraluminal Ca2+ compartment, possibly calsequestrin. Conformational transitions of calsequestrin may be reciprocally coupled to transitions between open and closed states of the Ca2+ release channel. |
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