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A biomimetic nanodisc system selectively activates type I interferons by nonclassical STING pathway for cancer immunotherapy

Nature Communications. 2026-03; 
Qianwen Mu, Haolan Deng, Shuo Li, Xiaoyu An, Xuan Liu, Yue Xi, Hao Liang, Di Sun, Xiaojun Wang, Xue Liu, Gang Liu, Chao Liu
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Peptide Synthesis The extracted cell membrane fragments were mixed with 22A peptide (PVLDLFRELLNELLEALKQKLK, synthesized from GenScript) and DMPC (a short-chain lipid that plays a crucial role in stabilizing the outer edge structure, thereby contributing to the overall structural integrity of the nanodiscs, HY-109541, MCE) in a ratio of 1:5:25, respectively. 4-20% gradient SurePAGE (M00657, GenScript, Piscataway) Get A Quote
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Abstract

The epigenetic silencing or remarkably diminished expression of STING in cancer cells, along with the structural and functional impairment of the endoplasmic reticulum (ER) and Golgi apparatus, represents a unique mechanism of tumor immune escape and poses an important challenge for STING-targeted therapies. Here, we develop a cell membrane-derived nanodisc system (ND-cGAMP-HP; HP, heparin), which is capable of presenting activated STING proteins in their native form by means of cell membrane-directed display and biological self-assembly techniques. It can directly introduce activated STING protein to tumor cells and circumvent the translocation process between the ER and Golgi apparatus, selectively activating... More

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