Litcius/Paper detail

Manipulation of the Nanoscale Presentation of Integrin Ligand Produces Cancer Cells with Enhanced Stemness and Robust Tumorigenicity

Siu Hong Dexter Wong, Xiao Xu, Xi Chen, Ying Xin, Limei Xu, Nathanael Chun‐Him Lai, Jiwon Oh, Wai‐Ki Wong, Xuemei Wang, Shisong Han, Wenxing You, Xintao Shuai, Nathalie Wong, Youhua Tan, Li Duan, Liming Bian

2021Nano Letters31 citationsDOIOpen Access PDF

Abstract

will help investigate the mechanism underlying tumorigenesis and cancer recurrence. Herein, we report a dynamic culture substrate tethered with integrin ligand-bearing magnetic nanoparticles via a flexible polymeric linker to enable magnetic manipulation of the nanoscale ligand tether mobility. The cancer cells cultured on the substrate with high ligand tether mobility develop into large semispherical colonies with CSCs features, which can be abrogated by magnetically restricting the ligand tether mobility. Mechanistically, the substrate with high ligand tether mobility suppresses integrin-mediated mechanotransduction and histone-related methylation, thereby enhancing cancer cell stemness. The culture-derived high-stemness cells can generate tumors both locally and at the distant lung and uterus much more efficiently than the low-stemness cells. We believe that this magnetic nanoplatform provides a promising strategy for investigating the dynamic interaction between CSCs and the microenvironment and establishing a cost-effective tumor spheroid model.

Topics & Concepts

Ligand (biochemistry)Cancer stem cellCancer cellCell biologyCarcinogenesisIntegrinChemistryCancerTumor microenvironmentCancer researchStem cellBiophysicsNanotechnologyMaterials scienceCellBiologyTumor cellsReceptorBiochemistryGeneticsCancer Cells and Metastasis3D Printing in Biomedical ResearchCellular Mechanics and Interactions