Zherui Jiang scite author profile

Zherui Jiang

3Publications

13Citation Statements Received

114Citation Statements Given

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113

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Southwest Jiaotong University

Publications

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Rational Design of a Dual-Targeting Natural Toxin-Like Bicyclic Peptide for Selective Bioenergetic Blockage in Cancer Cells

et al. 2021

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Stapled α-helical peptides emerge as one of the attractive peptidomimetics which can efficiently penetrate the cell membrane to access intracellular targets. However, the incorporation of a highly lipophilic cross-link may lead to nonspecific membrane toxicity in certain cases. Here, we report a new class of thioether-tethered bicyclic α-helical peptide to mimic the highly constrained loop-helix structure of natural toxins with the dualtargeting ability for both cell-surface receptors and intracellular targets. The thioether cross-links are introduced to replace the redox-sensitive disulfide bonds in natural toxins via a photoinduced thiol-yne reaction followed by macrolactamization. As a proof of concept, α V β 3 integrin targeting ligand was grafted into one of the macrocycles in the bicyclic scaffold, while a mitochondriatargeting proapoptotic motif was introduced into the other macrocycle stabilized by an i, i + 7 alkyl thioether cross-link to recapitulate its α-helical conformation. The obtained dual-targeting bicyclic α-helical BIRK peptides showed highly stable α-helical conformation in the presence of denaturants or under high temperature. Notably, BIRK peptides could induce selective cell death in α V β 3 integrin-positive B16F10 cells by interfering with the bioenergetic functions of mitochondria. This work provides a new avenue to design and stabilize α-helical peptides in a highly constrained bicyclic loop-helix scaffold with dual functionality.

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Stapling of short cell-penetrating peptides for enhanced tumor cell-and-tissue dual-penetration

et al. 2022

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pH-activatable lactam-stapled peptide-based nanoassemblies for enhanced chemo-photothermal therapy

et al. 2022

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Zherui Jiang

Rational Design of a Dual-Targeting Natural Toxin-Like Bicyclic Peptide for Selective Bioenergetic Blockage in Cancer Cells

Stapling of short cell-penetrating peptides for enhanced tumor cell-and-tissue dual-penetration

pH-activatable lactam-stapled peptide-based nanoassemblies for enhanced chemo-photothermal therapy

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