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Dual Targeting of Cancer Cells and MMPs with Self-Assembly Hybrid Nanoparticles for Combination Therapy in Combating Cancer

Kai Zhang, Jingjing Li, Xiaofei Xin, Xiaoqing Du, Di Zhao, Chao Qin, Xiaopeng Han, Meirong Huo, Lei Yang, Lifang Yin

2021Pharmaceutics18 citationsDOIOpen Access PDF

Abstract

The co-delivery of chemotherapeutic agents and immune modulators to their targets remains to be a great challenge for nanocarriers. Here, we developed a hybrid thermosensitive nanoparticle (TMNP) which could co-deliver paclitaxel-loaded transferrin (PTX@TF) and marimastat-loaded thermosensitive liposomes (MMST/LTSLs) for the dual targeting of cancer cells and the microenvironment. TMNPs could rapidly release the two payloads triggered by the hyperthermia treatment at the site of tumor. The released PTX@TF entered cancer cells via transferrin-receptor-mediated endocytosis and inhibited the survival of tumor cells. MMST was intelligently employed as an immunomodulator to improve immunotherapy by inhibiting matrix metalloproteinases to reduce chemokine degradation and recruit T cells. The TMNPs promoted the tumor infiltration of CD3+ T cells by 2-fold, including memory/effector CD8+ T cells (4.2-fold) and CD4+ (1.7-fold), but not regulatory T cells. Our in vivo anti-tumor experiment suggested that TMNPs possessed the highest tumor growth inhibitory rate (80.86%) compared with the control group. We demonstrated that the nanoplatform could effectively inhibit the growth of tumors and enhance T cell recruitment through the co-delivery of paclitaxel and marimastat, which could be a promising strategy for the combination of chemotherapy and immunotherapy for cancer treatment.

Topics & Concepts

NanocarriersCancer researchCancer cellTumor microenvironmentImmunotherapyPaclitaxelEndocytosisCancerImmune systemCancer immunotherapyMatrix metalloproteinasePharmacologyMedicineImmunologyReceptorInternal medicineDrugImmunotherapy and Immune ResponsesNanoplatforms for cancer theranosticsImmune cells in cancer