Proteolytic activation of a hyperpolarization- and calcium-dependent potassium channel inParamecium

Abstract

The effects of proteolysis on a hyperpolarization- and Ca²⁺-dependent K channel from the surface membrane ofParamecium tetraurelia were examined in the inside-out excised patch mode. Treatment with trypsin, pronase or thermolysin removed the Ca²⁺-dependence of the channel activation, yielding an increase in channel activity greater than 2.5-fold at all Ca²⁺ concentrations between 10⁻⁴ and 10⁻⁸ m. Thermolysin addition-ally removed the voltage dependence of channel opening and gave the most activation among the three proteases tested. Proteolysis did not affect the single-channel conductance. In an analogy to the mechanism of activation of many Ca²⁺-dependent enzymes it is suggested that thisParamecium channel has a cytoplasmic inhibitory domain which can be removed by proteolysis, and that the physiological activation by Ca²⁺ is due to a temporary removal of this inhibition. Moreover, these findings indicate structural differences between depolarization-, Ca²⁺-dependent K channels (BK channels) and the hyperpolarization-, Ca²⁺-dependent K channels inParamecium.