[Activation of ATP-sensitive K+ channels by ADP and K+ channel openers: homology model of sulfonylurea receptor carboxyl-termini]

Abstract

The ATP-sensitive K+ channels (KATP) are composed of Kir6.0 subunits and sulfonylurea receptors (SUR1, 2A and 2B). SUR2A and SUR2B are splice variants and differ only in the C-terminal 42 amino acid residue (C42). SURs are supposed to be the subunit that determines the different response of KATPs to intracellular nucleotides, K+ channel openers and inhibitors. In this study, we report that C42 of SURs plays critical roles in differential activation of various KATPs by ADP and K+ channel openers such as diazoxide and nicorandil. KATPs containing distinct SURs and Kir6.2 were reconstructed on HEK293T cells. Much higher concentrations of ADP were necessary to activate channels which SUR1 or SUR2B. In all KATPs containing different SUR, diazoxide increased the potency of ADP for channel activity without affecting its efficacy. From the electrophysiological data obtained from C-terminal chimeras and point mutants in the second nucleotide binding domain (NBDs), we developed the homology model of each SUR-NBD2 based on the crystallgraphically determined structure of HisP, a member of the ABC protein superfamily. In this model, C42 is located just beneath the Walker A motif of NBD2 and regulates the binding of nucleotide to NBD2 by affecting the 3-D construct of NBD2. This homology model well explains the different response of KATPs to ADP. Based on this model, it will be possible to develop new ligands for KATPs.