A pharmacological master key mechanism that unlocks the selectivity filter gate in K channels.

Potassium (K) channels have been evolutionarily tuned for activation by diverse biological stimuli, and pharmacological activation is thought to target these specific gating mechanisms. Here we report a class of negatively charged activators (NCAs) that bypass the specific mechanisms but act as master keys to open K channels gated at their selectivity filter (SF), including many two-pore domain K (K) channels, voltage-gated hERG (human ether-à-go-go-related gene) channels and calcium (Ca)-activated big-conductance potassium (BK)-type channels. Functional analysis, x-ray crystallography, and molecular dynamics simulations revealed that the NCAs bind to similar sites below the SF, increase pore and SF K occupancy, and open the filter gate.