Cholinergic interneuron inhibition potentiates corticostriatal transmission in direct medium spiny neurons and rescues motor learning in parkinsonism

Gwenaëlle Laverne; Jonathan Pesce; Ana Reynders; Etienne Combrisson; Eduardo Gascon; Christophe Melon; Lydia Kerkerian-Le Goff; Nicolas Maurice; Corinne Beurrier

Cell Reports (Jul 2022)

Cholinergic interneuron inhibition potentiates corticostriatal transmission in direct medium spiny neurons and rescues motor learning in parkinsonism

Gwenaëlle Laverne,
Jonathan Pesce,
Ana Reynders,
Etienne Combrisson,
Eduardo Gascon,
Christophe Melon,
Lydia Kerkerian-Le Goff,
Nicolas Maurice,
Corinne Beurrier

Affiliations

Gwenaëlle Laverne: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Jonathan Pesce: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Ana Reynders: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Etienne Combrisson: Aix Marseille University, CNRS, Institut de Neurosciences de la Timone (INT), 13005 Marseille, France
Eduardo Gascon: Aix Marseille University, CNRS, Institut de Neurosciences de la Timone (INT), 13005 Marseille, France
Christophe Melon: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Lydia Kerkerian-Le Goff: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Nicolas Maurice: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France
Corinne Beurrier: Aix Marseille University, CNRS, Institut de Biologie du Développement (IBDM), 13009 Marseille, France; Corresponding author

Journal volume & issue: Vol. 40, no. 1
p. 111034

Abstract

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Summary: Striatal cholinergic interneurons (CINs) respond to salient or reward prediction-related stimuli after conditioning with brief pauses in their activity, implicating them in learning and action selection. This pause is lost in animal models of Parkinson’s disease. How this signal regulates the striatal network remains an open question. Here, we examine the impact of CIN firing inhibition on glutamatergic transmission between the cortex and the medium spiny neurons expressing dopamine D1 receptor (D1 MSNs). Brief interruption of CIN activity has no effect in control conditions, whereas it increases glutamatergic responses in D1 MSNs after dopamine denervation. This potentiation depends upon M4 muscarinic receptor and protein kinase A. Decreasing CIN firing by optogenetics/chemogenetics in vivo partially rescues long-term potentiation in MSNs and motor learning deficits in parkinsonian mice. Our findings demonstrate that the control exerted by CINs on corticostriatal transmission and striatal-dependent motor-skill learning depends on the integrity of dopaminergic inputs.

CP: Neuroscience

Published in Cell Reports

ISSN: 2211-1247 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Biology (General)
Website: http://www.cell.com/cell-reports/home

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