Ridaifen-F conjugated with cell-penetrating peptides inhibits intracellular proteasome activities and induces drug-resistant cell death

Ridaifen-F (RID-F) potently inhibits proteolytic activities of the 20S Proteasome but poorly inhibits those of the 26S Proteasome. Here, we report preparation of several conjugates in which various Peptides are connected to RID-F. Conjugates with Peptides consisting of seven amino acid residues significantly inhibited the 26S Proteasome. Particularly, RID-F conjugated to an octaarginine peptide (R₈, a so-called cell-penetrating peptide) inhibited intracellular Proteasome activities and induced cell death in drug-resistant KMS-11 myeloma cells. RID-F conjugated to hydrophobic Peptides also inhibited the 26S Proteasome but failed to induce cell death, suggesting poor penetration into cells. We infer that the R₈ peptide has dual functions: (1) rapid penetration of conjugates into the cell increases intracellular drug concentrations sufficient for exhibition of its effect, and (2) recognition of the conjugates by the 26S Proteasome stimulates drug entry into the catalytic chamber. In the presence of ATPγS, RID-F conjugates containing R₈ inhibited the 26S Proteasome more potently than in the presence of ATP, suggesting efficient entry of drugs into the catalytic chamber in a similar fashion to the substrate. Taken together with docking simulations of RID-F conjugate interactions with Proteasome active sites, the second function of R₈ peptide is plausible. Thus, the conjugation of nonpeptidic Proteasome inhibitors to a cell-penetrating peptide could represent a viable strategy for overcoming the drug-resistance of tumor cells.

Cell-penetrating peptide; Docking study; Proteasome inhibitor; Tamoxifen derivative.