Some Properties of Chemically Skinned Single Smooth Muscle Cells

Abstract

Properties of isolated single smooth muscle cells in which the surface membrane has been made highly permeable by saponin treatment are described. The single cells were isolated from guinea pig taenia caeci by digestion with collagenase and skinned in a relaxing solution by treatment with 7μg/ml saponin for 10min. The skinned single cells showed Ca²⁺ -regulated shortening in the presence of Mg-ATP, and the maximum degree of shortening was larger than that of the potassium-induced shortening observed in the intact isolated single cells. The half maximum shortening of the skinned single cells occurred at about 5×10^-8M Ca²⁺. The skinned single cells showed a significantly higher Ca²⁺ -sensitivity than the skinned fiber bundles. The shortening-pCa curve for the skinned single cells was unchanged by alteration of pH and ionic strength, but it was shifted to the left by increasing MgATP concentration Caffeine induced shortening in the skinned single cells preloaded with Ca²⁺, and this shortening was suppressed by procaine. The release of Ca²⁺ from the storage site could be produced and facilitated by Ca²⁺ itself when the skinned single cells were exposed to Ca²⁺ with a concentration of above 2×10^-8M and this release was suppressed by procaine. These results suggest that the Ca²⁺ -induced Ca²⁺ release mechanism may play a role in the regulation of the stored Ca²⁺ in this cell.