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Transformable Dual‐Inhibition System Effectively Suppresses Renal Cancer Metastasis through Blocking Endothelial Cells and Cancer Stem Cells

Lu Wang, Lu Wang, Yulin Lv, Cong Li, Guang Yang, Bo Fu, Qiang Peng, Lingrui Jian, Da‐Yong Hou, Jiaqi Wang, Changhao Zhao, Pei‐Pei Yang, Kuo Zhang, Lei Wang, Lei Wang, Ziqi Wang, Hao Wang, Wanhai Xu

2020Small42 citationsDOI

Abstract

Tumor vasculature and cancer stem cells (CSCs) accelerate the development of metastatic renal cancer. Dual inhibition of vascular endothelium and CSCs is still a challenge due to their different pathological features. Herein, a transformable dual-inhibition system (TDS) based on a self-assembly peptide is proposed to construct nanofibrous barriers on the cell membrane in situ, which contributes to 1) reducing endothelial permeability and angiogenesis; and 2) inhibiting stemness and metastasis of CSCs in renal cancer. TDS specifically targets overexpressed receptor CD105 that provides the possibility to modulate both endothelial cells and CSCs for cancer therapy. Subsequently, owing to ligand-receptor interaction-induced transformation, the nanofibers form a barrier on the cell membrane. For vascular endothelium, TDS reduces the vascular permeability to 67.0% ± 4.7% and decreases angiogenesis to 62.0% ± 4.0%, thereby preventing the renal cancer metastasis. For human-derived CSCs, TDS inhibits stemness by reducing endogenic miR-19b and its transportation via CSCs-derived exosomes, which increases PTEN expression and consequently suppresses CSCs-mediated metastasis. In patient-derived xenograft mice, TDS significantly inhibits the tumorigenesis and angiogenesis. It also reduces the metastatic nodules in lung 5.0-fold compared with the control group. TDS opens up a promising avenue for suppressing the metastasis of cancer.

Topics & Concepts

Cancer cellCancer stem cellBlocking (statistics)MetastasisCancer researchCancer metastasisCancerStem cellDual (grammatical number)Cell biologyChemistryBiologyMedicineInternal medicineComputer scienceComputer networkArtLiteratureEpigenetics and DNA MethylationHistone Deacetylase Inhibitors ResearchCancer, Hypoxia, and Metabolism