Bi-directional regulation of cognitive control by distinct prefrontal cortical output neurons to thalamus and striatum

The medial prefrontal cortex (mPFC) steers goal-directed actions and withholds inappropriate behavior. Dorsal and ventral mPFC (dmPFC/vmPFC) circuits have distinct roles in cognitive control, but underlying mechanisms are poorly understood. Here we use neuroanatomical tracing techniques, in vitro el...

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Bibliographic Details
Published in:Nature communications 2021-03, Vol.12 (1), p.1994-1994, Article 1994
Main Authors: de Kloet, Sybren F., Bruinsma, Bastiaan, Terra, Huub, Heistek, Tim S., Passchier, Emma M. J., van den Berg, Alexandra R., Luchicchi, Antonio, Min, Rogier, Pattij, Tommy, Mansvelder, Huibert D.
Format: Article
Language:English
Subjects:
13/51
14/35
631/378/1697/2601
631/378/2649/1310
631/378/2649/2150
631/378/3920
64/86
9/74
Anatomy
Animals
Cognition - physiology
Cognitive ability
Corpus Striatum - cytology
Corpus Striatum - physiology
Electrophysiological Phenomena
Electrophysiology
Humanities and Social Sciences
Male
Models, Neurological
multidisciplinary
Neostriatum
Neural Pathways - physiology
Neurons
Neurons - physiology
Photometry
Populations
Prefrontal cortex
Prefrontal Cortex - cytology
Prefrontal Cortex - physiology
Rats
Rats, Long-Evans
Reaction time
Reaction time task
Science
Science (multidisciplinary)
Thalamus
Thalamus - cytology
Thalamus - physiology
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Summary:The medial prefrontal cortex (mPFC) steers goal-directed actions and withholds inappropriate behavior. Dorsal and ventral mPFC (dmPFC/vmPFC) circuits have distinct roles in cognitive control, but underlying mechanisms are poorly understood. Here we use neuroanatomical tracing techniques, in vitro electrophysiology, chemogenetics and fiber photometry in rats engaged in a 5-choice serial reaction time task to characterize dmPFC and vmPFC outputs to distinct thalamic and striatal subdomains. We identify four spatially segregated projection neuron populations in the mPFC. Using fiber photometry we show that these projections distinctly encode behavior. Postsynaptic striatal and thalamic neurons differentially process synaptic inputs from dmPFC and vmPFC, highlighting mechanisms that potentially amplify distinct pathways underlying cognitive control of behavior. Chemogenetic silencing of dmPFC and vmPFC projections to lateral and medial mediodorsal thalamus subregions oppositely regulate cognitive control. In addition, dmPFC neurons projecting to striatum and thalamus divergently regulate cognitive control. Collectively, we show that mPFC output pathways targeting anatomically and functionally distinct striatal and thalamic subregions encode bi-directional command of cognitive control. This study presents an anatomical, neurophysiological and functional characterization of four distinct prefrontal populations that project to striatal and thalamic sub-regions. The authors show that each of these populations have a discrete role in the regulation of cognitive control.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-021-22260-7