Self-Assembly-Directed Cancer Cell Membrane Insertion of Synthetic Analogues for Permeability Alteration

Enming Du; Xunwu Hu; Guanying Li; Shijin Zhang; Dingze Mang; Sona Roy; Toshio Sasaki; Ye Zhang

doi:10.1021/acs.langmuir.8b02107

Self-Assembly-Directed Cancer Cell Membrane Insertion of Synthetic Analogues for Permeability Alteration

Enming Du
, Xunwu Hu
, Guanying Li
, Shijin Zhang
, Dingze Mang
, Sona Roy
, Toshio Sasaki
, Ye Zhang

Okinawa Institute of Science and Technology Graduate University

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Inspired by the metamorphosis of pore-forming toxins from soluble inactive monomers to cytolytic transmembrane assemblies, we developed self-assembly-directed membrane insertion of synthetic analogues for permeability alteration. An expanded π-conjugation-based molecular precursor with an extremely high rigidity and a long hydrophobic length that is comparable to the hydrophobic width of plasma membrane was synthesized for membrane-inserted self-assembly. Guided by the cancer biomarker expression in vitro, the soluble precursors transform into hydrophobic monomers forming assemblies inserted into the fluid phase of the membrane exclusively. Membrane insertion of rigid synthetic analogues destroys the selective permeability of the plasma membrane gradually. It eventually leads to cancer cell death, including drug resistant cancer cells.

Original language	English
Pages (from-to)	7376-7382
Number of pages	7
Journal	Langmuir
Volume	35
Issue number	23
DOIs	https://doi.org/10.1021/acs.langmuir.8b02107
State	Published - 11 Jun 2019
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1021/acs.langmuir.8b02107

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abstract = "Inspired by the metamorphosis of pore-forming toxins from soluble inactive monomers to cytolytic transmembrane assemblies, we developed self-assembly-directed membrane insertion of synthetic analogues for permeability alteration. An expanded π-conjugation-based molecular precursor with an extremely high rigidity and a long hydrophobic length that is comparable to the hydrophobic width of plasma membrane was synthesized for membrane-inserted self-assembly. Guided by the cancer biomarker expression in vitro, the soluble precursors transform into hydrophobic monomers forming assemblies inserted into the fluid phase of the membrane exclusively. Membrane insertion of rigid synthetic analogues destroys the selective permeability of the plasma membrane gradually. It eventually leads to cancer cell death, including drug resistant cancer cells.",

author = "Enming Du and Xunwu Hu and Guanying Li and Shijin Zhang and Dingze Mang and Sona Roy and Toshio Sasaki and Ye Zhang",

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AU - Du, Enming

AU - Hu, Xunwu

AU - Li, Guanying

AU - Zhang, Shijin

AU - Mang, Dingze

AU - Roy, Sona

AU - Sasaki, Toshio

AU - Zhang, Ye

PY - 2019/6/11

Y1 - 2019/6/11

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AB - Inspired by the metamorphosis of pore-forming toxins from soluble inactive monomers to cytolytic transmembrane assemblies, we developed self-assembly-directed membrane insertion of synthetic analogues for permeability alteration. An expanded π-conjugation-based molecular precursor with an extremely high rigidity and a long hydrophobic length that is comparable to the hydrophobic width of plasma membrane was synthesized for membrane-inserted self-assembly. Guided by the cancer biomarker expression in vitro, the soluble precursors transform into hydrophobic monomers forming assemblies inserted into the fluid phase of the membrane exclusively. Membrane insertion of rigid synthetic analogues destroys the selective permeability of the plasma membrane gradually. It eventually leads to cancer cell death, including drug resistant cancer cells.

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JO - Langmuir

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IS - 23

ER -

Self-Assembly-Directed Cancer Cell Membrane Insertion of Synthetic Analogues for Permeability Alteration

Abstract

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