Synthesis and Aggregation Behavior of Temperature- and PH-Responsive Glycopolymers As Sugar-Displaying Conjugates

Overview

Journal Polymers (Basel)

Publisher MDPI

Date 2020 Apr 25

PMID 32326017

Citations 2

Authors

Sotaro Tsuji

Tomohiro Aoki

Shunsuke Ushio

Tomonari Tanaka

Affiliations

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Abstract

Stimuli-responsive polymers have attracted significant interest in the fields of advanced materials and biomaterials. Herein, temperature- and pH-responsive glycopolymers, which are composed of -isopropylacrylamide, methacrylic acid, and an acrylamide derivative bearing a lactose moiety, were synthesized via radical copolymerization. The series of resulting glycopolymers had different degrees of substitution of the lactose moieties, were responsive to temperatures between 26.6 °C and 47.6 °C, and formed aggregates above the lower critical solution temperature limit in mild acidic aqueous media (pH 4-6). The temperature-responsive behavior was dependent on the prevailing pH conditions, as no aggregation was observed in neutral and basic aqueous media (pH > 7). The aggregates had saccharide moieties on the surface in aqueous media. The number of saccharide moieties on the surface depended on the saccharide-containing unit ratio in the glycopolymer. The ratio was determined via enzymatic hydrolysis of the lactose moieties using β-galactosidase and the subsequent detection of the released galactose.

Citing Articles

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