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The effects of chloride dynamics on substantia nigra pars reticulata responses to pallidal and striatal inputs

Ryan S. Phillips, Ian Rosner, Aryn H. Gittis, Jonathan E. Rubin

2020eLife29 citationsDOIOpen Access PDF

Abstract

As a rodent basal ganglia (BG) output nucleus, the substantia nigra pars reticulata (SNr) is well positioned to impact behavior. SNr neurons receive GABAergic inputs from the striatum (direct pathway) and globus pallidus (GPe, indirect pathway). Dominant theories of action selection rely on these pathways' inhibitory actions. Yet, experimental results on SNr responses to these inputs are limited and include excitatory effects. Our study combines experimental and computational work to characterize, explain, and make predictions about these pathways. We observe diverse SNr responses to stimulation of SNr-projecting striatal and GPe neurons, including biphasic and excitatory effects, which our modeling shows can be explained by intracellular chloride processing. Our work predicts that ongoing GPe activity could tune the SNr operating mode, including its responses in decision-making scenarios, and GPe output may modulate synchrony and low-frequency oscillations of SNr neurons, which we confirm using optogenetic stimulation of GPe terminals within the SNr.

Topics & Concepts

Globus pallidusNeuroscienceIndirect pathway of movementBasal gangliaExcitatory postsynaptic potentialSubstantia nigraStriatumOptogeneticsDirect pathway of movementMedium spiny neuronInhibitory postsynaptic potentialGABAergicStimulationBiologyDopamineDopaminergicCentral nervous systemNeuroscience and Neuropharmacology ResearchNeural dynamics and brain functionPhotoreceptor and optogenetics research
The effects of chloride dynamics on substantia nigra pars reticulata responses to pallidal and striatal inputs | Litcius