Heterogeneous multi-compartmental hydrogel particles as synthetic cells for incompatible tandem reactions (Nature Communications 22 Sep, 2017)
BIGHEART PI Chia Hung Chen and team have developed an intelligent system that fabricates cell inspired hydrogel particles, similar to that of natural cells, with a view to creating new, drug-free disease therapeutics.
Heterogeneous multi-compartmental hydrogel particles as synthetic cells for incompatible tandem reactions
Hongliang Tan, Song Guo, Ngoc-Duy Dinh, Rongcong Luo, Lin Jin & Chia-Hung Chen
In nature, individual cells contain multiple isolated compartments in which cascade enzymatic reactions occur to form essential biological products with high efficiency. Here, we report a cell-inspired design of functional hydrogel particles with multiple compartments, in which different enzymes are spatially immobilized in distinct domains that enable engineered, onepot, tandem reactions. The dense packing of different compartments in the hydrogel particle enables effective transportation of reactants to ensure that the products are generated with high efficiency. To demonstrate the advantages of micro-environmental modifications, we employ the copolymerization of acrylic acid, which leads to the formation of heterogeneous multi-compartmental hydrogel particles with different pH microenvironments. Upon the positional assembly of glucose oxidase and magnetic nanoparticles, these hydrogel particles are able to process a glucose-triggered, incompatible, multistep tandem reaction in one pot. Furthermore, based on the high cytotoxicity of hydroxyl radicals, a glucose-powered therapeutic strategy to kill cancer cells was approached.
Read the Nature Communications Article HERE.