Litcius/Paper detail

Supramolecular nanovesicles for synergistic glucose starvation and hypoxia-activated gene therapy of cancer

Ludan Yue, Tianlei Sun, Kuikun Yang, Qian Cheng, Junyan Li, Yue Pan, Shu Wang, Ruibing Wang

2021Nanoscale25 citationsDOI

Abstract

Glucose starvation has emerged as a therapeutic strategy to inhibit tumor growth by regulating glucose metabolism. However, the rapid proliferation of cancer cells could induce the hypoxic tumor microenvironment (TME) which limits the therapeutic efficacy of glucose starvation by vascular isomerization. Herein, we developed a "dual-lock" supramolecular nanomedicine system for synergistic cancer therapy by integrating glucose oxidase (GOx) induced starvation and hypoxia-activated gene therapy. The host-guest interactions (that mediate nano-assembly formation) and hypoxia-activatable promoters act as two locks to keep glucose oxidase (GOx) and a therapeutic plasmid (RTP801::p53) inside supramolecular gold nanovesicles (Au NVs). Upon initial dissociation of the host-guest interactions and hence Au NVs by cancer-specific reactive oxygen species (ROS), GOx is released to consume glucose and oxygen, generate H2O2 and induce the hypoxic TME, which act as the two keys for triggering burst payload release and promoter activation, thus allowing synergistic starvation and gene therapy of cancer. This "dual-lock" supramolecular nanomedicine exhibited integrated therapeutic effects in vitro and in vivo for tumor suppression.

Topics & Concepts

Glucose oxidaseHypoxia (environmental)StarvationGenetic enhancementSupramolecular chemistryCancer therapyPlasmidCancer researchCancerGeneChemistryBiologyMedicineBiochemistryOxygenBiosensorInternal medicineCrystallographyCrystal structureOrganic chemistryNanoplatforms for cancer theranosticsAdvanced Nanomaterials in CatalysisAdvanced biosensing and bioanalysis techniques