Functional Peptide-Modified Liposomes for siRNA Delivery to Rat Retinal Pigment Epithelium Cells: Effect of Peptide Sequences.

Abstract

Most retinal diseases involve the degeneration of choroidal retinal pigment epithelial (RPE) cells. Because of a blood-retina barrier (tight junction formation), RPE cells restrict the entry of hydrophilic macromolecules (e.g., small interfering RNA (siRNA)) through blood stream and eye drops. A cytoplasm-responsive stearylated (STR) peptide, STR-CH2R4H2C (CH2R4) enables stable siRNA complexation, cell permeation, and intracellular dynamics control. We previously demonstrated how CH2R4-modified liposomes promoted siRNA efficacy. We investigated the influence of amino acid sequences of functional peptides on cellular uptake pathways, siRNA transfection efficacy, and the permeation of peptide-modified liposomes in rat RPE-J cells. Four STR-peptides, consisting of arginine (R), cysteine (C), histidine (H), lysine (K) or serine (S), were designed based on CH2R4. We prepared siRNA-loaded, peptide-modified cationic liposomes (CH2R4-, CH2K4-, CH2S4-, SH2R4-, and SH2S4-lipoplexes). CH2R4-, CH2K4-, and SH2R4-lipoplexes induced cellular uptake by macropinocytosis by activating cytoskeletal F-actin, possibly due to cationic amino acids (arginine, lysine). SH2R4-lipoplexes were trapped in endosomes, whereas CH2R4- and CH2K4-lipoplexes enhanced endosomal siRNA release suggesting cysteine contributes to endosomal escape. Although cationic liposome-based, CH2S4- and SH2S4-lipoplexes (not including arginine and lysine) showed lower siRNA transfection efficiency. This difference may be because siRNAs were retained on both peptide moieties and cationic liposomes in CH2R4-, CH2K4- and SH2R4-lipoplexes, whereas in CH2S4- and SH2S4-lipoplexes, siRNAs were loaded to the cationic liposomes, but not on peptides. In three-dimensional spheroids, CH2R4- and CH2K4-modified liposomes promoted permeation through tight junctions. Thus, cationic amino acids and cysteine within peptide sequences of CH2R4 could be effective for siRNA delivery to the retina using functional peptide-modified liposomes.