纳米传感器
钾
化学
钠
电压门控钾通道
生物物理学
细胞外
纳米技术
材料科学
生物化学
生物
有机化学
作者
Jianan Liu,Fangyuan Li,Yi Wang,Limin Pan,Peihua Lin,Bo Zhang,Yanrong Zheng,Yingwei Xu,Hongwei Liao,Giho Ko,Fan Fei,Cenglin Xu,Yang Du,Kwangsoo Shin,Dokyoon Kim,Sung-Soo Jang,Hee Jung Chung,He Tian,Qi Wang,Wei Guo
标识
DOI:10.1038/s41565-020-0634-4
摘要
Extracellular potassium concentration affects the membrane potential of neurons, and, thus, neuronal activity. Indeed, alterations of potassium levels can be related to neurological disorders, such as epilepsy and Alzheimer's disease, and, therefore, selectively detecting extracellular potassium would allow the monitoring of disease. However, currently available optical reporters are not capable of detecting small changes in potassium, in particular, in freely moving animals. Furthermore, they are susceptible to interference from sodium ions. Here, we report a highly sensitive and specific potassium nanosensor that can monitor potassium changes in the brain of freely moving mice undergoing epileptic seizures. An optical potassium indicator is embedded in mesoporous silica nanoparticles, which are shielded by an ultrathin layer of a potassium-permeable membrane, which prevents diffusion of other cations and allows the specific capturing of potassium ions. The shielded nanosensor enables the spatial mapping of potassium ion release in the hippocampus of freely moving mice.
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