Increasing Chemotherapeutic Efficacy Using pH Modulating and Doxorubicin Releasing Injectable Chitosan-Polyethylene Glycol Hydrogels

Abstract

AbstractModulation of pH is crucial to maintaining the chemical homeostasis of biological environments. The irregular metabolic pathways exhibited by cancer cells result in the production of acidic byproducts that are excreted and accumulate in the extracellular tumor microenvironment, reducing its pH. As a consequence of the lower pH in tumors, cancer cells increase the expression of metastatic phenotypes and chemotherapeutic resistance. A significant limitation in current cancer therapies is the inability to locally deliver the chemotherapy, leading to significant damage to healthy cells in systemic administration. To overcome these challenges, we present an injectable chitosan-polyethylene glycol hydrogel that is dual-loaded with doxorubicin and sodium bicarbonate providing alkaline buffering of extracellular acidity and simultaneous chemotherapeutic delivery to increase chemotherapeutic efficacy. We conducted in vitro studies of weak base chemotherapeutic and alkaline buffer release from the hydrogel. The release of doxorubicin from hydrogels increased in a low pH environment and was dependent on the encapsulated sodium bicarbonate concentration. We investigated the influence of pH on doxorubicin efficacy and viability of MCF-7 and MDA-MB-231 breast cancer cell lines. The results show a 2 to 3 fold increase in IC50values from neutral pH to low pH, showing decreased cancer cell viability at neutral pH as compared to acidic pH. The IC50results were shown to correlate with a decrease in intracellular uptake of doxorubicin at low pH. The proposed hydrogels were confirmed to be non-toxic to healthy MCF-10A mammary epithelial cells. Rheological studies were performed to verify that the dual loaded hydrogels were injectable. The mechanical and release properties of the hydrogels were maintained after extended storage. The chemotherapeutic activity of doxorubicin was evaluated in the presence of the proposed pH regulating hydrogels. The findings suggest a promising non-toxic, biodegradable hydrogel buffer delivery system that can achieve two simultaneous important goals of local acidosis neutralization and chemotherapeutic release.