Aminated yeast β-D-glucan for macrophage-targeted delivery of CpG oligodeoxynucleotides and synergistically enhanced cancer immunotherapy

CpG oligodeoxynucleotides (CpG ODNs) activate immune system and show strong potential in cancer immunotherapy. However, therapeutic efficacy of CpG ODNs is hampered due to rapid nuclease degradation and insufficient cellular uptake. Delivery of CpG ODNs into antigen presenting cells (APCs) is vital to enhance their therapeutic efficacy. Herein, we developed a super-convenient yet efficient strategy for macrophage-targeted delivery of CpG ODNs and synergistically enhanced cancer immunotherapy. Aminated yeast β-D-glucan (NH2-Glu) was simply synthesized through functionalization of β-D-glucan with DETA, which exhibited a dendrimer-like shape with size of about 80 nm. NH2-Glu complexed negatively-charged CpG ODNs. The as-prepared NH2-Glu/CpG complexes were positively charged, uniformly dispersed and exhibited good stability against nuclease degradation. Due to the specific recognition with dectin-1 expressed on macrophages, NH2-Glu/CpG complexes targeted macrophage and exhibited significantly enhanced cellular uptake due to dectin-1-mediated endocytosis. NH2-Glu/CpG complexes showed potent immunostimulatory activity. Contributed by the inherent immunostimulatory and antitumor activity, yeast β-D-glucan functioned synergistically with CpG ODNs in inducing antitumor immunity. NH2-Glu/CpG complexes remarkably inhibited tumor growth without causing toxic effect. In summary, this work provides a facile yet efficient macrophage-targeted CpG ODNs delivery system for cancer immunotherapy.