A Supramolecular Nanomedicine Based on Bendamustine and MDM2-Targeted D-peptide Inhibitor for Breast Cancer Therapy.

Abstract

Bendamustine (BEN) is a FDA-approved bifunctional DNA-alkylating chemotherapy drug, but it suffers from short half-life, instability, and poor biocompatibility in the clinical application. Due to unique biostability of d-amino acid-containing peptides (D-peptides), constructing D-peptide-small molecule drug conjugates is emerging as a promising strategy for cancer therapy. Here, a high-affinity MDM2-targeted D-peptide (peptide 5) is discovered by applying structure-based drug design (SBDD). Taking the advantages of d-amino acids, a novel self-assembling D-peptide-small molecule drug conjugate (BEN-FF-peptide 5) is developed by simultaneously conjugating small molecule drug BEN and peptide 5 to the self-assembling peptide. In vitro results demonstrate that BEN-FF-peptide 5 exhibits superior cellular uptake ability, good biostability in human serum and strong inhibitory effect on the growth of human breast cancer (MCF-7) cells. In vivo study reveals that BEN-FF-peptide 5 significantly inhibits the growth of MCF-7 cells-derived xenograft in nude mice with no obvious side effects. This work provides a useful strategy to construct D-peptide-small molecule drug conjugates for high-efficacy and low-toxicity cancer therapy.