Cell-penetrating peptide (CPP)-based approaches are excellent method for delivering cell-impermeable compounds/therapeutics such as proteins, antibodies, antisense oligonucleotides, siRNAs, plasmids, and drugs, as covalently or noncovalently conjugated cargo into cells. Nowadays, it is generally accepted that cellular internalization of these CPP-cargoes or CPP-nanoparticles occur via endocytosis-dependent mechanisms or by direct cell translocation.Here, we describe a subset of biophysical and biological methods which can be used to dissect the internalization mechanism of CPPs. Presented protocols and results were shown for the recently developed siRNA-loaded WRAP-based nanoparticles. The rapid and efficient cell delivery of WRAP encapsulated siRNA could be attributed to the main direct cellular translocation of the nanoparticles even if, to some extent, endocytosis-dependent internalization occurred.Deciphering the internalization mechanism is still an important requirement to understand and to optimize the action mode of CPPs or CPP-based nanoparticles as transfection reagents.
Keywords: Direct translocation; Endocytosis; Internalization mechanism; Peptide-based nanoparticle; siRNA.
© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.