Multi-stimuli-responsive chiral-achiral ampholytic block copolymers composed of poly(N-acryloyl amino acid) and poly(vinyl amine)

In this work, novel chiral-achiral ampholytic block copolymers comprising poly(N-acryloyl amino acid) and poly(vinyl amine), poly(VAm), were synthesized by the reversible addition-fragmentation chain transfer (RAFT) polymerization of N-acryloyl-L-glutamic acid (A-Glu-OH), which has two carboxylic ac...

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Published in:Reactive & functional polymers 2020-05, Vol.150, p.104540, Article 104540
Main Authors: Koseki, Toshiki, Kanto, Ryosuke, Yonenuma, Ryo, Nakabayashi, Kazuhiro, Furusawa, Hiroyuki, Yano, Shigekazu, Mori, Hideharu
Format: Article
Language:English
Subjects:
Addition polymerization
Alanine
Amino acid
Ampholytic block copolymer
Block copolymers
Carboxylic acids
Cations
Chain transfer
Chemical synthesis
Copolymers
DNA polyplex
Glutamic acid
Micelles
Polyelectrolytes
Polymerization
RAFT polymerization
Self-assembly
Stimuli
Stimuli-responsive polymer
Studies
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Summary:In this work, novel chiral-achiral ampholytic block copolymers comprising poly(N-acryloyl amino acid) and poly(vinyl amine), poly(VAm), were synthesized by the reversible addition-fragmentation chain transfer (RAFT) polymerization of N-acryloyl-L-glutamic acid (A-Glu-OH), which has two carboxylic acid moieties. The precursor of the cationic poly(VAm) segment, poly(NVPI), was prepared by the RAFT polymerization of N-vinylphthalimide (NVPI), which was employed as the macro-chain transfer agent (CTA). RAFT polymerization of A-Glu-OH in the presence of the dithiocarbamate-terminated poly(NVPI) macro-CTA and subsequent deprotection afforded ampholytic block copolymers with positive poly(VAm) and negative poly(A-Glu-OH) segments. For comparison, an ampholytic block copolymer with an amino acid-based polyelectrolyte having one carboxylic acid moiety in the monomer unit was prepared by the RAFT polymerization of N-acryloyl-L-alanine (A-Ala-OH). The resulting ampholytic block copolymers formed self-assembled micelles with electrostatically complexed cores and anionic shells, which were affected by pH values and salt and urea concentrations. In these micelles, interpolyelectrolyte complexes between the cationic poly(VAm) and anionic amino acid-based segment, corresponding to the core and chiral segment [poly(A-Glu-OH) or poly(A-Ala-OH)], respectively, contribute towards the manipulation of the multi-stimuli-responsive properties and functions of the shell. Selective interactions of DNA with the cationic poly(VAm) segment in the block copolymer were further investigated. [Display omitted] •This work presents the controlled synthesis of ampholytic block copolymers consisting of an anionic amino acid and cationic poly(vinyl amine).•The amphoteric block copolymers formed self-assembled micelles with electrostatically complexed cores and anionic shells.•Assembled structures and chiroptical properties can be tuned by the amino acid component, comonomer composition, and environmental change.•The cationic segment in the ampholytic block copolymer showed electrostatic interaction with DNA to form the polyplexes.
ISSN:1381-5148
1873-166X
DOI:10.1016/j.reactfunctpolym.2020.104540