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Optical control of neuronal activities with photoswitchable nanovesicles
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作者 Hejian Xiong Kevin AAlberto +8 位作者 Jonghae Youn Jaume Taura johannes morstein Xiuying Li Yang Wang Dirk Trauner Paul A.Slesinger Steven O.Nielsen Zhenpeng Qin 《Nano Research》 SCIE EI CSCD 2023年第1期1033-1041,共9页
Precise modulation of neuronal activity by neuroactive molecules is essential for understanding brain circuits and behavior.However,tools for highly controllable molecular release are lacking.Here,we developed a photo... Precise modulation of neuronal activity by neuroactive molecules is essential for understanding brain circuits and behavior.However,tools for highly controllable molecular release are lacking.Here,we developed a photoswitchable nanovesicle with azobenzene-containing phosphatidylcholine(azo-PC),coined‘azosome’,for neuromodulation.Irradiation with 365 nm light triggers the trans-to-cis isomerization of azo-PC,resulting in a disordered lipid bilayer with decreased thickness and cargo release.Irradiation with 455 nm light induces reverse isomerization and switches the release off.Real-time fluorescence imaging shows controllable and repeatable cargo release within seconds(<3 s).Importantly,we demonstrate that SKF-81297,a dopamine D1-receptor agonist,can be repeatedly released from the azosome to activate cultures of primary striatal neurons.Azosome shows promise for precise optical control over the molecular release and can be a valuable tool for molecular neuroscience studies. 展开更多
关键词 AZOBENZENE PHOTOSWITCH LIPOSOME controlled release NEUROMODULATION
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