Cell-penetrating peptides, such as arginine-rich peptides, encapsulate nucleic acid drugs and deliver them to intracellular compartments. Comprehensive tracking of drug delivery systems (DDSs) provides information about the behavior of the drug as well as the fate of the drug carrier after drug release, which is crucial for minimizing side effects. In this study, we labeled peptides designed to carry plasmid DNA with two types of dyes, traditional dye fluorescein and aggregation-induced emission (AIE) dye tetraphenylethylene, and subsequently tracked the DDS through the complementary ON and OFF fluorescence behaviors of the dyes. Traditional fluorescent dyes are susceptible to aggregation-caused quenching during bioimaging, a problem that is mitigated by using AIE dyes. However, by using both of these contrasting fluorescent labels, we were able to clearly visualize the DDS at different stages of its deployment, from drug transport and delivery to carrier dissociation and migration, demonstrating the feasibility of accurate DDS visualization by complementary fluorescence labeling.
Keywords: aggregation-induced emission; cell-penetrating peptide; drug delivery system; fluorescein; plasmid DNA delivery.