Marcroscopic and single-channel studies of two Ca2+ channel types in oocytes of the ascidianCiona intestinalis

Summary Whole-cell and single-channel patch-clamp experiments were performed on unfertilized oocytes of the ascidianCiona intestinalis to investigate the properties of two voltage-dependent Ca²⁺ currents found in this cell. The peak of the low threshold current (channel I) occurred at –20 mV, the peak of the high-threshold current (channel II) at +20 mV. The two currents could be distinguished by voltage dependence, kinetics of inactivation and ion selectivity. During large depolarizing voltage pulses, a transient outward current was recorded which appeared to be due to potassium efflux through channel II. When the external concentrations of Ca²⁺ and Mg²⁺ were reduced sufficiently, large inward Na currents flowed through both channels I and II. Using divalent-free solutions in cell-attached patch recordings, single-channel currents representing Na influx through channels I and II were recorded. The two types of unitary events could be distinguished on the basis of open time (channel I longer) and conductance (channel I smaller). Blocking events during changel I openings were recorded when micromolar concentrations of Ca²⁺ or Mg²⁺ were added to the patch pipette solutions. Slopes of the blocking rate constantvs. concentration gave binding constants of 6.4×10⁶m^–1 sec^–1 for Mg²⁺ and 4.5×10⁸m^–1 sec^–1 for Ca²⁺. The Ca²⁺ block was somewhat relieved at negative potentials, whereas the Mg²⁺ block was not, suggesting that Ca²⁺, but not Mg²⁺, can exit from the binding site toward the cell interior.