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Invasion and Defense Interactions between Enzyme‐Active Liquid Coacervate Protocells and Living Cells

Yanwen Zhang, Songyang Liu, Yao Yu, Yufeng Chen, Shaohong Zhou, Xiaohai Yang, Kemin Wang, Jianbo Liu

2020Small38 citationsDOI

Abstract

Abstract The design and construction of mutual interaction models between artificial microsystems and living cells have the potential to open a wide range of novel applications in biomedical and biomimetic technologies. In this study, an artificial form of invasion‐defense mutual interactions is established in a community of glucose oxidase (GOx)‐containing liquid coacervate microdroplets and living cells, which interact via enzyme‐mediated reactive oxygen species (ROS) damage. The enzyme‐containing coacervate microdroplets, formed via liquid–liquid phase separation, act as invader protocells to electrostatically bind with the host HepG2 cell, resulting in assimilation. Subsequently, the glucose oxidation in the liquid coacervates initiates the generation of H 2 O 2 , which serves as an ROS resource to block cell proliferation. As a defense strategy, introduction of catalase (CAT) into the host cells is exploited to resist the ROS damage. CAT‐mediated decomposition of H 2 O 2 leads to the ROS scavenging and results in the recovery of cell viability. The results obtained in the current study highlight the remarkable opportunities for the development of mutual interacting communities on the interface of artificial protocells/living cells. They also provide a new approach for engineering cellular behaviors through exploiting artificial nonliving microsystems.

Topics & Concepts

ProtocellCoacervateArtificial cellGlucose oxidaseBiophysicsReactive oxygen speciesChemistryEnzymeNanotechnologyMembraneCell biologyBiologyBiochemistryMaterials sciencePhotoreceptor and optogenetics researchPhotosynthetic Processes and MechanismsMicro and Nano Robotics
Invasion and Defense Interactions between Enzyme‐Active Liquid Coacervate Protocells and Living Cells | Litcius