Conclusion
The well-designed multifunctional nano-missiles may emerge as a new paradigm to suppress the malignant proliferation and metastasis of TNBC, offering a promising approach for the next generation cancer therapy.
Methods
Herein, accurate programmed multifunctional cascade nano-missiles (GOx+L-Arg-NM/PTX-NM) composed of novel intelligent all-in-one "nano-rocket" (the drug delivery system) and "ammunitions" (the therapeutic agents) are innovatively constructed by mimicking the functionalities of military precision-guided missiles. Ammunitions can be precisely and effectively transported to the core region of TNBC (the "battlefield") by organic modification on the surface of nano-rocket via chemical means. Once successfully internalized by TNBC cells, the nano-missiles can automatically trigger relevant cascade reactions without external stimulation, prominently disrupt the homeostasis of TME, and produce a "bomb-like" attack on tumors, further promoting the chemotherapy.
Results
Both in vitro and in vivo investigations indicated that the innovative nano-missiles could deliver ammunitions to the core area of TNBC to the utmost extent, dramatically ablate tumor and restrain tumor metastasis via orchestrated multimodal synergistic starvation/oxidation/gas/chemotherapy.