Mark R. Stefani scite author profile

Pharmacological manipulation of N-methyl-D-aspartate (NMDA) receptors may be critical for the treatment of many neurological and psychiatric disorders. Metabotropic glutamate (mGlu5) receptors are abundant in corticolimbic circuitry, where they modulate NMDA receptor-mediated signal transduction. Therefore, pharmacological manipulation of mGlu5 receptor may provide a treatment strategy for cognitive disorders that are associated with NMDA receptor dysfunction. We sought to determine whether the recently described molecular and cellular interactions between NMDA and mGlu5 receptors coregulate higher order behaviors. We examined the interaction of the selective mGlu5 receptor antagonist, 2-methyl-6-(phenylethynyl)-pyridine (MPEP), and the use-dependent NMDA antagonist MK-801, on locomotion, stereotypy, working memory, instrumental learning, and corticolimbic dopamine release. MPEP, at 10 mg/kg, but not 3 mg/kg, impaired working memory and instrumental learning, transiently increased dopamine release in prefrontal cortex and nucleus accumbens, and augmented the effect of MK-801 on cortical dopamine release, locomotion, and stereotypy. Pretreatment with 3 mg/kg of MPEP enhanced the detrimental effects of MK-801 on cognition. These results demonstrate that an mGlu5 receptor antagonist can potentiate the motoric, cognitive, and dopaminergic effects of an NMDA receptor antagonist. Thus, mGlu5 receptors appear to play a major role in regulating NMDA receptor-dependent cognitive functions such as learning and working memory. By extension, these results suggest that pharmacological potentiation of mGlu5 receptors may ameliorate the cognitive and other behavioral abnormalities associated with NMDA receptor deficiency.

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Glutamate receptors in the rat medial prefrontal cortex regulate set-shifting ability.

Stefani

Groth

Moghaddam

2003

Behavioral Neuroscience

149

154

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The authors examined set-shifting abilities in rats injected with antagonists of N-methyl-D-aspartate (NMDA) receptors (MK801) or alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) receptors (LY293558) into the medial prefrontal cortex (mPFC). Set-shifting was assessed with a maze-based task requiring a switch between brightness and texture discrimination strategies. Intra-mPFC injection of MK801 prior to training on the 2nd discrimination impaired discrimination strategy acquisition. The MK801-induced deficit was due to increased perseverative responding. AMPA receptor blockade also impaired acquisition of the 2nd discrimination; these impairments were due to more general cognitive deficits. Results suggest that, within the mPFC, both AMPA and NMDA receptors are necessary for set-shifting, and that NMDA receptor hypofunction impairs the capacity to modify existing knowledge or to inhibit responses that are no longer appropriate.

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Modulation of Hippocampal Acetylcholine Release and Spontaneous Alternation Scores by Intrahippocampal Glucose Injections

et al. 1998

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Recent evidence indicates that systemic glucose treatment enhances memory while producing a corresponding increase in hippocampal acetylcholine (ACh) output. The present experiments examined whether unilateral intrahippocampal infusions of glucose would enhance spontaneous alternation performance and whether there would be a corresponding increase in ACh output in the ipsilateral and contralateral hippocampus. Extracellular ACh was assessed in samples collected at 12 min intervals using in vivo microdialysis with HPLC with electrochemical detection. Twelve minutes after a unilateral infusion of artificial cerebrospinal fluid (CSF) or glucose (6.6 mM), rats were tested in a cross maze for spontaneous alternation behavior with concurrent microdialysis collection. In two experiments, glucose infusions significantly increased alternation scores (67.5 and 59%) compared with CSF controls (42.4 and 39.5%, respectively). In both experiments, behavioral testing resulted in increased ACh output in the hippocampus. Glucose administration at the time of alternation tests enhanced ACh output beyond that of behavioral testing alone both ipsilateral (+93.8%) and contralateral (+85%) to the infusion site, as compared with ACh output (+36.1% and +55.5%) of CSF controls. Glucose infusions did not affect hippocampal ACh output in rats kept in a holding chamber. These results suggest that glucose may enhance alternation scores by modulating ACh release. The findings also indicate that unilateral glucose infusions increase hippocampal ACh output both ipsilateral and contralateral to the site of injection. Furthermore, glucose increased ACh output only during maze testing, suggesting that specific behavioral demands, perhaps requiring activation of cholinergic neurons, determine the efficacy of glucose in modulating ACh release.

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Rule Learning and Reward Contingency Are Associated with Dissociable Patterns of Dopamine Activation in the Rat Prefrontal Cortex, Nucleus Accumbens, and Dorsal Striatum

Stefani¹,

Moghaddam²

2006

J. Neurosci.

124

115

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The midbrain dopamine system has been ascribed roles in reward expectancy, error detection, prediction, and memory. However, these theories typically do not differentiate between dopamine response and action in different forebrain terminal fields. We measured dopamine release in the prefrontal cortex (PFC), nucleus accumbens (NAc), and dorsal striatum (DS) of rats exposed to the same maze apparatus under three behavioral conditions: a set-shift task in which reward depended on discrimination learning and extradimensional set-shifting, a yoked condition in which reward was intermittent and not under the control of the subject, and a "reward-retrieval" variant in which reward was certain on every trial. We found dissociable patterns of dopamine release associated with learning, uncertainty, and reward. Dopamine increased in all three regions when reward was contingent on rule learning and shifting or was uncertain. These increases were sustained after behavior. There was a significant correlation between the magnitude of increase in PFC dopamine and the rapidity with which rats shifted between discrimination rules. In the yoke condition, in which the receipt of reward was always uncertain, the opposite relationship between dopamine levels and likelihood of reward was observed. Predictable, noncontingent reward was associated with increased dopamine levels in the NAc and DS. In contrast, PFC dopamine did not increase significantly above baseline levels. Thus, the dopaminergic projections to the PFC and nucleus accumbens were selectively, yet differentially, activated in situations of uncertainty and cognitive demand, whereas the dopaminergic projection to the DS responded independently of task differences in learning and reward.

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Interaction of N-methyl-D-aspartate and group 5 metabotropic glutamate receptors on behavioral flexibility using a novel operant set-shift paradigm

2008

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Behavioral flexibility or 'set-shifting' refers to the ability to modify ongoing behavior in response to changing goals or environmental contingencies. Impaired behavioral flexibility is associated with disorders such as schizophrenia and addiction. Hypofunction of N-methyl-D-aspartate (NMDA) receptors has been implicated in these impairments. Metabotropic glutamate 5 (mGlu5) receptors closely interact with NMDA receptors and may provide a feasible pharmacological target for indirect manipulation of NMDA receptor function in disease states. The aim of this study was to examine the impact of NMDA and mGlu5 receptors on set-shifting ability. We developed a computer-controlled, operant-based set-shifting task that requires rats to learn sequential discrimination rules based on two distinct perceptual dimensions. Using this task, we found that administration of the NMDA receptor antagonist MK801, both systemically and intracortically, significantly impaired task performance, whereas stimulation or inhibition of mGlu5 receptors did not impair task performance. However, when administered after MK801, potentiation of mGlu5 receptor function reduced the performance impairments observed with MK801 alone. These results suggest an interaction between NMDA and mGlu5 receptors in cognitive flexibility and may provide a novel therapeutic approach for treating disorders associated with aberrant NMDA function.

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Mark R. Stefani

Functional Interaction Between NMDA and mGlu5 Receptors: Effects on Working Memory, Instrumental Learning, Motor Behaviors, and Dopamine Release

Glutamate receptors in the rat medial prefrontal cortex regulate set-shifting ability.

Modulation of Hippocampal Acetylcholine Release and Spontaneous Alternation Scores by Intrahippocampal Glucose Injections

Rule Learning and Reward Contingency Are Associated with Dissociable Patterns of Dopamine Activation in the Rat Prefrontal Cortex, Nucleus Accumbens, and Dorsal Striatum

Interaction of N-methyl-D-aspartate and group 5 metabotropic glutamate receptors on behavioral flexibility using a novel operant set-shift paradigm

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