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<i>In Vivo</i> Activation of T-Cell Proliferation by Regulating Cell Surface Receptor Clustering Using a pH-Driven Interlocked DNA Nano-Spring

Kaixiang Zhang, Yanrui Ma, Danyu Wang, Jingwen Liu, Jingwen Liu, Jingyi An, Yanan Li, Chihong Ma, Yiran Pei, Zhenzhong Zhang, Junjie Liu, Junjie Liu, Jinjin Shi

2022Nano Letters41 citationsDOI

Abstract

Activation of T-cell proliferation specifically in a tumor is crucial for reducing the autoimmune side effects of antitumor immunotherapy. Herein, we developed a pH-driven interlocked DNA nano-spring (iDNS) to stimulate T-cell activation in vivo in response to the low pH value in a tumor microenvironment. The interlocked structure of iDNS provide a more rigid scaffold in comparison to double-stranded DNA for ligand assembly, which can help to control the spatial distribution of ligands with more accuracy. We have demonstrated that the pH-driven reversible reconfiguration of iDNS provides a powerful way to regulate the nanoscale distribution of T-cell receptors (CD3) on the cell surface. The relatively low pH value (pH 6.5) in a solid tumor was able to drive the springlike shrinking of iDNS and induce significant T-cell proliferation, leading to an enhanced antitumor effect, thus providing a tool for specifically inducing an immune response in a tumor for immunotherapy.

Topics & Concepts

ChemistryT cellCell growthIn vivoCell biologyLigand (biochemistry)ImmunotherapyTumor microenvironmentBiophysicsCellCancer immunotherapyImmune systemReceptorBiochemistryBiologyImmunologyBiotechnologyAdvanced biosensing and bioanalysis techniquesImmunotherapy and Immune ResponsesRNA Interference and Gene Delivery
<i>In Vivo</i> Activation of T-Cell Proliferation by Regulating Cell Surface Receptor Clustering Using a pH-Driven Interlocked DNA Nano-Spring | Litcius