摘要
Adoptive cell therapy(ACT)is an emerging powerful cancer immunotherapy,which includes a complex process of genetic modification,stimulation and expansion.During these in vitro or ex vivo manipulation,sensitive cells are inescapability subjected to harmful external stimuli.Although a variety of cytoprotection strategies have been developed,their application on ACT remains challenging.Herein,a DNA network is constructed on cell surface by rolling circle amplification(RCA),and T cell-targeted trivalent tetrahedral DNA nanostructure is used as a rigid scaffold to achieve high-efficient and selective coating for T cells.The cytoprotective DNA network on T-cell surface makes them aggregate over time to form cell clusters,which exhibit more resistance to external stimuli and enhanced activities in human peripheral blood mononuclear cells and liver cancer organoid killing model.Overall,this work provides a novel strategy for in vitro T cell-selective protection,which has a great potential for application in ACT.
基金
supported by the National Natural Science Foundation of China,China(82072087,31670880 and 31970893)
Guangdong Natural Science Fund for Distinguished Young Scholars,China(2017A030306016 and 2016A030306004)
Fundamental Research Funds for the Central Universities,China(19ykzd39)
