Issue 24, 2016

Microparticles formulated from a family of novel silylated polysaccharides demonstrate inherent immunostimulatory properties and tunable hydrolytic degradability

Abstract

Acid-degradable polymers are well-suited for use as drug delivery vehicles because numerous physiological sites (e.g., intracellular endocytic pathway) are acidic. Here we report the synthesis of acid-sensitive silylated polysaccharides derived from either dextran or inulin with various alkyl substitutions on the silicon center: trimethylsilyl dextran (TMS-DEX), ethyldimethylsilyl dextran (EDMS-DEX), triethylsilyl dextran (TES-DEX), and trimethylsilyl inulin (TMS-IN). The silylated dextran (Silyl-DEX) and silylated inulin (Silyl-IN) polymers were fabricated into microparticles (MPs) via emulsification followed by solvent evaporation. These MPs were relatively stable at extracellular pH 7.4 and displayed a wide range of pH 2.0 and 5.0 degradation half-lives (fifteen minutes to greater than nine days) that were dependent on the extent of silylation (40 to 98%) and steric crowding on the silicon center (trimethyl to ethyldimethyl to triethyl). Silyl-DEX and Silyl-IN MPs exhibited cytocompatibility when cultured in vitro with RAW 264.7 macrophages. TES-DEX and TMS-IN MPs, composed of highly hydrophobic moieties and the parent immunostimulatory inulin, respectively, elicited substantial in vitro production of tumor necrosis factor alpha, a cytokine associated with an innate immune response. In vivo immunization with a model ovalbumin antigen encapsulated in silylated polysaccharide MPs, without a separate adjuvant, resulted in a dual humoral and cellular response that was superior to an alum-adjuvanted formulation. Overall, we present Silyl-DEX and Silyl-IN as members of the acid-degradable polymer family for potential use in subunit vaccines and other drug delivery applications.

Graphical abstract: Microparticles formulated from a family of novel silylated polysaccharides demonstrate inherent immunostimulatory properties and tunable hydrolytic degradability

Supplementary files

Article information

Article type
Paper
Submitted
23 Mar 2016
Accepted
25 May 2016
First published
02 Jun 2016

J. Mater. Chem. B, 2016,4, 4302-4312

Microparticles formulated from a family of novel silylated polysaccharides demonstrate inherent immunostimulatory properties and tunable hydrolytic degradability

M. D. Gallovic, S. Bandyopadhyay, H. Borteh, D. G. Montjoy, M. A. Collier, K. J. Peine, B. E. Wyslouzil, E. M. Bachelder and K. M. Ainslie, J. Mater. Chem. B, 2016, 4, 4302 DOI: 10.1039/C6TB00745G

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