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Redox-Mediated Reversible Supramolecular Assemblies Driven by Switch and Interplay of Peptide Secondary Structures

Qingxin Yao, Guangqi Wu, Hao Hao, Hua Lu, Yuan Gao

2021Biomacromolecules18 citationsDOI

Abstract

The construction of reversible supramolecular self-assembly in vivo remains a significant challenge. Here, we demonstrate the redox-triggered reversible supramolecular self-assembly governed by the “check and balance” of two secondary conformations within a brushlike peptide–selenopolypeptide conjugate. The conjugate constitutes a polypeptide backbone whose side chain contains selenoether functional moieties and double bonds to be readily grafted with β-sheet-prone short-peptide NapFFC. The backbone of the conjugate initially assumes a robust and rigid α-helical conformation, which inhibits the supramolecular assembly of the short peptide in the side chain and yields an overall irregular aggregate morphology under native/reduced conditions. Upon oxidation of the selenoether to more hydrophilic selenoxide, the backbone helix switches to a flexible and disordered conformation, which unleashes the side-chain NapFFC self-assembly into nanofibrils via the adoption of β-sheet conformation. The reversible switch of the supramolecular morphology enables efficient loading and tumor-microenvironment-triggered release of anticancer drugs for in vivo cancer treatment with satisfactory efficacy and biocompatibility. The interplay and interaction between two well-defined secondary structures within one scaffold offer tremendous opportunity for the design and construction of functional supramolecular biomaterials.

Topics & Concepts

Supramolecular chemistryConjugatePeptideChemistrySelf-assemblySupramolecular assemblySide chainBiophysicsCombinatorial chemistryStereochemistryCrystallographyBiochemistryPolymerOrganic chemistryBiologyCrystal structureMathematicsMathematical analysisSupramolecular Self-Assembly in MaterialsSupramolecular Chemistry and ComplexesPolydiacetylene-based materials and applications
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