Evidence for a voltage-dependent regulatory (inhibitory) site on the nicotinic acetylcholine receptor to which acetylcholine binds was obtained in membrane vesicles prepared from the Torpedo californica electric organ. Two rate coefficients, JA and alpha, which pertain to the receptor-controlled ion flux, were measured. A 1000-fold concentration range of acetylcholine was used in a transmembrane voltage (Vm) range from 0 to -48 mV under a voltage-clamped condition at pH 7.4, 1 degrees C. The following observations were made. (i) At low acetylcholine concentrations, the value of JA, the rate coefficient for ion translocation by the active (nondesensitized) state of the receptor, increased with increasing concentration. (ii) JA decreased at high acetylcholine concentrations. (iii) In contrast, alpha, the rate coefficient for receptor desensitization, did not show such a decrease. (iv) When the transmembrane potential of the vesicle membrane was changed to more negative values, the value of KR (the dissociation constant for binding of acetylcholine to the regulatory site) decreased by a factor of approximately 9 for a 25 mV change in Vm, while KI (the dissociation constant for binding of acetylcholine to the receptor site that controls channel opening) did not show such a change and has a value of 80 microM. When Vm is -48 mV, KR has a value of 8 microM. (v) The effect of a transmembrane voltage on the regulatory site was reversible and occurred within the time resolution (5 ms) of the quench-flow technique used in the measurements.(ABSTRACT TRUNCATED AT 250 WORDS)