Run-down of L-type Ca2+ channels in CHO cells stably expressing alpha 1c, alpha 1c beta 1a, or alpha 1c beta 1a alpha 2 delta gamma subunits was studied using the patch-clamp technique (single channel recording). The channel activity (NPo) of alpha 1c channels was increased 4- and 8-fold by coexpression with beta 1a and beta 1a alpha 2 delta gamma, respectively. When membranes containing channels composed of different subunits were excised into basic internal solution, the channel activity exhibited run-down, the time-course of which was independent of the subunit composition. The run-down was restored by the application of calpastatin (or calpastatin contained in cytoplasmic P-fraction) + H-fraction (a high molecular mass fraction of bovine cardiac cytoplasm) + 3 mM ATP, which has been shown to reverse the run-down in native Ca2+ channels in the guinea-pig heart. The restoration level was 64.7, 63.5, and 66.4% for channels composed of alpha 1c, alpha 1c beta 1a, and alpha 1c beta 1a alpha 2 delta gamma, respectively, and was thus also independent of the subunit composition. We conclude that run-down of L-type Ca2+ channels occurs via the alpha 1 subunit and that the cytoplasmic factors maintaining Ca2+ channel activity act on the alpha 1 subunit.