Yuan Tian scite author profile

Stapled peptides have emerged as a new class of targeting molecules with high binding affinity and specificity for intracellular undruggable targets. Their ability to penetrate cell membranes is exceptionally intriguing but remains elusively and controversially discussed. To understand the effect of stapling architectures on their physiochemical properties and to aid in promoting their cell permeability, we report herein a comparative study on the physiochemical properties and cell permeability of stapled α-helical peptides with different types of crosslinks. We highlight the decisive impact of the intrinsic properties of the crosslinks on cell permeability rather than the helical contents of the peptides in model amphipathic sequences targeting estrogen receptor-coactivator interaction. We envision this finding to shed further light on the chemical optimization of stapled α-helical peptides or macrocyclic cell-penetrating peptides for enhanced cell penetration.

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Closed-state inactivation and pore-blocker modulation mechanisms of human CaV2.2

Dong

Gao

et al. 2021

Cell Reports

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Stapling of unprotected helical peptides via photo-induced intramolecular thiol–yne hydrothiolation

Tian

Zhao

et al. 2016

Chem. Sci.

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Crosslinked Aspartic Acids as Helix‐Nucleating Templates

et al. 2016

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Described is a facile helix-nucleating template based on a tethered aspartic acid at the N-terminus [terminal aspartic acid (TD)]. The nucleating effect of the template is subtly influenced by the substituent at the end of the side-chain-end tether as indicated by circular dichroism, nuclear magnetic resonance, and molecular dynamics simulations. Unlike most nucleating strategies, the N-terminal amine is preserved, thus enabling further modification. Peptidomimetic estrogen receptor modulators (PERMs) constructed using this strategy show improved therapeutic properties. The current strategy can be regarded as a good complement to existing helix-stabilizing methods.

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Yuan Tian

Effect of Stapling Architecture on Physiochemical Properties and Cell Permeability of Stapled α‐Helical Peptides: A Comparative Study

Closed-state inactivation and pore-blocker modulation mechanisms of human CaV2.2

Stapling of unprotected helical peptides via photo-induced intramolecular thiol–yne hydrothiolation

Crosslinked Aspartic Acids as Helix‐Nucleating Templates

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