Multi-Responsive Polypeptidosome: Characterization, Morphology Transformation, and Triggered Drug Delivery

The biodegradable polymeric nanomedicines that may be integrated with multi‐stimuli‐sensitivity to achieve triggered or on‐demand drug release kinetics are challenging for polymer therapeutics and drug delivery systems. By controlling the structure transformation of one polypeptide‐b‐PEO copolymer,...

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Published in:Macromolecular rapid communications. 2014-10, Vol.35 (19), p.1673-1678
Main Authors: Liu, Gang, Zhou, Linzhu, Guan, Yanfei, Su, Yue, Dong, Chang-Ming
Format: Article
Language:English
Subjects:
Aminoacid polymers
Antibiotics, Antineoplastic - administration & dosage
Antibiotics, Antineoplastic - chemistry
Applied sciences
Doxorubicin
Doxorubicin - administration & dosage
Doxorubicin - chemistry
Drug Carriers
Drug delivery systems
Drugs
Exact sciences and technology
HeLa Cells
Humans
Morphology
nanomedicine
Nanostructure
Oxidation-Reduction
Peptides - chemistry
Physicochemistry of polymers
polymeric vesicle
polypeptide
Polypeptides
Stimuli
stimuli-responsive polymer
Synthetic biopolymers
Transformations
triggered drug release
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cited_by cdi_FETCH-LOGICAL-c5843-62af1818b93cad5cfb4b2ea2c3d07e663e07004c218e321ac3690caf1b18d76f3
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container_end_page 1678
container_issue 19
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container_title Macromolecular rapid communications.
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creator Liu, Gang
Zhou, Linzhu
Guan, Yanfei
Su, Yue
Dong, Chang-Ming
description The biodegradable polymeric nanomedicines that may be integrated with multi‐stimuli‐sensitivity to achieve triggered or on‐demand drug release kinetics are challenging for polymer therapeutics and drug delivery systems. By controlling the structure transformation of one polypeptide‐b‐PEO copolymer, a novel multi‐responsive polypeptide‐based vesicle (polypeptidosome) presents the combined sensitivity of multiple physiological and clinic‐related stimuli, and both morphology and size of the polypeptidosome are changed during the triggered process. The designer polypeptide has unique structures composed of 1) light‐responsive o‐nitrobenzyl groups, 2) oxidizable thioether linkers, 3) photo‐caged redox thiol groups on parent poly(L‐cysteine), and 4) tunable conformation, which enable the polypeptidosome to have a peculiar multi‐response. The anticancer drug doxorubicin can be released in a controlled or on–off manner. The combination stimuli of UV irradiation and H2O2 oxidation induces a large effect and a lower IC50 of 3.80 μg doxorubicin (DOX) equiv/mL compared to 5.28 μg DOX equiv/mL of individual H2O2 trigger. A novel multi‐responsive polypeptide‐based vesicle (polypeptidosome) is fabricated by controlling the structure transformation of one polypeptide block copolymer, and it presents the combined sensitivity of multiple physiological and clinic‐related stimuli. The anticancer drug doxorubicin can be released in a controlled or on–off manner, enabling the polypeptidosome useful for on‐demand nanomedicine and cancer therapy.
doi_str_mv 10.1002/marc.201400343
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ispartof Macromolecular rapid communications., 2014-10, Vol.35 (19), p.1673-1678
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source Wiley-Blackwell Read & Publish Collection
subjects Aminoacid polymers
Antibiotics, Antineoplastic - administration & dosage
Antibiotics, Antineoplastic - chemistry
Applied sciences
Doxorubicin
Doxorubicin - administration & dosage
Doxorubicin - chemistry
Drug Carriers
Drug delivery systems
Drugs
Exact sciences and technology
HeLa Cells
Humans
Morphology
nanomedicine
Nanostructure
Oxidation-Reduction
Peptides - chemistry
Physicochemistry of polymers
polymeric vesicle
polypeptide
Polypeptides
Stimuli
stimuli-responsive polymer
Synthetic biopolymers
Transformations
triggered drug release
title Multi-Responsive Polypeptidosome: Characterization, Morphology Transformation, and Triggered Drug Delivery
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