A sequence in the carboxy‐terminus of the α1C subunit important for targeting, conductance and open probability of L‐type Ca2+ channels

Abstract

The role of the 80-amino acid motif 1572-1651 in the C-terminal tail of alpha(1C) Ca(2+) channel subunits was studied by comparing properties of the conventional alpha(1C,77) channel expressed in HEK-tsA201 cells to three isoforms carrying alterations in this motif. Replacement of amino acids 1572-1651 in alpha(1C,77) with 81 non-identical residues leading to alpha(1C,86) impaired membrane targeting and cluster formation of the channel. Similar to alpha(1C, 86), substitution of its 1572-1598 (alpha(1C,77L)) or 1595-1652 (alpha(1C,77K)) segments into the alpha(1C,77) channel yielded single-channel Ba(2+) currents with increased inactivation, reduced open probability and unitary conductance, when compared to the alpha(1C,77) channel. Thus, the C-terminal sequence 1572-1651 of the alpha(1C) subunit is important for membrane targeting, permeation and open probability of L-type Ca(2+) channels.