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Stapled Wasp Venom-Derived Oncolytic Peptides with Side Chains Induce Rapid Membrane Lysis and Prolonged Immune Responses in Melanoma

Ye Wu, Lu Dong, Yixin Jiang, Jinmei Jin, Sanhong Liu, Lili Chen, Hong Zhang, Yudong Zhou, Hongzhuan Chen, Dale G. Nagle, Xin Luan, Weidong Zhang

2021Journal of Medicinal Chemistry49 citationsDOI

Abstract

Peptide stapling chemistry represents an attractive strategy to promote the clinical translation of protein epitope mimetics, but its use has not been applied to natural cytotoxic peptides (NCPs) to produce new oncolytic peptides. Based on a wasp venom peptide, a series of stapled anoplin peptides (StAnos) were prepared. The optimized stapled Ano-3/3s were shown to be protease-resistant and exerted superior tumor cell-selective cytotoxicity by rapid membrane disruption. In addition, Ano-3/3s induced tumor ablation in mice through the direct oncolytic effect and subsequent stimulation of immunogenic cell death. This synergistic oncolytic-immunotherapy effect is more remarkable on melanoma than on triple-negative breast cancer in vivo. The efficacies exerted by Ano-3/3s on melanoma were further characterized by CD8+ T cell infiltration, and the addition of anti-CD8 antibodies diminished the long-term antitumor effects. In summary, these results support stapled peptide chemistry as an advantageous method to enhance the NCP potency for oncolytic therapy.

Topics & Concepts

Oncolytic virusChemistryCytotoxicityCytotoxic T cellImmunotherapyPeptideCancer immunotherapyEpitopeMelanomaIn vivoVenomCancer researchImmune systemPharmacologyAntibodyImmunologyBiochemistryIn vitroBiologyBiotechnologyAntimicrobial Peptides and ActivitiesBiochemical and Structural Characterizationvaccines and immunoinformatics approaches