Activation and inhibition of purified skeletal muscle calcium release channel by NO donors in single channel current recordings

AbstractThe actions of the nitric oxide (NO) donors 1-hydroxy-2-oxo-3-(N-methyl-3-aminopropyl)-3 methyl-1-triazine (NOC-7), S-nitrosoacetylcysteine (CySNO) and S-nitrosoglutathione (GSNO) on the purified calcium release channel (ryanodine receptor) of rabbit skeletal muscle were determined by single channel current recordings. In addition, the activation of the NO donor modulated calcium release channel by the sulfhydryl oxidizing organic mercurial compound 4-(chloromercuri)phenylsulfonic acid (4-CMPS) was investigated. NOC-7 (0.1 and 0.3 mM) and CySNO (0.4 and 0.8 mM) increased the open probability (Po) of the calcium release channel at activating calcium concentrations (20–100 μM Ca2+) by 60–100%, with no effect on the current amplitude; this activation was abolished by the specific sulfhydryl reducing agent DTT. High concentrations of CySNO (1.6–2 mM) decreased Po. Activation by GSNO (1 mM) was observed in two thirds of the experiments, but 2 mM and 4 mM GSNO markedly reduced Po at activating Ca2+ (20–100 μM). In contrast to 4-CMPS, NOC-7 or GSNO had no effect at subactivating free Ca2+ (0.6 μM). 4-CMPS further increased the open probability of NOC-7- or CySNO-stimulated channels and reversed transiently the reduced open probability of CySNO or GSNO inhibited channels at activating free Ca2+. High concentrations of GSNO did not prevent channel activation of 4-CMPS at subactivating free Ca2+. The NOC-7-, CySNO- or GSNO-modified channels were completely blocked by ruthenium red. It is suggested that nitrosylation/oxidation of sulfhydryls by NO donors and oxidation of sulfhydryls by 4-CMPS affect different cysteine residues essential in the gating of the calcium release channel