Abstract
ABSTRACTIn contrast to predictions from the current model of basal ganglia (BG) function, we report here that increasing inhibition from the BG to the superior colliculus (SC) through the substantia nigra (nigra) using in vivo optogenetic activation of GABAergic terminals in mice, produces contralateral orienting movements. Orienting movements resulting from activation of inhibitory nigral terminals are unexpected because decreases and not increases, in nigral activity are generally associated with orienting movements. To determine how orienting movements may result from activation of inhibitory terminals, we performed a series of slice experiments and found that the same optogenetic stimulation of nigral terminals used in vivo, evoked post-inhibitory rebound depolarization and spiking in SC output neurons in vitro. Only high frequency (100Hz) stimulation evoked contralateral movements in vivo and triggered rebound spiking in vitro. The latency of orienting movements relative to the stimulation in vivo was similar to the latency of rebound spiking in vitro. Taken together, our results point toward a novel hypothesis that inhibition from the BG may play an active rather than passive role in the generation of orienting movements in mice.
Publisher
Cold Spring Harbor Laboratory
Cited by
3 articles.
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