H. Oyamada et al., EFFECTS OF RYANODINE ON THE PROPERTIES OF CA2-RETICULUM IN SKINNED SKELETAL-MUSCLE FIBERS OF THE FROG( RELEASE FROM THE SARCOPLASMIC), Journal of physiology, 470, 1993, pp. 335-348
1. We studied the effects of ryanodine on the functions of the sarcopl
asmic reticulum (SR) in skinned muscle fibres from Xenopus laevis. 2.
Ryanodine treatment decreased the Ca2+ uptake capacity of the SR in a
fixed Ca2+ loading condition. The extent of the decrease in the SR Ca2
+ uptake capacity was closely correlated with the activity of the Ca2-induced Ca2+ release (CICR) during the ryanodine treatment. This sugg
ests, in agreement with the previous biochemical results, that ryanodi
ne acts on the CICR channels when they are open. 3. The rate of Ca2+ l
eakage from the SR increased after ryanodine treatment. However, the l
eakage rate constants were independent of the degree of the loss of SR
Ca2+ uptake capacity by the ryanodine treatment. This is inconsistent
with the notion that the SR is a single uniform compartment and that
the decline in the SR Ca2+ uptake capacity is a result of the increase
in the Ca2+ leakage. 4. Partial recovery of the Ca2+ uptake capacity
of the ryanodine-treated SR was observed when Ca2+ loading was carried
out in the presence of 10 mm procaine. This indicates that procaine p
artially blocks the open-locked channels. 5. After Ca2+ loading in the
presence of procaine, removal of procaine induced a rapid release of
Ca2+ from the SR through the open-locked channels. This rapid release
was dependent both on the adenine nucleotide concentration and on the
Ca2+ concentration. Thus, the 'open-locked' CICR channels are still re
gulated by Ca2+ and adenine nucleotides.