Extracellular H+ modulates acetylcholine-activated nonselective cation channels in guinea pig ileum.

The effects of external H+ on the acetylcholine-induced inward current (nonselective cationic current; InsACh) in guinea pig ileal smooth muscle were investigated using the conventional whole cell patch-clamp technique. When the external pH (pHo) was lowered, the amplitude of InsACh was increased, with no significant change in the reversal potential or no detectable induction of other ionic permeabilities. The dose-response curve for this effect was best described by a Hill-type equation with an apparent pKa value of 7.4 and a Hill coefficient of approximately 1. The effect of pHo was associated with a shift of the steady-state activation curve for InsACh; the half-maximum activation potential became more negative on lowering pHo. Similar results were obtained when InsACh was activated by intracellularly applied guanosine 5'-O-(3-thiotriphosphate). These results indicate that the external H+ activity is an efficient regulator of InsACh channel, and this may have a physiological importance for controlling the muscarinic receptor-mediated contractions in this muscle.