Redox states of type 1 ryanodine receptor alter Ca(2+) release channel response to modulators

The type 1 ryanodinereceptor (RyR1) from rabbit skeletal muscle displayed two distinctdegrees of response to cytoplasmic Ca²⁺ [high- andlow-open probability (P_o) channels]. Here, weexamined the effects of adenine nucleotides and caffeine on thesechannels and their modulations by sulfhydryl reagents.High-P_o channels showed biphasicCa²⁺ dependence and were activated by adenine nucleotidesand caffeine. Unexpectedly, low-P_o channels didnot respond to either modulator. The addition of a reducing reagent,dithiothreitol, to the cis side converted thehigh-P_o channel to a state similar to that ofthe low-P_o channel. Treatment withp-chloromercuriphenylsulfonic acid (pCMPS) transformedlow-P_o channels to ahigh-P_o channel-like state with stimulation by,-methylene-ATP and caffeine. In experiments under redox controlusing glutathione buffers, shift of the cis potential towardthe oxidative state activated the low-P_ochannel, similar to that of the high-P_o or thepCMPS-treated channel, whereas reductive changes inactivated thehigh-P_o channel. Changes in transredox potential, in contrast, did not affect channel activity ofeither channel. In all experiments, channels with higherP_o were stimulated to a great extent bymodulators, but ones with lower P_o wereunresponsive. These results suggest that redox states of criticalsulfhydryls located on the cytoplasmic side of the RyR1 may alter bothgating properties of the channel and responsiveness to channel modulators.