N-terminal insertion of alamethicin in channel formation studied using its covalent dimer N-terminally linked by disulfide bond.

Alamethicin is supposed to form helix-bundle-type channels by inserting the N terminus into bilayer lipid membranes under sufficient voltages. The N-terminal insertion has been studied with an alamethicin dimer (di-alm) N-terminally linked by a disulfide bond and by the asymmetric addition of dithiothreitol (DTT) and tetrathionate (TT) to the membrane. When di-alm was added to the cis-side membrane, it forms long-lasting channels with the lifetime tau of about 100 ms at cis-positive voltages. The lifetime was reduced to a few milliseconds by addition of DTT to the cis-side membrane, indicating that most of the channels were formed by the monomers (alm-SH) that resulted from the cleavage of the disulfide bond in di-alm. The succeeding addition of TT to the trans-side produced channels of tau=10-20 ms besides the channels of alm-SH. The results suggested that TT reacted with the N-terminal thiol group of alm-SH located at the trans-side of the membrane to alter the lifetime. The N-terminal insertion of alamethicin helices by voltage activation, therefore, was confirmed.