Polymeric modification of gemcitabine via cyclic acetal linkage for enhanced anticancer potency with negligible side effects.

Gemcitabine (GEM) is a powerful anticancer drug for various cancers. However, the anticancer efficacy and the side effects should be addressed for effective therapeutics. To this end, we created a GEM-conjugated polymer (P-GEM) based on cyclic acetal linkage as a delivery carrier of GEM. The obtained P-GEM stably conjugated GEM at physiological pH (i.e., bloodstream), but released GEM in response to acidic environments such as endosome/lysosome. After systemic administration of P-GEM for mice bearing subcutaneous tumors, it achieved prolonged blood circulation and enhanced tumor accumulation relative to free GEM system. In addition, the polymer-drug conjugate structure of P-GEM realized effective distribution in the tumor tissues toward the induction of apoptosis in most areas of the tumor sites. Of note, the molecular design of P-GEM achieved minimal accumulation in normal tissues, resulting in negligible GEM-derived adverse effects (e.g., gastrointestinal toxicity and hematotoxicity). Ultimately, even four times smaller dose of P-GEM on a GEM basis realized comparable/higher tumor growth suppression effect for two distinct pancreatic tumor models, compared to free GEM system. The obtained results suggest the huge potential of the present design of GEM-conjugated polymer for anticancer therapeutics.