Abstract
The auxiliary beta subunits of large-conductance Ca(2+)-activated K(+) (BK) channels greatly contribute to the diversity of BK (mSlo1 alpha) channels, which is fundamental to the adequate function in many tissues. Here we describe a functional element of the extracellular segment of hbeta2 auxiliary subunits that acts as the positively charged rings to modify the BK channel conductance. Four consecutive lysines of the hbeta2 extracellular loop, which reside sufficiently close to the extracellular entryway of the pore, constitute three positively charged rings. These rings can decrease the extracellular K(+) concentration and prevent the Charybdotoxin (ChTX) from approaching the extracellular entrance of channels through electrostatic mechanism, leading to the reduction of K(+) inflow or the outward rectification of BK channels. Our results demonstrate that the lysine rings formed by the hbeta2 auxiliary subunits influences the inward current of BK channels, providing a mechanism by which current can be rapidly diminished during cellular repolarization. Furthermore, this study will be helpful to understand the functional diversity of BK channels contributed by different auxiliary beta subunits.