Selective optogenetic stimulation of efferent fibers in the vagus nerve of a large mammal.

Autor: Booth, Lindsea C., Yao, Song T., Korsak, Alla, Farmer, David G.S., Hood, Sally G., McCormick, Daniel, Boesley, Quinn, Connelly, Angela A., McDougall, Stuart J., Korim, Willian S., Guild, Sarah-Jane, Mastitskaya, Svetlana, Le, Phuong, Teschemacher, Anja G., Kasparov, Sergey, Ackland, Gareth L., Malpas, Simon C., McAllen, Robin M., Allen, Andrew M., May, Clive N.
Zdroj: Brain Stimulation; Jan2021, Vol. 14 Issue 1, p88-96, 9p
Abstrakt: Electrical stimulation applied to individual organs, peripheral nerves, or specific brain regions has been used to treat a range of medical conditions. In cardiovascular disease, autonomic dysfunction contributes to the disease progression and electrical stimulation of the vagus nerve has been pursued as a treatment for the purpose of restoring the autonomic balance. However, this approach lacks selectivity in activating function- and organ-specific vagal fibers and, despite promising results of many preclinical studies, has so far failed to translate into a clinical treatment of cardiovascular disease. Here we report a successful application of optogenetics for selective stimulation of vagal efferent activity in a large animal model (sheep). Twelve weeks after viral transduction of a subset of vagal motoneurons, strong axonal membrane expression of the excitatory light-sensitive ion channel ChIEF was achieved in the efferent projections innervating thoracic organs and reaching beyond the level of the diaphragm. Blue laser or LED light (>10 mW mm−2; 1 ms pulses) applied to the cervical vagus triggered precisely timed, strong bursts of efferent activity with evoked action potentials propagating at speeds of ∼6 m s−1. These findings demonstrate that in species with a large, multi-fascicled vagus nerve, it is possible to stimulate a specific sub-population of efferent fibers using light at a site remote from the vector delivery, marking an important step towards eventual clinical use of optogenetic technology for autonomic neuromodulation. • Described is a method of selective efferent vagus nerve stimulation using light. • Vagal preganglionic neurons are targeted to express light-sensitive channels. • Specific efferent VNS by light delivery to the cervical vagus is achieved in a large animal model. • Demonstrates feasibility of using optogenetic technology for autonomic neuromodulation. [ABSTRACT FROM AUTHOR]
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