Modification of sulfhydryls of the skeletal muscle calcium release channel by organic mercurial compounds alters Ca2+ affinity of regulatory Ca2+ sites in single channel recordings and [3H]ryanodine binding

The actions of two organic mercurial compounds, 4-(chloromercuri)phenyl-sulfonic acid (4-CMPS) and p-chloromercuribenzoic acid (p-CMB) on the calcium release channel (ryanodine receptor) from rabbit skeletal muscle were determined by single channel recordings with the purified calcium release channel, radioligand binding to sarcoplasmic reticulum vesicles (HSR) and calcium release from HSR. p-CMB or 4-CMPS (20-100 mu M) increased the mean open probability (P-o) of the calcium channel at subactivating (20 nM), maximally activating (20-100 mu M) and inhibitory (1-4 mM) Ca2+ concentrations, with no effect on unitary conductance. This activation was partly reversed by 2 mM DTT. Both compounds affected the channels only from the cytosolic side, but not from the trans side. 100 mu M 4-CMPS caused a transient increase in P-o, followed by a low activity state within 1 min. At inhibitory Ca2+ concentrations P-o was increased to values observed with maximally activating Ca2+ or lower, inhibitory Ca2+ concentrations. The p-CMB/4-CMPS modified channels were ryanodine sensitive and blocked by ruthenium red. [H-3]Ryanodine binding was increased up to four-fold with 3-15 mu M 4-CMPS/p-CMB (Hill coefficient 1.7-2.0) at 4 mu M Ca2+ and reduced at high concentrations (50-200 mu M). The increase in [H-3]ryanodine binding by 10 mu M 4-CMPS was completely inhibited by 2 mM DTT. 4-CMPS significantly increased the affinity for the high affinity calcium activation sites and decreased the affinity of low affinity calcium inhibitory sites of specific [H-3]ryanodine binding. 4-CMPS increased the affinity of the ryanodine receptor for high affinity ryanodine binding without a change in receptor density. 4-CMPS induced a rapid, concentration-dependent, biphasic calcium release from passively calcium-loaded HSR vesicles at subactivating Ca2+ concentrations (20 nM), which was partly inhibited by 4 mM DTT and completely blocked by 20 mu M ruthenium red. It is suggested that the 4-CMPS-induced modulation of essential sulfhydryls involved in the gating of the calcium release channel results in a modulation of the apparent calcium affinity of the activating high affinity and inhibitory low affinity calcium binding sites of the calcium release channel. 0167-4889/98/$ - see front matter (C) 1998 Elsevier Science B.V. All rights reserved.