Effective cell penetration of negatively‐charged proline‐rich SAP(E) peptides with cysteine mutation

Abstract

AbstractMost of cell penetrating peptides (CPPs) are rich in positively‐charged amino acids but the cationic property may provoke possible problems in practical applications. In this study, we carefully substituted the hydrophobic amino acids in the SAP(E) sequence, a rare example of negatively‐charged proline‐rich CPP, with cysteine for enhancement of cell penetrating activity as well as reversible conjugation of cargo molecules. Most substituents showed almost negligible cell penetrating activity, but a cysteine substituent on the 7th valine (SAP(E)‐7C) showed more improved cell penetrating activity than SAP(E). When treated to cells, the negatively‐charged SAP(E)‐7C exhibited much lower degree of co‐localization with acidic endosomes or lysosomes compared to positively‐charged TAT. SAP(E)‐7C could significantly enhance the PTX efficacy on MDA‐MB‐231 cells by non‐covalent complexation with PTX. As a proof‐of‐concept for covalent conjugation of cargo drugs, mercaptoethanol, a model drug, was conjugated to the cysteine residue of SAP(E)‐7C via a disulfide bond, and the glutathione‐dependent release from the conjugate was confirmed. The negatively‐charged SAP(E)‐7C with a cysteine handle can be a useful molecular module for the development of CPP‐based drug delivery carrier.