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Redox-Responsive Disulfide Cyclic Peptides: A New Strategy for siRNA Delivery

Dindyal Mandal, Eman H. M. Mohammed, Sandeep Lohan, Parvin Mandipoor, Darius Baradaran, Rakesh Kumar Tiwari, Keykavous Parang, Hamidreza Montazeri Aliabadi

2022Molecular Pharmaceutics16 citationsDOI

Abstract

RNA interference (RNAi) is a powerful tool capable of targeting virtually any protein without time-consuming and expensive drug development studies. However, due to obstacles facing efficient and safe delivery, RNAi-based therapeutic approach remains a challenge. Herein, we have designed and synthesized a number of disulfide-constraining cyclic and hybrid peptides using tryptophan and arginine residues. Our hypothesis was that peptide structures would undergo reduction by intracellular glutathione (more abundant in cancer cells) and unpack the small interfering RNA (siRNA) from the peptide/siRNA complexes. A subset of newly developed peptides (specifically, C4 and H4) exhibited effective cellular internalization of siRNA (∼70% of the cell population; monitored by flow cytometry and confocal microscopy), the capability of protecting siRNA against early degradation by nucleases (monitored by gel electrophoresis), minimal cytotoxicity in selected cell lines (studied by cell viability and LC50 calculations), and efficient protein silencing by 70–75% reduction in the expression of targeting signal transducer and activator of transcription 3 (STAT3) in human triple-negative breast cancer (TNBC) MDA-MB-231 cells, analyzed using the Western blot technique. Our results indicate the birth of a promising new family of siRNA delivery systems that are capable of safe and efficient delivery, even in the presence of nucleases.

Topics & Concepts

RNA interferenceSmall interfering RNAInternalizationGene silencingCell biologyChemistryIntracellularCytotoxicityFlow cytometryPopulationMolecular biologyCellBiologyBiochemistryRNAMedicineIn vitroGeneEnvironmental healthRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniquesMicroRNA in disease regulation