Entry of a cationic lytic-type peptide into the cytoplasm via endocytosis-dependent and -independent pathways in human glioma U251 cells

Cationic lytic-type peptides have been studied for clinical application in various infections and cancers. This study aimed to determine the functions of our specially designed lytic peptide. To investigate the functional mechanism at the cell membrane level, we used giant unilayer vesicles (GUVs) mimicking cell membranes. In GUVs treated with FITC-labeled lytic peptide (lytic-FITC), fluorescence increased in a time-dependent manner. However, no inner fluorescence was detected in GUVs treated with lytic peptide and calcein. Next, distribution of lytic-FITC peptide on the cell membrane and in the cytoplasm was examined in a living human glioma U251 cell line. In the immunocytochemical study, some lytic peptide stains colocalized with early endosome antigen protein 1 (EEA-1). In cells treated with lytic peptide, the immunofluorescence intensity of lytic peptide increased in a concentration and treatment time-dependent manner. Cytotoxic activity of lytic peptide decreased after pretreatment with the endocytosis inhibitors cytochalasin D, chlorpromazine and amiloride. These findings suggest that lytic peptide exerts cytotoxic activity after cellular uptake via an endocytosis pathway. In conclusion, the influx mechanism of lytic peptide was shown to include not only disintegration and pore formation at the cell membrane, but also cell entry via endocytosis dependent and independent pathways. (C) 2013 Elsevier Inc. All rights reserved.