Issue 12, 2018

Co-assembly of sugar-based amphiphilic block polymers to achieve nanoparticles with tunable morphology, size, surface charge, and acid-responsive behavior

Abstract

The development of next-generation smart nanocarriers that can be tailored for specific applications requires precise control over physiochemical properties, yet modulation of nanostructures solely through synthetic routes is a time-consuming and labor-intensive process. In this work, co-assembly of two degradable glucose-based amphiphilic block polymers is demonstrated as a means to control nanoparticle size, surface charge, and stimuli-responsive properties, allowing optimization of these constructs for cytosolic drug delivery applications. Polymeric particles with varying weight fractions of carboxylate- and histamine-modified poly(DL-lactide)-b-poly(D-glucose carbonate)s (PDLLA-b-PDGC) were obtained with diameters ranging from ca. 30 nm to 3 μm and zeta potential values ranging from ca. −35 mV to −1.6 mV in nanopure water. Histamine moieties imparted pH-responsive behavior due to protonation below pH 7, whereas the carboxylates imparted colloidal stability and anionic character. Blending the acid- and histamine-functionalized polymers produced co-assemblies with different pH-dependent surface charge profiles. In particular, co-assemblies with 60 wt% histamine-modified PDLLA-b-PDGC (fhistamine = 0.6) swelled upon acidification from physiological pH (7.4) to endolysosomal pH (5.5), which is anticipated to enable drug release within endolysosomal compartments. The accessible procedures presented here for engineering highly tunable nanoparticles from glucose-based, functional, degradable polymers offer versatile strategies for accelerating the development and clinical implementation of such stimuli-responsive, tailored nanocarriers.

Graphical abstract: Co-assembly of sugar-based amphiphilic block polymers to achieve nanoparticles with tunable morphology, size, surface charge, and acid-responsive behavior

Supplementary files

Article information

Article type
Research Article
Submitted
18 Jul 2018
Accepted
05 Oct 2018
First published
11 Oct 2018

Mater. Chem. Front., 2018,2, 2230-2238

Author version available

Co-assembly of sugar-based amphiphilic block polymers to achieve nanoparticles with tunable morphology, size, surface charge, and acid-responsive behavior

Y. Lin, L. Su, J. Smolen, R. Li, Y. Song, H. Wang, M. Dong and K. L. Wooley, Mater. Chem. Front., 2018, 2, 2230 DOI: 10.1039/C8QM00353J

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