期刊
NATURE COMMUNICATIONS
卷 13, 期 1, 页码 -出版社
NATURE PORTFOLIO
DOI: 10.1038/s41467-022-28539-7
关键词
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资金
- National Natural Science Foundation of China (NSFC) [61874064, 62005016]
- Beijing Municipal Natural Science Foundation [4202032]
- Tsinghua University Initiative Scientific Research Program
- Beijing National Research Center for Information Science and Technology [BNR2019ZS01005]
In this study, a wireless, dual-color optogenetic probe with the co-expression of two spectrally distinct opsins was used to achieve bidirectional neuronal activity manipulation in a rodent model. The probe showed colocalized red and blue emissions and enabled chronic in vivo operations. It could interfere with dopaminergic neurons, resulting in different behaviors and social interactions among mice.
Optogenetic methods provide efficient cell-specific modulations, and the ability of simultaneous neural activation and inhibition in the same brain region of freely moving animals is highly desirable. Here we report bidirectional neuronal activity manipulation accomplished by a wireless, dual-color optogenetic probe in synergy with the co-expression of two spectrally distinct opsins (ChrimsonR and stGtACR2) in a rodent model. The flexible probe comprises vertically assembled, thin-film microscale light-emitting diodes with a lateral dimension of 125 x 180 mu m(2), showing colocalized red and blue emissions and enabling chronic in vivo operations with desirable biocompatibilities. Red or blue irradiations deterministically evoke or silence neurons co-expressing the two opsins. The probe interferes with dopaminergic neurons in the ventral tegmental area of mice, increasing or decreasing dopamine levels. Such bidirectional regulations further generate rewarding and aversive behaviors and interrogate social interactions among multiple mice. These technologies create numerous opportunities and implications for brain research. Simultaneous neural activation and inhibition in the same brain region of animals is highly desirable. Here the authors report a wireless, dual-colour optogenetic probe with the co-expression of two spectrally distinct opsins to allow for bidirectional neuronal activity manipulation in a rodent model.
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