Individual behavioral and neurochemical markers of unadapted decision-making processes in healthy inbred mice

Pittaras, Elsa; Crinon, Jacques; Chennaoui, Mounir; Rabat, Arnaud; Granon, Sylvie

doi:10.1007/s00429-016-1192-2

Cited by 41 publications

(81 citation statements)

References 67 publications

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“…The present findings provide further support of a role for vitamin D in serotonin synthesis and metabolism in the developing brain. Furthermore, decreased cortical serotonergic function has been associated with impaired cognitive flexibility in adult mice (Pittaras et al, 2016) and increase impulsivity in humans (Campus et al, 2016). Serotonergic cell bodies, located in the raphe nuclei of the brainstem, primarily project to the frontal cortex and striatum (Chung et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

Developmental vitamin D deficiency alters multiple neurotransmitter systems in the neonatal rat brain

Kesby

Turner

Alexander

et al. 2017

Intl J of Devlp Neuroscience

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Our results confirm that DVD deficiency leads to changes in multiple neurotransmitter systems in the neonate brain. Importantly, this regionally-based assessment in DVD-deficient neonates identified both widespread neurotransmitter changes (glutamine/noradrenaline) and regionally selective neurotransmitter changes (dopamine/serotonin). Thus, vitamin D may have both general and local actions depending on the neurotransmitter system being investigated. Taken together, these data suggest that DVD deficiency alters neurotransmitter systems relevant to schizophrenia in the developing rat brain.

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Section: Discussionmentioning

confidence: 99%

Developmental vitamin D deficiency alters multiple neurotransmitter systems in the neonatal rat brain

Kesby

Turner

Alexander

et al. 2017

Intl J of Devlp Neuroscience

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“…Additionally, nonoperant‐based tasks have been developed and used in rats and mice, which measure choice behavior with a multiarm maze . In one version of this paradigm called the mouse gambling task, each arm of the maze offers an immediate smaller reward (one or two sugar pellets) and then a subsequent larger reward (three to five sugar pellets) or an equivalent “nonreward,” which was nonpalatable quinine pellets, with probabilities ranging from 0.05 to 0.9 …”

Section: Animal Models Of Gdmentioning

confidence: 99%

“…48 In one version of this paradigm called the mouse gambling task, each arm of the maze offers an immediate smaller reward (one or two sugar pellets) and then a subsequent larger reward (three to five sugar pellets) or an equivalent "nonreward," which was nonpalatable quinine pellets, with probabilities ranging from 0.05 to 0.9. 53 This latter mouse paradigm is interesting because it includes the receipt of nonpalatable pellets instead of the absence of the reward plus a time-out, which is given in the rGT and mIGT. However, in some cases, rats are excluded if they consume the nonpalatable quinine pellets, limiting the benefit of this additional nonreward.…”

Section: Animal Models Of Gdmentioning

confidence: 99%

Gambling disorder: an integrative review of animal and human studies

Nautiyal

Okuda

Hen

et al. 2017

Annals of the New York Academy of Sciences

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Gambling disorder (GD), previously called pathological gambling and classified as an impulse control disorder in DSM-III and DSM-IV, has recently been reclassified as an addictive disorder in the DSM-5. It is widely recognized as an important public health problem associated with substantial personal and social costs, high rates of psychiatric comorbidity, poor physical health, and elevated suicide rates. A number of risk factors have been identified, including some genetic polymorphisms. Animal models have been developed in order to study the underlying neural basis of GD. Here, we discuss recent advances in our understanding of the risk factors, disease course, and pathophysiology. A focus on a phenotype-based dissection of the disorder is included in which known neural correlates from animal and human studies are reviewed. Finally, current treatment approaches are discussed, as well as future directions for GD research.

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“…These data illustrate a behavioral continuum with overlap in choice strategies between human physiological and pathological conditions. Interestingly, animal versions of the IGT have been developed, with species appropriate adjustments, to assess DM in a design comparable to humans [8][9][10][11][12][13][14][15][16] . For example, in rodent gambling tasks the decks of cards have been replaced by mazes or operant chambers suited with different options of varying outcomes.…”

Section: Introductionmentioning

confidence: 99%

“…Similar to human studies, lesioned rodents perform suboptimally in adapted IGT versions, as well as they show delayed DM compared to healthy individuals 18,19 . For the majority of healthy rodents, an improvement of performances is observed as the task progresses and individuals commonly cluster in three subpopulations reflecting variable choice strategies 12,14,20 . Good DM individuals quickly develop a strong preference for the advantageous options, while poor DM individuals display the worst performances, either not showing any preference for neither advantageous nor disadvantageous options, or displaying a long-term preference for the disadvantageous ones.…”

Section: Introductionmentioning

confidence: 99%

Modeling decision-making under uncertainty: a direct comparison study between human and mouse gambling data

Álvarez

Giustiniani

Chabin

et al. 2019

Preprint

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Decision-making is a conserved evolutionary process enabling to choose one option among several alternatives, and relying on reward and cognitive control systems. The Iowa Gambling Task allows to assess human decision-making under uncertainty by presenting four cards decks with various cost-benefit probabilities. Participants seek to maximize their monetary gains by developing long-term optimal choice strategies. Animal versions have been adapted with nutritional rewards but interspecies data comparisons are still scarce. Our study directly compared physiological decision-making performances between humans and wild-type C57BL/6 mice. Human subjects fulfilled an electronic Iowa Gambling Task version while mice performed a maze-based adaptation with four arms baited in a probabilistic way. Our data show closely matching performances among species with similar patterns of choice behaviors. Moreover, both populations clustered into good, intermediate, and poor decision-making categories with similar proportions. Remarkably, mice good decision-makers behaved as humans of the same category, but slight differences among species have been evidenced for the other two subpopulations. Overall, our direct comparative study confirms the good face validity of the rodent gambling task. Extended behavioral characterization and pathological animal models should help strengthen its construct validity and disentangle determinants of decision-making in animals and humans.

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Individual behavioral and neurochemical markers of unadapted decision-making processes in healthy inbred mice

Cited by 41 publications

References 67 publications

Developmental vitamin D deficiency alters multiple neurotransmitter systems in the neonatal rat brain

Developmental vitamin D deficiency alters multiple neurotransmitter systems in the neonatal rat brain

Gambling disorder: an integrative review of animal and human studies

Modeling decision-making under uncertainty: a direct comparison study between human and mouse gambling data

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