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. 2025 Jul 28.
doi: 10.1038/s41551-025-01461-1. Online ahead of print.

Efficient and sustained optogenetic control of sensory and cardiac systems

Alexey Alekseev #  1   2   3   4   5 Victoria Hunniford #  1   3   4   5 Maria Zerche #  1   2   3   4   6 Marcus Jeschke #  1   4   7 Fadhel El May #  1   3   5 Anna Vavakou #  1   3   4   5 Dominique Siegenthaler #  3   4   8   9   10 Marc A Hüser  6   11 Svenja M Kiehn  11 Aida Garrido-Charles  1   2   3   4 Alexander Meyer  6 Adrian Rambousky  1   4   7   12 Theocharis Alvanos  1   5 Isabel Witzke  1   2 Keila Dara Rojas-Garcia  10 Martin D Draband  11 Lukas Cyganek  3   13   14   15 Eric Klein  16 Patrick Ruther  16   17 Antoine Huet  1   3   5   18   19 Stuart Trenholm  10 Emilie Macé  3   4   8   9 Kathrin Kusch  1   4   5   12 Tobias Bruegmann  3   4   11   14 Bettina J Wolf  20   21   22   23 Thomas Mager  24   25   26   27 Tobias Moser  28   29   30   31   32
Affiliations

Efficient and sustained optogenetic control of sensory and cardiac systems

Alexey Alekseev et al. Nat Biomed Eng. .

Abstract

Optogenetic control is used to manipulate the activity of specific cell types in vivo for a variety of biological and clinical applications. Here we report ChReef, an improved variant of the channelrhodopsin ChRmine. ChReef offers minimal photocurrent desensitization, a unitary conductance of 80 fS and closing kinetics of 30 ms, which together enable reliable optogenetic control of cells at low light levels with good temporal fidelity and sustained stimulation. We demonstrate efficient and reliable red-light pacing and depolarization block of ChReef-expressing cardiomyocyte clusters. We used adeno-associated-virus-based gene transfer to express ChReef in retinal ganglion cells, where it restores visual function in blind mice with light sources as weak as an iPad screen. Toward optogenetic hearing restoration, ChReef enables stimulation of the auditory pathway in rodents and non-human primates with nanojoule thresholds, enabling efficient and frequency-specific stimulation by LED-based optical cochlear implants.

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Conflict of interest statement

Competing interests: T. Moser is co-founder of the OptoGenTech Company. T. Moser, M.Z. and T. Mager are authors on a pending patent application related to this work, filed by Universitaetsmedizin Goettingen and OptoGenTech (EPA-22155173). The remaining authors declare no competing interests.

References

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