Keyword search (4,164 papers available)

"Optogenetics" Keyword-tagged Publications:

Title Authors PubMed ID
1 Smart Optogenetics for Real-Time Automated Control of Cardiac Electrical Activity Deng S; Harlaar N; Zhang J; Dekker SO; Kudryashova NN; Zhou H; Bart CI; Jin T; Derevyanko G; van Driel W; Panfilov AV; Poelma RH; de Vries AAF; Zhang G; De Coster T; Pijnappels DA; 41684280
CHEMBIOCHEM
2 Disentangling prediction error and value in a formal test of dopamine s role in reinforcement learning Usypchuk AA; Maes EJP; Lozzi M; Avramidis DK; Schoenbaum G; Esber GR; Gardner MPH; Iordanova MD; 40738112
CSBN
3 Corticostriatal suppression of appetitive Pavlovian conditioned responding Villaruel FR; Martins M; Chaudhri N; 34880119
PSYCHOLOGY
4 The trade-off between pulse duration and power in optical excitation of midbrain dopamine neurons approximates Bloch's law Pallikaras V; Carter F; Velazquez-Martinez DN; Arvanitogiannis A; Shizgal P; 34864162
PSYCHOLOGY
5 Seeing is believing: tools to study the role of Rho GTPases during cytokinesis Koh SP; Pham NP; Piekny A; 34405757
BIOLOGY
6 All-optical approaches to studying psychiatric disease Lafferty CK; Christinck TD; Britt JP; 34314828
CSBN
7 Off-Target Influences of Arch-Mediated Axon Terminal Inhibition on Network Activity and Behavior. Lafferty CK, Britt JP 32269514
CSBN
8 Nucleus Accumbens Cell Type- and Input-Specific Suppression of Unproductive Reward Seeking. Lafferty CK, Yang AK, Mendoza JA, Britt JP 32187545
CSBN
9 Hippocampal Input to the Nucleus Accumbens Shell Enhances Food Palatability. Yang AK, Mendoza JA, Lafferty CK, Lacroix F, Britt JP 31699294
CSBN
10 Cue-Evoked Dopamine Neuron Activity Helps Maintain but Does Not Encode Expected Value. Mendoza JA, Lafferty CK, Yang AK, Britt JP 31693885
CSBN

 

Title:Nucleus Accumbens Cell Type- and Input-Specific Suppression of Unproductive Reward Seeking.
Authors:Lafferty CKYang AKMendoza JABritt JP
Link:https://www.ncbi.nlm.nih.gov/pubmed/32187545?dopt=Abstract
DOI:10.1016/j.celrep.2020.02.095
Publication:Cell reports
Keywords:basolateral amygdalabehavioral inhibitiondirect pathwayfiber photometryindirect pathwaynucleus accumbensoptogeneticsparaventricular nucleus of the thalamusplace preferenceself-stimulation
PMID:32187545 Category:Cell Rep Date Added:2020-03-19
Dept Affiliation: CSBN
1 Department of Psychology, McGill University, Montreal, QC, Canada; Center for Studies in Behavioral Neurobiology, Concordia University, Montreal, QC, Canada.
2 Integrated Program in Neuroscience, McGill University, Montreal, QC, Canada; Center for Studies in Behavioral Neurobiology, Concordia University, Montreal, QC, Canada.
3 Department of Psychology, McGill University, Montreal, QC, Canada; Integrated Program in Neuroscience, McGill University, Montreal, QC, Canada; Center for Studies in Behavioral Neurobiology, Concordia University, Montreal, QC, Canada. Electronic address: jonathan.britt@mcgill.ca.

Description:

Nucleus Accumbens Cell Type- and Input-Specific Suppression of Unproductive Reward Seeking.

Cell Rep. 2020 Mar 17;30(11):3729-3742.e3

Authors: Lafferty CK, Yang AK, Mendoza JA, Britt JP

Abstract

The nucleus accumbens (NAc) contributes to behavioral inhibition and compulsions, but circuit mechanisms are unclear. Recent evidence suggests that amygdala and thalamic inputs exert opposing control over behavior, much like direct and indirect pathway output neurons. Accordingly, opponent processes between these NAc inputs or cell types may underlie efficient reward seeking. We assess the contributions of these circuit elements to mouse operant behavior during recurring conditions when reward is and is not available. Although direct pathway stimulation is rewarding and indirect pathway stimulation aversive, the activity of both cell types is elevated during periods of behavioral suppression, and the inhibition of either cell-type selectively increases unproductive reward seeking. Amygdala and thalamic inputs are also necessary for behavioral suppression, even though they both support self-stimulation and innervate different NAc subregions. These data suggest that efficient reward seeking relies on complementary activity across NAc cell types and inputs rather than opponent processes between them.

PMID: 32187545 [PubMed - as supplied by publisher]




BookR developed by Sriram Narayanan
for the Concordia University School of Health
Copyright © 2011-2026
Cookie settings
Concordia University