Functional characterisation of the ryanodine receptor purified from sheep cardiac muscle sarcoplasmic reticulum

Abstract

Sheep cardiac muscle sarcoplasmic reticulum ryanodine receptors have been isolated by density-gradient centrifugation following solubilisation with the zwitterionic detergent, CHAPS. The functional state of the receptor complex has been assessed by quantification of [ 3H]ryanodine binding and by characterisation of single-channel conductance and gating properties following reconstitution into unilamellar proteo-liposomes and incorporation into planar phospholipid bilayers. A method of solubilisation is described which yields a receptor displaying high-affinity [ 3H]ryanodine binding ( K d 2.8 nM, B max 352 pmol/mg protein) and which functions as a cation-selective, ligand-regulated channel under voltage clamp conditions. Previous reports of channel activity of purified rabbit skeletal and canine cardiac muscle ryanodine receptors describe a range of sub- or variable-conductance events. In contrast, the sheep cardiac ryanodine receptor-channels isolated using the optimal conditions described in this report consistently display a single open state conductance with either Ca 2+ or K + as the charge carrying species.