Neuron
Volume 77, Issue 2, 23 January 2013, Pages 346-360
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Article
New Modules Are Added to Vibrissal Premotor Circuitry with the Emergence of Exploratory Whisking

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Summary

Rodents begin to use bilaterally coordinated, rhythmic sweeping of their vibrissae (“whisking”) for environmental exploration around 2 weeks after birth. Whether (and how) the vibrissal control circuitry changes after birth is unknown, and the relevant premotor circuitry remains poorly characterized. Using a modified rabies virus transsynaptic tracing strategy, we labeled neurons synapsing directly onto vibrissa facial motor neurons (vFMNs). Sources of potential excitatory, inhibitory, and modulatory vFMN premotor neurons, and differences between the premotor circuitry for vFMNs innervating intrinsic versus extrinsic vibrissal muscles were systematically characterized. The emergence of whisking is accompanied by the addition of new sets of bilateral excitatory inputs to vFMNs from neurons in the lateral paragigantocellularis (LPGi). Furthermore, descending axons from the motor cortex directly innervate LPGi premotor neurons. Thus, neural modules that are well suited to facilitate the bilateral coordination and cortical control of whisking are added to the premotor circuitry in parallel with the emergence of this exploratory behavior.

Highlights

► Transsynaptic tracing unveils the premotor circuitry for vibrissal motor neurons ► Neurotransmitter phenotypes of vibrissal premotor inputs are identified ► New premotor modules are added to the circuitry with the emergence of whisking ► New premotor modules likely coordinate bilateral whisking and relay cortical command

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