RRC ID 83842
Author Xu L, Zhu B, Zhu Z, Tao X, Zhang T, El Manira A, Song J.
Title Separate brainstem circuits for fast steering and slow exploratory turns.
Journal Nat Commun
Abstract Locomotion requires precise tuning of descending commands to scale turning movements, such as rapid steering during prey pursuit or shallow turns during exploration. We show that these two turn types are governed by distinct brainstem circuits. The rapid steering circuit involves excitatory V2a and inhibitory commissural V0d neurons, distributed across different brainstem nuclei. These neurons are coupled via gap junctions and activated simultaneously, ensuring rapid steering through asymmetrical activation of spinal motor neurons. The recruitment of this circuit correlates more with the degree of direction change than with locomotor frequency. Steering neurons are, in turn, controlled by a subset of V2a neurons in the pretectum, activated by salient visual input. In contrast, slow exploratory turns are governed by a separate set of V2a neurons confined to fewer brainstem nuclei. These findings reveal a modular organization of brainstem circuits that selectively control rapid steering and slow exploratory turning during locomotion.
Volume 16(1)
Pages 3207
Published 2025-4-3
DOI 10.1038/s41467-025-58621-9
PII 10.1038/s41467-025-58621-9
PMID 40180933
PMC PMC11968878
MeSH Animals Brain Stem* / cytology Brain Stem* / physiology Gap Junctions / physiology Locomotion* / physiology Male Mice Motor Neurons / physiology Neurons / physiology
IF 12.121
Resource
Zebrafish Tg(chx10:GFP)nns1 Tol-056 Tg(chx10:Gal4)