Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits

Salamone, John D.; Correa, Mercè; Farrar, Andrew M.; Mingote, Susana

doi:10.1007/s00213-006-0668-9

Cited by 876 publications

(892 citation statements)

References 265 publications

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“…This challenge is difficult because a rewarding stimulus or event will elicit many or all of these reward components simultaneously and so activate many brain systems at the same time. Careful studies are needed to tease apart whether activity in a particular brain region belongs most to the 'liking', 'wanting', or learning sub-components of reward and to understand how components are assembled by larger limbic circuits into an integrated reward system (Baldo and Kelley 2007;Balleine and Killcross 2006;Beaver et al 2006;Burke et al 2008;Di Chiara and Bassareo 2007;Evans et al 2006;Everitt and Robbins 2005;Izard 2007; Koob and Le Moal 2006;Kringelbach 2004;Leyton et al 2005;Panksepp 2007;Salamone et al 2007;Schultz 2006;Volkow et al 2006;Wise 2006). …”

Section: Multiple Psychological Components Of Rewardmentioning

confidence: 99%

“…Pleasurable subjective pain relief for chronic pain in a phantom limb in a patient was causally induced by effective deep brain stimulation in the PVG/ PAG part of the brainstem. When using MEG to directly measure the concomitant changes in the rest of the brain, a significant change in power was found in the mid-anterior OFC to enhance several aspects of reward (Cardinal et al 2002;Everitt and Robbins 2005;Kelley et al 2002;Kelley et al 2005;Koob and Le Moal 2006;Kringelbach and Berridge 2008;Peciña et al 2006;Robbins and Everitt 2002;Salamone et al 2007;Shizgal et al 2001;Szczypka et al 2001), yet damage to the nucleus accumbens may only subtly impair the hedonic impact or related components of natural rewards such as food (Balleine and Killcross 1994;Parkinson et al 1999;Setlow et al 2002;Whishaw and Kornelsen 1993). Core 'liking' reactions to pleasure may be relatively difficult to abolish absolutely by a single brain lesion or drug, which may be very good in evolutionary terms.…”

Section: Pleasure Coding Versus Causalitymentioning

confidence: 99%

“…One line of evidence against a pleasure-causing role is that mesolimbic dopamine neurons may not reliably be activated by pleasure per se but instead by predictive, motivational, or attentional properties rather than hedonic properties of reward stimuli (Carelli 2004;Cheer et al 2007;Redgrave and Gurney 2006;Salamone et al 2007;Schultz et al 1997). Another line of evidence is that, when 'liking' versus 'wanting' are teased apart by brain manipulations, specific manipulation of dopamine signaling either up or down simply fail to shift 'liking' reactions to pleasure reliably in either animals or humans (Berridge 2007;Brauer and De Wit 1997;Cannon and Palmiter 2003;Evans et al 2006;Leyton 2008;Leyton et al 2002;Leyton et al 2005;Peciña et al 2003;Robinson et al 2005;Tindell et al 2005;Volkow et al 2002;Volkow et al 2006).…”

Section: Controversial Subcortical Pleasure Generators? Dopamine Andmentioning

confidence: 99%

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Affective neuroscience of pleasure: reward in humans and animals

2008

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Introduction Pleasure and reward are generated by brain circuits that are largely shared between humans and other animals. Discussion Here, we survey some fundamental topics regarding pleasure mechanisms and explicitly compare humans and animals. Conclusion Topics surveyed include liking, wanting, and learning components of reward; brain coding versus brain causing of reward; subjective pleasure versus objective hedonic reactions; roles of orbitofrontal cortex and related cortex regions; subcortical hedonic hotspots for pleasure generation; reappraisals of dopamine and pleasure-electrode controversies; and the relation of pleasure to happiness.

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Section: Multiple Psychological Components Of Rewardmentioning

confidence: 99%

Section: Pleasure Coding Versus Causalitymentioning

confidence: 99%

Section: Controversial Subcortical Pleasure Generators? Dopamine Andmentioning

confidence: 99%

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Affective neuroscience of pleasure: reward in humans and animals

2008

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“…Measures of release on a subsecond time scale show that DA is relatively high during food-seeking [18]. DA depletion with 6-hydroxy-dopamine suggests that DA is needed for instrumental work output [19]. DA antagonists briefly increase operant responding for food, which then gradually declines, suggesting a loss of reward and not simply loss of motivation or motor impairment [20,21].…”

Section: Feeding and Satietymentioning

confidence: 99%

Accumbens dopamine-acetylcholine balance in approach and avoidance

Hoebel

Avena

Rada

2007

Current Opinion in Pharmacology

147

117

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SummaryUnderstanding systems for approach and avoidance is basic for behavioral neuroscience. Research on the neural organization and functions of the dorsal striatum in movement disorders, such as Huntington's and Parkinson's Disease, can inform the study of the nucleus accumbens (NAc) in motivational disorders, such as addiction and depression. We propose opposing roles for dopamine (DA) and acetylcholine (ACh) in the NAc in the control of GABA output systems for approach and avoidance. Contrary to DA, which fosters approach, ACh release is a correlate or cause of meal satiation, conditioned taste aversion and aversive brain stimulation. ACh may also counteract excessive DA-mediated approach behavior as revealed during withdrawal from drugs of abuse or sugar, when the animal enters an ACh-mediated state of anxiety and behavioral depression. This review summarizes evidence that ACh is important in the inhibition of behavior when extracellular DA is high and the generation of an anxious or depressed state when DA is relatively low.

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“…These activational aspects of motivated behavior have enormous adaptive significance because they enable organisms to overcome obstacles or work-related response costs that separate them from significant stimuli (Salamone 1991(Salamone , 1992Salamone et al 1997Salamone et al , 2003Salamone et al , 2007Salamone and Correa 2002;Van den Bos et al 2006;Walton et al 2006). Moreover, pathologies related to behavioral activation, such as psychomotor slowing, anergia, and fatigue, are recognized as critical aspects of depression and other psychiatric disorders (Tylee et al 1999;Stahl 2002;Salamone et al 2006Salamone et al , 2007. Over the past two decades, considerable research has demonstrated that nucleus accumbens DA is a critical component of the brain circuitry controlling effort-related behavioral processes (Salamone et al , 1997Phillips et al 2007;Niv et al 2007).…”

Section: Introductionmentioning

confidence: 99%

Intra-accumbens injections of the adenosine A2A agonist CGS 21680 affect effort-related choice behavior in rats

et al. 2008

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Rationale-Nucleus accumbens dopamine (DA) participates in the modulation of instrumental behavior, including aspects of behavioral activation and effort-related choice behavior. Rats with impaired accumbens DA transmission reallocate their behavior away from food-reinforced activities that have high response requirements and instead select less-effortful types of food-seeking behavior. Although accumbens DA is considered a critical component of the brain circuitry regulating effortrelated processes, emerging evidence also implicates adenosine A 2A receptors.Objective-The present work was undertaken to test the hypothesis that accumbens A 2A receptor stimulation would produce effects similar to those produced by DA depletion or antagonism.Materials and methods-Three experiments assessed the effects of the adenosine A 2A agonist CGS 21680 on performance of a concurrent choice task (lever pressing for preferred food vs. intake of less preferred chow) that is known to be sensitive to DA antagonists and accumbens DA depletions.Results-Systemic injections of CGS 21680 reduced lever pressing but did not increase feeding. In contrast, bilateral infusions of the adenosine A 2A receptor agonist CGS 21680 (6.0-24.0 ng) into the nucleus accumbens decreased lever pressing for the preferred food but substantially increased consumption of the less preferred chow. Injections of CGS 21680 into a control site dorsal to the accumbens were ineffective.Conclusions-Taken together, these results are consistent with the hypothesis that local stimulation of adenosine A 2A receptors in nucleus accumbens produces behavioral effects similar to those induced by accumbens DA depletions. Accumbens adenosine A 2A receptors appear to be a component of the brain circuitry regulating effort-related choice behavior.

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Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits

Cited by 876 publications

References 265 publications

Affective neuroscience of pleasure: reward in humans and animals

Affective neuroscience of pleasure: reward in humans and animals

Accumbens dopamine-acetylcholine balance in approach and avoidance

Intra-accumbens injections of the adenosine A2A agonist CGS 21680 affect effort-related choice behavior in rats

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