Translocation of positively charged copoly(Lys/Tyr) across phospholipid membranes

Abstract

Much attention has recently been paid to the study of positively charged polypeptides as a possible carrier for therapeutic protein or DNA delivery to cells. In this study, we have investigated the translocation of positively charged copoly(Lys/Tyr) (MW = 72000, DP = 385) across lipid membranes constituted from egg-phosphatidylcholine (EPC), dioleoyl-phosphatidylethanolamine (DOPE), as well as soybean phospholipids (SBPL) using ζ potential method, circular dichroism spectroscopy (CD), electrophysiology technique, fluorescence spectroscopy, and confocal laser scanning microscopy. Results of ζ potentials show that copoly(Lys/Tyr) associate with lipid membranes and become gradually saturated on the membranes either hydrophobically or electrostatically or both. CD studies demonstrate that the copoly(Lys/Tyr) takes and remains β-sheet conformation during its interaction with liposome membranes, indicating that the translocation process should be carpet-mode like. Data from the electrophysiology technique reveal that positively charged copoly(Lys/Tyr) can cause transmembrane currents under an applied voltage, confirming its transfer across lipid membranes. Fluorescence spectroscopy results display a three-step mechanism of translocation across membrane: adsorption, transportation, and desorption, which has been verified by results from confocal laser scanning microscopy. We provided the first direct observation that the positively charged polypeptides, copoly(Lys/Tyr), can translocate through SBPL and EPC/DOPE lipid bilayer membranes. In addition, we found that the translocation efficiency of copoly(Lys/Tyr) was higher on the EPC/DOPE lipid membrane than on the SBPL lipid membrane.