Desire and dread from the nucleus accumbens: cortical glutamate and subcortical GABA differentially generate motivation and hedonic impact in the rat.
about
The neurobiology of anhedonia and other reward-related deficitsDirect hypothalamic and indirect trans-pallidal, trans-thalamic, or trans-septal control of accumbens signaling and their roles in food intakeMapping anhedonia-specific dysfunction in a transdiagnostic approach: an ALE meta-analysisLateral hypothalamus, nucleus accumbens, and ventral pallidum roles in eating and hunger: interactions between homeostatic and reward circuitryPleasure systems in the brainMapping brain circuits of reward and motivation: in the footsteps of Ann KelleyArchitectural Representation of Valence in the Limbic System.On lateral septum-like characteristics of outputs from the accumbal hedonic "hotspot" of Peciña and Berridge with commentary on the transitional nature of basal forebrain "boundaries"Reduced expression of nogo-a leads to motivational deficits in rats.Effects of muscimol, amphetamine, and DAMGO injected into the nucleus accumbens shell on food-reinforced lever pressing by undeprived rats.Disentangling the roles of approach, activation and valence in instrumental and pavlovian respondingDeep brain stimulation reveals a dissociation of consummatory and motivated behaviour in the medial and lateral nucleus accumbens shell of the rat.Intra-accumbens baclofen, but not muscimol, increases second order instrumental responding for food reward in rats.Excessive disgust caused by brain lesions or temporary inactivations: mapping hotspots of the nucleus accumbens and ventral pallidum.Metabotropic glutamate receptor blockade in nucleus accumbens shell shifts affective valence towards fear and disgust.Nucleus accumbens dopamine/glutamate interaction switches modes to generate desire versus dread: D(1) alone for appetitive eating but D(1) and D(2) together for fearA food predictive cue must be attributed with incentive salience for it to induce c-fos mRNA expression in cortico-striatal-thalamic brain regions.Regulation of neural responses to emotion perception by ketamine in individuals with treatment-resistant major depressive disorder.Attentional Modulation of Brain Responses to Primary Appetitive and Aversive StimuliInjections of muscimol into the paraventricular thalamic nucleus, but not mediodorsal thalamic nuclei, induce feeding in ratsNucleus accumbens GABAergic inhibition generates intense eating and fear that resists environmental retuning and needs no local dopamine.Nucleus Accumbens AMPA Receptors Are Necessary for Morphine-Withdrawal-Induced Negative-Affective States in RatsOrexin in Rostral Hotspot of Nucleus Accumbens Enhances Sucrose 'Liking' and Intake but Scopolamine in Caudal Shell Shifts 'Liking' Toward 'Disgust' and 'Fear'Prefrontal Cortex to Accumbens Projections in Sleep Regulation of Reward.Single doses of THC and cocaine decrease proficiency of impulse control in heavy cannabis users.Sweetened-fat intake sensitizes gamma-aminobutyric acid-mediated feeding responses elicited from the nucleus accumbens shell.Cannabis and cocaine decrease cognitive impulse control and functional corticostriatal connectivity in drug users with low activity DBH genotypes.Altered reward expectancy in individuals with recent methamphetamine dependence.Contributions of Philip Teitelbaum to affective neuroscienceAdvances in the neurobiological bases for food 'liking' versus 'wanting'.Dopamine or opioid stimulation of nucleus accumbens similarly amplify cue-triggered 'wanting' for reward: entire core and medial shell mapped as substrates for PIT enhancement.Altered GluA1 (Gria1) Function and Accumbal Synaptic Plasticity in the ClockΔ19 Model of Bipolar Mania.Caudal Nucleus Accumbens Core Is Critical in the Regulation of Cue-Elicited Approach-Avoidance DecisionsEnhanced control of attention by stimulating mesolimbic-corticopetal cholinergic circuitry.Dopamine receptor D2 deficiency reduces mouse pup ultrasonic vocalizations and maternal responsiveness.Current perspectives on incentive salience and applications to clinical disorders.Long-lasting deficits in hedonic and nucleus accumbens reactivity to sweet rewards by sugar overconsumption during adolescence.Methylphenidate reduces functional connectivity of nucleus accumbens in brain reward circuit.Opposing Roles of Rapid Dopamine Signaling Across the Rostral-Caudal Axis of the Nucleus Accumbens Shell in Drug-Induced Negative Affect.Evolving Concepts of Emotion and Motivation
P2860
Q26853518-FCCCC0BA-8DA8-43D2-AC20-E331C35B1944Q26863358-5394365C-6F92-4D99-A94B-5CBAF2DECE26Q26866062-DCFAC7A1-697F-4192-963F-58D76F9D934FQ27021825-03CDBF5A-0546-448D-A931-D55099F4DC74Q28261680-9B4FA5E7-51F8-4ED1-A06C-76DEAD8B54FDQ28281971-C38D22FC-9796-4876-A085-790C51C60864Q30355371-ED2D4A11-5120-4D72-9D7E-5281E833E36CQ30441632-DD20173E-9D13-41A0-B1FE-3DEDC31EC75FQ30443849-0C50A9D3-69C2-4B5A-82E3-EB5DDFB7F7F4Q30455086-0402AFE1-881B-4BC2-A80F-2F106DDFC746Q33893720-2C55B852-857B-47AE-808D-A4C5BBBA15A2Q34200975-CC52D11E-8879-4185-A52F-F7A429BC9885Q34341744-B030990D-AC83-4C5A-BA72-F99557761E9BQ34536623-5F010101-B675-4632-99C6-9CAD90866AEAQ34574309-1E625D1A-DE6F-4ECE-B562-D32DB6F218E1Q35216624-195B43D3-F520-41FC-9A92-F4401FE8744AQ35503422-6A71DC1D-193E-4CEE-BB41-28A02398B12BQ35653842-D4D208FE-2A90-4175-8019-4E1B54D681E2Q35686974-E2C1733B-4C50-4501-8F2F-969840A39031Q36487353-3A86DE80-3140-4F54-9060-9C19F8BC14D7Q36902088-636EF91B-AD47-4021-91B4-45C9D810E4FDQ36932893-AB261752-8346-4A26-A4CC-8E7F690C1C8BQ37006313-8AFD6086-AFDE-42CB-8D17-8925D06EACD5Q37127848-E6799071-6775-4B13-B46C-872AE49480BAQ37337839-E3A85E50-305E-473B-939B-E3624A8F9664Q37450814-5E8A8A91-9FAF-42C5-A89C-7D5AF19BD58DQ37515192-F2BB6649-9C5D-4336-9C89-81BB4BDC5D1EQ37578252-1C9FCF6E-AA2B-4E23-AC7E-E9615F813A22Q37952532-DA75414E-7A04-4C2D-A999-20982AA43DB4Q38215870-5FA10A05-0895-4980-97C9-AB0B0CDFD195Q39803210-E133F1AF-E857-43FF-893F-8C6F5B8F8396Q40093591-0FF33299-5A42-4D93-BF3D-5F4A8548912CQ42321455-6AF2F7DE-1918-4E3D-95CF-937151B13997Q42815132-2179535D-5441-46A9-AA2F-C673D131F9C0Q43586861-353BAF93-E6D5-478A-94C4-B143059A5591Q50420904-9DD8590D-36F9-4F9B-A4F7-23C41E9BFB28Q50540663-FF039140-B67E-4C0A-9DD0-20E45367C9B2Q50747795-D40F7F5A-27A5-4822-8568-718CAAE8B82EQ52313302-F6D8AF4A-BA26-43D0-A3F8-7639477EB67FQ58758941-FF3A002C-11EC-4478-B930-89C5B8EC52AE
P2860
Desire and dread from the nucleus accumbens: cortical glutamate and subcortical GABA differentially generate motivation and hedonic impact in the rat.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Desire and dread from the nucl ...... and hedonic impact in the rat.
@ast
Desire and dread from the nucl ...... and hedonic impact in the rat.
@en
type
label
Desire and dread from the nucl ...... and hedonic impact in the rat.
@ast
Desire and dread from the nucl ...... and hedonic impact in the rat.
@en
prefLabel
Desire and dread from the nucl ...... and hedonic impact in the rat.
@ast
Desire and dread from the nucl ...... and hedonic impact in the rat.
@en
P2860
P1433
P1476
Desire and dread from the nucl ...... and hedonic impact in the rat.
@en
P2093
Alexis Faure
P2860
P304
P356
10.1371/JOURNAL.PONE.0011223
P407
P577
2010-06-18T00:00:00Z