Differential sensitivity of amphibian nodal and paranodal K+ channels to 4-aminopyridine and TEA

Abstract

Voltage-dependent K⁺ channels are blocked by several drugs, including 4-aminopyridine (4-AP) and tetraethylammonium (TEA). 4-AP is most widely used to localize K⁺ channels in mammalian and non-mammalian nerve fibers, but 4-AP and TEA alter various K⁺ channels and/or preparations in specific ways. The reason is not known, in part because dissociation constants for 4-AP and TEA have not been measured for nodal and internodal K⁺ channels in the same fibers. Smith and Schauf showed that the density of nodal versus paranodal K⁺ channels in frog nerves depends on fiber diameter. This size dependence was used to determine the relative sensitivity of nodal and internodal K⁺ channels to 4-AP and TEA, and to compare voltage- and time-dependent activation. The results show nodal and internodal K⁺ channels activate similarly. However, internodal channels are selectivity blocked by 4-AP while TEA is more effective on nodal channels. A high sensitivity of internodal K⁺ channels may explain why 4-AP improves symptoms in diseases such as multiple sclerosis.