BACKGROUND AND PURPOSE: Helix stapling enhances the activity of peptides that interact with a target protein in a helical conformation. These staples are also supposed to change the pharmacokinetics of the molecules and promote cytoplasmic targeting. We assessed the extent to which the pharmacokinetic characteristics are a function of the staple for a peptide inhibiting the interaction of p53 with the human double minute 2 (Hdm2) protein and differ from those of the standard cationic cell-penetrating peptide nona-arginine. EXPERIMENTAL APPROACH: Stapled peptides and linear counterparts were synthesized in free and fluorescently labelled forms. Activity was determined in biochemical time-resolved Förster resonance energy transfer experiments and cellular high-content assays. Cellular uptake and intracellular trafficking were visualized by confocal microscopy. KEY RESULTS: Peptides showed sub-nanomolar potency. For short-time incubation, uptake efficiencies for the stapled and linear peptides were similar and both were taken up less efficiently than nona-arginine. Only for SJSA-1 cells expressing the Hdm2 target protein, the stapled peptides showed an enhanced cytoplasmic and nuclear accumulation after long-term incubation. This was also observed for the linear counterparts, albeit to a lesser degree. For HeLa cells, which lack target expression, no such accumulation was observed. CONCLUSION AND IMPLICATIONS: Cytosolic and nuclear accumulation was not an intrinsic property of the stapled peptide, but resulted from capture by the target Hdm2 after endo-lysosomal release. Considering the rather poor uptake of stapled peptides, further development should focus on increasing the efficiency of uptake of these peptides.
BACKGROUND AND PURPOSE: Helix stapling enhances the activity of peptides that interact with a target protein in a helical conformation. These staples are also supposed to change the pharmacokinetics of the molecules and promote cytoplasmic targeting. We assessed the extent to which the pharmacokinetic characteristics are a function of the staple for a peptide inhibiting the interaction of p53 with the human double minute 2 (Hdm2) protein and differ from those of the standard cationic cell-penetrating peptide nona-arginine. EXPERIMENTAL APPROACH: Stapled peptides and linear counterparts were synthesized in free and fluorescently labelled forms. Activity was determined in biochemical time-resolved Förster resonance energy transfer experiments and cellular high-content assays. Cellular uptake and intracellular trafficking were visualized by confocal microscopy. KEY RESULTS: Peptides showed sub-nanomolar potency. For short-time incubation, uptake efficiencies for the stapled and linear peptides were similar and both were taken up less efficiently than nona-arginine. Only for SJSA-1 cells expressing the Hdm2 target protein, the stapled peptides showed an enhanced cytoplasmic and nuclear accumulation after long-term incubation. This was also observed for the linear counterparts, albeit to a lesser degree. For HeLa cells, which lack target expression, no such accumulation was observed. CONCLUSION AND IMPLICATIONS: Cytosolic and nuclear accumulation was not an intrinsic property of the stapled peptide, but resulted from capture by the target Hdm2 after endo-lysosomal release. Considering the rather poor uptake of stapled peptides, further development should focus on increasing the efficiency of uptake of these peptides.
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