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A free-operant reward-tracking paradigm to study neural mechanisms and neurochemical modulation of adaptive behavior in rats

International journal of molecular sciences. Bd. 20. H. 12. Basel: Molecular Diversity Preservation International 2019 Art. 3098

Erscheinungsjahr: 2019

ISBN/ISSN: 1422-0067 ; 1661-6596

Publikationstyp: Zeitschriftenaufsatz

Sprache: Englisch

Doi/URN: urn:nbn:de:hebis:77-publ-595227

Volltext über DOI/URN

Geprüft:Bibliothek

Inhaltszusammenfassung


The ability to respond flexibly to changing environmental circumstances is a hallmark of goal- directed behavior, and compromised flexibility is associated with a wide range of psychiatric conditions in humans, such as addiction and stress-related disorders. To identify neural circuits and transmitter systems implicated in the provision of cognitive flexibility, suitable animal paradigms are needed. Ideally, such models should be easy to implement, allow for rapid task acquisition, provide mu...The ability to respond flexibly to changing environmental circumstances is a hallmark of goal- directed behavior, and compromised flexibility is associated with a wide range of psychiatric conditions in humans, such as addiction and stress-related disorders. To identify neural circuits and transmitter systems implicated in the provision of cognitive flexibility, suitable animal paradigms are needed. Ideally, such models should be easy to implement, allow for rapid task acquisition, provide multiple behavioral readouts, and permit combination with physiological and pharmacological testing and manipulation. Here, we describe a paradigm meeting these requirements and employ it to investigate the neural substrates and neurochemical modulation of adaptive behavior. Water-restricted rats learned to emit operant responses for positive reinforcement (water reward) within minutes in a free-operant conditioning environment. Without further training, animals were able to track changes in the reward schedule. Given prior evidence that the medial prefrontal cortex (mPFC) and the dopaminergic system are required for flexible behavior, we aimed to assess both in more detail. Silencing of mPFC compromised flexible behavior when avoidance of punishment was required. Systemic injections of the D2-receptor agonist quinpirole and the D2-receptor antagonist eticlopride had complex, differential impacts on reward seeking and adaptive behavior.» weiterlesen» einklappen

Autoren


Stoilova, Vanya V. (Autor)
Wette, Sina A. (Autor)
Stüttgen, Maik C. (Autor)

Klassifikation


DDC Sachgruppe:
Medizin