Biochemical aspects of the visual process,XXXV. Calcium binding by cattle rod outer segment membranes studied by means of equilibrium dialysis

The calcium binding capacity of cattle rod outer segment membranes has been studied by means of an equilibrium dialysis technique. The binding is not affected by prior lyophilization of the membranes or by the presence of ionophore A23187, indicating that only passive binding to membranes is involved without active translocation.The amount of calcium bound to the membranes is influenced by the ionic composition of the medium. Both Na⁺ and K⁺ decrease binding to about the same degree, but the size of the effects suggests a rather high specificity of the calcium binding sites on the membrane.From Scatchard plots for the amount of calcium bound as a function of the free calcium concentration, it appears that two types of binding sites exist: high affinity sites which can accommodate 5 nmol calcium per mg protein (0.3 mol. calcium/mol rhodopsin) and low affinity sites which can accommodate 195 nmol calcium per mg protein (13 mol calcium/mol rhodopsin). Depending on the medium composition, the high affinity sites show dissociation constants between 8 and 40 μM, and the low affinity sites between 0.3 and 1.6 mM.Illuminated rod outer segment membranes show a slight decrease of calcium binding as compared to dark-kept membranes, but the effect is independent of the amount of calcium bound and does not appear to be significant.From these findings and the assumption of a free calcium concentration of approx. 1 μM in the extrasaccular space in rod outer segments in vivo, it is concluded that mere passive binding to the rod sac membranes must be insufficient to explain the high calcium contents in rod outer segments.