Calcium dependence of ryanodine-sensitive calcium channels from brain cortex endoplasmic reticulum.

Endoplasmic reticulum vesicles isolated from rat brain cortex and fused with lipid bilayers displayed ryanodine-sensitive calcium channels, with three cytoplasmic calcium dependences. A: Channels (n=5) stimulated by Ca2+ (K0.5=1.2 microM and nHill=1.9) and not inhibited up to 0.5 mM Ca2+. B: Channels (n=14) cooperatively activated (K0.5=6.9 microM and nHill=1.8), and inhibited by Ca2+ (K0.5=152 microM and nHill=1.8). C: Low Po (<0.1) channels (n=22), non-cooperatively activated and inhibited with the same K0.5=26.3 microM Ca2+. These three types of responses to cytoplasmic [Ca2+] may underlie separate calcium release pathways in neurons of rat brain cortex.