@article {Lees-Miller367, author = {James P. Lees-Miller and Yanjun Duan and Guo Qi Teng and Henry J. Duff}, title = {Molecular Determinant of High-Affinity Dofetilide Binding toHERG1 Expressed in Xenopus Oocytes: Involvement of S6 Sites}, volume = {57}, number = {2}, pages = {367--374}, year = {2000}, publisher = {American Society for Pharmacology and Experimental Therapeutics}, abstract = {This study reports that the affinity of HERG1 A for dofetilide is decreased from 0.125 {\textpm} 0.003 μM for wild-type (WT) channels to 15 {\textpm} 3 μM for F656V, a mutation in the COOH-terminal half of the S6. Similarly, the IC50 for quinidine was increased from 8 {\textpm} 4 μM for WT to 219 {\textpm} 65 μM for the F656V mutation, whereas affinity for external tetraethylammonium was similar for WT (51 {\textpm} 10 mM) and F656V (36 {\textpm} 10 mM, NS). Kinetics of onset of inactivation of F656V was similar to WT but kinetics of deactivation, activation, and recovery from inactivation differed from WT. However, mutations in nearby amino acids in the S6 more strikingly altered deactivation, activation, and recovery from inactivation but had little effect on affinity for dofetilide. To assess the effects of disruption of inactivation, the S631A mutation was made. The S631A mutation altered the IC50 for dofetilide to 20 {\textpm} 3 μM, but the IC50 for quinidine was unchanged at 8 {\textpm} 4 μM for WT and 10 {\textpm} 1 μM for S631A. To address whether the F656V mutation alters the IC50 for dofetilide in a channel that does not inactivate, the double mutation S631A/F656V was made. The IC50 for dofetilide of the double mutation was 32 {\textpm} 3 μM, which is not substantially different than that of S631A. These data support the notion that allosteric changes occurring during the process of inactivation are necessary for high-affinity dofetilide binding. In conclusion, the Phe-656 residue of HERG is a molecular determinant of high-affinity dofetilide binding. The American Society for Pharmacology and Experimental Therapeutics}, issn = {0026-895X}, URL = {https://molpharm.aspetjournals.org/content/57/2/367}, eprint = {https://molpharm.aspetjournals.org/content/57/2/367.full.pdf}, journal = {Molecular Pharmacology} }