Neural signals in the monkey ventral striatum related to motivation for juice and cocaine rewards

Bowman, Eric; Aigner, Thomas; Richmond, Barry J.

doi:10.1152/jn.1996.75.3.1061

Cited by 225 publications

(198 citation statements)

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“…In non-rewarded trials, the cue brightness also indicates how many trials remain in the schedule. Thus, the cue's brightness is related to the reward contingency and can be used to know whether the given trial is rewarded.As shown in previous studies (Bowman et al, 1996;Shidara et al, 1998;Shidara and Richmond, 2002) the error rates and reaction times were smallest in the rewarded trials, and were progressively larger as the number of trials remaining before reward increased. These behavioral results show that the monkeys are sensitive to the meaning of the cue brightness and their motivation is related to reward proximity.…”

supporting

confidence: 78%

Mode changes in activity of single neurons in anterior insular cortex across trials during multi-trial reward schedules

Mizuhiki

Richmond

Shidara

2007

Neuroscience Research

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We previously showed that spike count response distributions in anterior cingulate neurons can be fitted by a mixture of a few Poisson distributions in our reward schedule task. Here we report that the neuronal responses in insular cortex, an area connected to anterior cingulate cortex, can also be nicely fitted. The ratio of Poisson distributions changed with schedule progress, suggesting that neuronal responses in these areas fall into discrete firing modes. More insular neurons show mode changes across the schedules. The selection of firing modes might be related to cognitive processes, but seems independent across the two areas.Keywords single unit; spike count; Poisson distribution; neural coding; response variability; rhesus monkey; reward expectancyThe numbers of spikes emitted by single neurons are often different even when the trial type is repeated several times. Describing responses according to their means and variances can be adequate when the distributions are unimodal. Wiener and Richmond (2002) pointed out that the distributions of spike counts across repeated trials in V1 could be fitted nicely using a mixture of a small number (usually 3 or fewer) of Poisson distributions. Each distribution has a different mean rate. Because the types and amounts of serial correlations within the spike trains will depend on the specific mixture of Poisson processes, responses represented by different mixtures of Poisson processes will have different temporal correlation structures. When monkeys performed a reward schedule task the spike counts of the neuronal responses in anterior cingulate cortex were well fitted by a mixture of small number of Poisson distributions (Shidara et al. 2005). Furthermore, the ratio of the mixtures of Poisson components seemed correlated with schedule progress in the reward schedule task. This mixture of Poisson distributions seemed to account for much of the non-Poisson temporal structure of the spike trains. We speculated that the cognitive states that were exhibited during Correspondence should be addressed to Munetaka Shidara, Graduate School of Comprehensive Human Sciences, University of Tsukuba, 1-1-1 Amakubo, Tsukuba, Ibaraki 305-8577, Japan. E-mail: mshidara@md.tsukuba.ac.jp, Phone & FAX: +1-81-29-853-5903 Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. performance of the reward schedule task might underlie probability changes in higher and lower firing components in anterior cingulate neurons. Richmond et al. (2003) conceptualized anterior cingulate as a part of system related to the balance between work and reward. Their no...

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supporting

confidence: 78%

Mode changes in activity of single neurons in anterior insular cortex across trials during multi-trial reward schedules

Mizuhiki

Richmond

Shidara

2007

Neuroscience Research

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“…In return, the VP receives glutamatergic projections from the STN (Groenewegen and Berendse, 1990), thus allowing the STN to regulate the limbic output of the basal ganglia (Turner et al, 2001). Electrophysiological data have demonstrated that various neuronal populations in the NAC and the ventral striatum are activated by natural reward and drugs of abuse in behaving rats and monkeys (Bowman et al, 1996;Carelli, 2002;Carelli et al, 2000). Within the limbic loop, several parallel pathways seem to mediate the motivation for various types of reward.…”

Section: Discussionmentioning

confidence: 99%

Alcohol Preference Influences the Subthalamic Nucleus Control on Motivation for Alcohol in Rats

Lardeux

Baunez

2007

Neuropsychopharmacol

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In addition to its role in motor and attentional processes, the subthalamic nucleus (STN) has also been recently demonstrated to be involved in motivational function. Indeed, bilateral STN lesions modulate differentially the motivation for natural rewards and drugs of abuse, increasing motivation for food and decreasing motivation for cocaine in rats. Here, we show that in outbred rats, the STN can modulate the motivation for alcohol according to alcohol preference, without affecting alcohol intake. When performed on 'HighDrinker' rats, STN lesions enhanced the breaking point (BP) under a progressive ratio schedule of reinforcement and increased the time spent in the environment previously paired with alcohol access in the place preference paradigm. In contrast, when performed on 'Low-Drinker' rats, STN lesions decreased the BP and increased the time spent in the environment paired with water. These results show that STN lesions enhance the motivation for alcohol in rats showing a high alcohol preference, whereas they decrease it in rats showing a low preference for alcohol. These results suggest that the STN plays a complex role in the reward circuit, that is not limited to a dissociation between motivation for natural rewards and drugs of abuse, but takes other factors, such as alcohol preference, into account.

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“…Reward-related neurons are found in both the dorsal and ventral striatum, but they are more frequently found in the ventral striatum [7]. These cells respond to both the anticipation [55,104] and presentation of reward stimuli [7,16,55], and show activity levels that reflects the appetitive value of the reward [7,104]. The striatum also contains cells responsive to aversive stimuli [122,126].…”

Section: Da Activity Gates the Throughput Of Sensorimotor And Incentimentioning

confidence: 99%

Dopamine gating of glutamatergic sensorimotor and incentive motivational input signals to the striatum

Horvitz

2002

Behavioural Brain Research

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148

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Neural signals in the monkey ventral striatum related to motivation for juice and cocaine rewards

Cited by 225 publications

References 0 publications

Mode changes in activity of single neurons in anterior insular cortex across trials during multi-trial reward schedules

Mode changes in activity of single neurons in anterior insular cortex across trials during multi-trial reward schedules

Alcohol Preference Influences the Subthalamic Nucleus Control on Motivation for Alcohol in Rats

Dopamine gating of glutamatergic sensorimotor and incentive motivational input signals to the striatum

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