Combined chemotherapy based on bioactive black phosphorus for pancreatic cancer therapy

Pancreatic cancer is the most aggressive malignant tumor with difficulty in early diagnosis, very short survival time in advanced stage, and lack of effective treatment options. In this work, a novel combination chemotherapy strategy based on bioactive black phosphorus (BP) and gemcitabine (GEM) is developed for efficient treatment of pancreatic cancer. The combined cell cycle blockage in G2/M phase induced by BP and G0/G1 phase by GEM results in synergistic killing of pancreatic cancer cells with the combination index (CI) < 1. The iRGD modified zein nanoparticles co-loaded with BP quantum dots (BPQDs) and GEM are designed and prepared as a targeted nanoplatform (BP-GEM@NPs). After intravenous injection, the in vivo distribution and pharmacokinetics results demonstrate that BP-GEM@NPs shows excellent tumor targeting capability and significantly prolonged blood circulation time. The targeted co-delivery of BPQDs and GEM induces much more pancreatic tumor cell apoptosis and synergistically inhibits tumor growth in both subcutaneous xenograft and orthotopic models. Meanwhile, BP-GEM@NPs exhibit good biocompatibility without bring adverse effects. This work indicates the great potential of BP-GEM@NPs as a combination chemotherapy for pancreatic cancer and provides insights into development of biomedicine by exploring the intrinsic bioactivities of nanomaterials.