Oxidized hydroxypropyl cellulose/carboxymethyl chitosan hydrogels permit pH-responsive, targeted drug release

Polysaccharide-based Schiff base hydrogels have promise for drug delivery, tissue engineering, and many other applications due to their reversible imine bond crosslinks. We describe herein pH-responsive, injectable, and self-healing hydrogels prepared by reacting oxidized hydroxypropyl cellulose (Ox-HPC) with carboxymethyl chitosan (CMCS). Simple combination of ketones from Ox-HPC side chains with amines from CMCS in water provides a dynamic, hydrophilic polysaccharide network. The reversible nature of these imine bonds in the presence of water provides a hydrogel with injectable and self-healing properties. Phenylalanine as a model amine-containing drug was linked by imine bonds to Ox-HPC within the hydrogel. Phenylalanine release was faster at the pH of the extracellular space around tumors (6.8) than in normal tissues (7.4), a surprising degree of pH sensitivity. Therefore, Ox-HPC/CMCS hydrogels show promise as drug carriers that may selectively target even slightly lower pH environments like the extracellular milieu around cancer cells.