Self-assembled peptide nanoparticles with endosome escaping permits for co-drug delivery.

The diagnosis and treatment of major diseases, especially tumors, was the key to improving the cure rate and survival rate of patients. Therefore, one of the main goals of modern medicine was to develop effective, non-toxic treatments. This paper successfully established dipeptide nanoparticles/clofarabine/aptamer AS1411/influenza hemagglutinin peptide/siRNA/doxorubicin (DNPs/Clolar/AS1411/HA/RNA/DOX) multi-functional nanoparticles for specific delivery, cancer treatment and bioimaging. It was an ideal choice for multi-drug synergy treatment. First, non-toxic DNPs formed by self-assembly of dipeptides with safe and biocompatible effect. Second, from the perspective of the multi-functional nanoparticles for nano-drug tumors imaging monitoring, AS1411 and HA were used as cell permits for enhancing the specificity of cell drug delivery ability and improving the endosomal escape, respectively. Third, the multi-functional nanoparticles with Clolar, siRNA and DOX, three drug synergistic treatments were used to improve the therapeutic effect of tumors. Both cell experiments and vivo experiments demonstrated that the synergistic treatment of the multi-drugs was superior to the effect of single-drug therapy. Thus, the proposed multi-functional nanoparticles have initiated new ideas for these hybrid anticancer drugs based on peptide self-assembled nanocarriers and its widely applications in biomedicine.