Block of calcium-activated potassium channels in mammalian arterial myocytes by tetraethylammonium ions.

The effects of tetraethylammonium ions (TEA+) and tetrapentylammonium ions (TPeA+) on Ca2(+) -activated K+ (KCa) channels were studied in membrane patches from mesenteric arterial myocytes. External TEA+ produced a flickery block. The concentration dependence for reduction in mean unitary current was consistent with 1:1 binding, with dissociation constants (Kd) in rat and rabbit of 196 and 159 microM at 0 mV, and the block was weakly voltage dependent. Rate constants for blocking and unblocking were 380 mM-1.ms-1 and 73 ms-1, respectively. In patches containing several channels TEA+ reduced average current to the same extent as mean unitary current, implying that TEA+ block is independent of the channel state. Block was unaffected by raising external K+ to 120 mM. External TPeA+ blocked with slower kinetics and lower affinity than TEA+ (Kd, 1.49 mM). The sulfonylurea glibenclamide (10-100 microM), the hyperpolarizing vasodilator cromakalim (5 microM), and internal ATP (1 mM) were without effect on channel activity. We conclude that TEA+ is a relatively effective blocker of single KCa channels of arterial smooth muscle and should block macroscopic currents equally well, whereas external TPeA+ is about eight times less effective.