Litcius/Paper detail

Cyclic peptide scaffold with ability to stabilize and deliver a helical cell-impermeable cargo across membranes of cultured cancer cells

Nicole Lawrence, Grégoire J.-B. Philippe, Peta J. Harvey, Nicholas D. Condon, Aurélie H. Benfield, Olivier Cheneval, David J. Craik, Sónia Troeira Henriques

2020RSC Chemical Biology26 citationsDOIOpen Access PDF

Abstract

a selective membrane-active mechanism. We hypothesized that cPF4PD and PF4-derived peptide analogues would enter cancer cells and have utility as scaffolds for delivering a peptide dual inhibitor (pDI) sequence with ability to inhibit p53:MDM2/X interactions and reactivate the p53 pathway. Here we designed and produced PF4 peptide and PF4 peptide-pDI grafted analogues with low micromolar activity toward melanoma and leukemia. Two grafted analogues achieved a stable helical structure and inhibited interaction with MDM2 and MDMX. These peptides reached the cytoplasm of cells but were unable to reactivate the p53 pathway. Instead, the cytotoxic mechanism was attributed to peptide binding to mitochondrial membranes that perturbed function within two hours of treatment. These studies of PF4-derived CPPs suggest their potential as scaffolds for delivering cell-impermeable cargoes into the cytoplasm of cells and highlight the importance of characterizing the internalization and cell death mechanism of designer peptide-based drugs.

Topics & Concepts

MembraneScaffoldPeptideCancer cellBiophysicsCell biologyCellCell membraneChemistryCancerBiochemistryBiologyEngineeringBiomedical engineeringGeneticsChemical Synthesis and AnalysisSupramolecular Self-Assembly in MaterialsRNA Interference and Gene Delivery