In this paper, citrate-stabilized CuS nanocrystals were modified by NH2-terminated aptamer of carcinoembryonic antigen to fabricate aptamer-CuS complex via carbodiimide-activated coupling. Then, the complex was conjugated with graphene oxide (GO) to form aptamer-CuS/GO conjugates via p-p stacking interactions. Finally, glucosamine (Glu) was loaded into aptamer-CuS/GO conjugates to prepare aptamerCuS/GO/Glu composites. The composites enabled CEA-targeted and pH-sensitive Glu release. Under nearinfrared light irradiation at 980 nm, the composites had photothermal-accelerated release of Glu and chemo-photothermal synergistic therapy in vitro. Due to combined advantages from tumor biomarkertargeted, pH-sensitive, photothermal-accelerated drug release, as well as chemo-photothermal therapy, the composites could be developed towards multifunctional drug-delivery systems for highly efficient treatment against tumor cells.

• 出版日期2017-5-15
• 单位南京中医药大学; 青岛大学; 江苏省中医院