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A Disynaptic Circuit in the Globus Pallidus Controls Locomotion Inhibition.

Current biology : CB (2020-12-12)
Asier Aristieta, Massimo Barresi, Shiva Azizpour Lindi, Grégory Barrière, Gilles Courtand, Brice de la Crompe, Lise Guilhemsang, Sophie Gauthier, Stéphanie Fioramonti, Jérôme Baufreton, Nicolas P Mallet
RESUMEN

The basal ganglia (BG) inhibit movements through two independent circuits: the striatal neuron-indirect and the subthalamic nucleus-hyperdirect pathways. These pathways exert opposite effects onto external globus pallidus (GPe) neurons, whose functional importance as a relay has changed drastically with the discovery of two distinct cell types, namely the prototypic and the arkypallidal neurons. However, little is known about the synaptic connectivity scheme of different GPe neurons toward both motor-suppressing pathways, as well as how opposite changes in GPe neuronal activity relate to locomotion inhibition. Here, we optogenetically dissect the input organizations of prototypic and arkypallidal neurons and further define the circuit mechanism and behavioral outcome associated with activation of the indirect or hyperdirect pathways. This work reveals that arkypallidal neurons are part of a novel disynaptic feedback loop differentially recruited by the indirect or hyperdirect pathways and that broadcasts inhibitory control onto locomotion only when arkypallidal neurons increase their activity.

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D-(+)-Glucosa, ≥99.5% (GC)
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Triton X-100, laboratory grade
Roche
Anti-GFP, from mouse IgG1κ (clones 7.1 and 13.1)
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Triton X-100, BioXtra
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Biocitina, ≥98% (TLC)
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Urethane, ≥99%