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Roles of centromedian parafascicular nuclei of thalamus and cholinergic interneurons in the dorsal striatum in associative learning of environmental events

The thalamus provides a massive input to the striatum, but despite accumulating evidence, the functions of this system remain unclear. It is known, however, that the centromedian (CM) and parafascicular (Pf) nuclei of the thalamus can strongly influence particular striatal neuron subtypes, notably i...

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Published in:Journal of Neural Transmission 2018-03, Vol.125 (3), p.501-513
Main Authors: Yamanaka, Ko, Hori, Yukiko, Minamimoto, Takafumi, Yamada, Hiroshi, Matsumoto, Naoyuki, Enomoto, Kazuki, Aosaki, Toshihiko, Graybiel, Ann M., Kimura, Minoru
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cited_by cdi_FETCH-LOGICAL-c508t-f38b425d01e6dc33f61ead14d5037b1ee9bd6073e1abe6797d55dab2ef27d9863
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container_title Journal of Neural Transmission
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creator Yamanaka, Ko
Hori, Yukiko
Minamimoto, Takafumi
Yamada, Hiroshi
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Kimura, Minoru
description The thalamus provides a massive input to the striatum, but despite accumulating evidence, the functions of this system remain unclear. It is known, however, that the centromedian (CM) and parafascicular (Pf) nuclei of the thalamus can strongly influence particular striatal neuron subtypes, notably including the cholinergic interneurons of the striatum (CINs), key regulators of striatal function. Here, we highlight the thalamostriatal system through the CM–Pf to striatal CINs. We consider how, by virtue of the direct synaptic connections of the CM and PF, their neural activity contributes to the activity of CINs and striatal projection neurons (SPNs). CM–Pf neurons are strongly activated at sudden changes in behavioral context, such as switches in action–outcome contingency or sequence of behavioral requirements, suggesting that their activity may represent change of context operationalized as associability. Striatal CINs, on the other hand, acquire and loose responses to external events associated with particular contexts. In light of this physiological evidence, we propose a hypothesis of the CM–Pf–CINs system, suggesting that it augments associative learning by generating an associability signal and promotes reinforcement learning guided by reward prediction error signals from dopamine-containing neurons. We discuss neuronal circuit and synaptic organizations based on in vivo/in vitro studies that we suppose to underlie our hypothesis. Possible implications of CM–Pf–CINs dysfunction (or degeneration) in brain diseases are also discussed by focusing on Parkinson’s disease.
doi_str_mv 10.1007/s00702-017-1713-z
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subjects Medicine
Medicine & Public Health
Neurology
Neurosciences
Psychiatry
Translational Neurosciences - Review Article
title Roles of centromedian parafascicular nuclei of thalamus and cholinergic interneurons in the dorsal striatum in associative learning of environmental events
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