Optogenetic rewiring of thalamocortical circuits to restore function in the stroke injured brain
Date
2017
Authors
Tennant, Kelly A.
Taylor, Stephanie L.
White, Emily R.
Brown, Craig E.
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Publisher
Nature Communications
Abstract
To regain sensorimotor functions after stroke, surviving neural circuits must reorganize and form new connections. Although the thalamus is critical for processing and relaying sensory information to the cortex, little is known about how stroke affects the structure and function of these connections, or whether a therapeutic approach targeting these circuits can improve recovery. Here we reveal with in vivo calcium imaging that stroke in somatosensory cortex dampens the excitability of surviving thalamocortical circuits. Given this deficit, we hypothesized that chronic transcranial window optogenetic stimulation of thalamocortical axons could facilitate recovery. Using two-photon imaging, we show that optogenetic stimulation promotes the formation of new and stable thalamocortical synaptic boutons, without impacting axon branch dynamics. Stimulation also enhances the recovery of somatosensory cortical circuit function and forepaw sensorimotor abilities. These results demonstrate that an optogenetic approach can rewire thalamocortical circuits and restore function in the damaged brain.
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Citation
Tennant, K.A.; Taylor, S.L.; White, E.R.; & Brown, C.E. (2017). Optogenetic rewiring of thalamocortical circuits to restore function in the stroke injured brain. Nature Communications, 8(15879). https://doi.org/10.1038/ncomms15879