Regulation of Working Memory by Dopamine D4 Receptor in Rats

Zhang, Kehong; Grady, Christopher J; Tsapakis, Eva-Maria; Andersen, Susan; Tarazi, Frank I.; Baldessarini, Ross J.

doi:10.1038/sj.npp.1300491

Cited by 69 publications

(48 citation statements)

References 52 publications

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“…D 4 receptor antagonist effects of clozapine may contribute the differential effects seen in the fimbria-fornixlesioned and sham-operated rats in the current study. Zhang et al (2004) found that a selective D 4 receptor antagonist impaired working memory performance in rats performing at high levels of accuracy, but improved working memory performance in rats with poor baseline performance levels. This is similar to the finding in the current study.…”

Section: Clozapine Effects At Diverse Receptorsmentioning

confidence: 95%

Reversal of Clozapine Effects on Working Memory in Rats with Fimbria–Fornix Lesions

Addy

Pocivavsek

Levin

2005

Neuropsychopharmacol

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Clozapine is an effective antipsychotic drug, but its effects on cognitive function are unclear. Previously, we found that clozapine caused a working memory deficit, which was reversed by nicotine. Hippocampal systems are important in determining clozapine effect on memory. In the current study, the memory effects of clozapine and nicotine administration were determined in rats with lesions of the fimbria-fornix, a fiber bundle which carries cholinergic and other projections between the septum and the hippocampus. Female Sprague-Dawley rats were trained on a win-shift procedure in the radial-arm maze, in which each arm entry was rewarded once per session. Then, 13 rats received bilateral knife-cut lesions of the fimbria-fornix, while 14 rats underwent sham surgery. The rats were tested after subcutaneous injections with combinations of clozapine (0 and 1.25 mg/kg) and nicotine (0, 0.2, and 0.4 mg/kg). In shamoperated rats, clozapine caused a significant (Po0.005) working memory impairment. Fimbria-fornix lesions also caused a significant (Po0.05) memory impairment. Interestingly, clozapine had the opposite effect on working memory in the lesioned vs sham-operated rats. In contrast to its effects in controls, clozapine (1.25 mg/kg) significantly (Po0.05) attenuated the working memory deficit caused by fimbria-fornix lesions. Nicotine (0.2 mg/kg) did not quite significantly improve memory in lesioned rats. The effects of clozapine and nicotine were not additive in the lesioned rats. This study demonstrates the efficacy of clozapine in improving working memory in fimbria-fornix-lesioned rats, whereas it causes impairments in intact rats. Therapeutic treatment with clozapine in people with malfunctions of the hippocampus such as seen in schizophrenia may improve cognitive performance, whereas the same doses of clozapine may impair memory in individuals without hippocampal malfunction.

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Section: Clozapine Effects At Diverse Receptorsmentioning

confidence: 95%

Reversal of Clozapine Effects on Working Memory in Rats with Fimbria–Fornix Lesions

Addy

Pocivavsek

Levin

2005

Neuropsychopharmacol

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“…We propose, on the basis of the functional properties and expression of ErbB4 and D4Rs in PV+ interneurons in the dorsal lateral prefrontal cortex (21,25) and hippocampus (this study), as well as their effects on KA-induced γ oscillations and plasticity (18,19), that these receptors are well situated to modulate network activity that impacts cognition. The fact that D4R-specific antagonists were found to be ineffective as antipsychotics for the treatment of schizophrenia (44,45) does not negate the potential use of D4R targeting drugs to treat cognitive deficits, as suggested by studies in primates and rodents (39,40,46,47). The colocalization of D4 and ErbB4 receptors on PV+ interneurons, activity of which is critically important for regulating excitatory/inhibitory balance and cognitive functions (31), perhaps by optimizing "signal-tonoise" ratio of cortical microcircuits (15), makes these receptor systems attractive targets for modulating network activities that underlie cognition.…”

Section: Significance Of Erbb4 and D4 Receptor Expression In Pv+ Gabamentioning

confidence: 99%

Neuregulin and dopamine modulation of hippocampal gamma oscillations is dependent on dopamine D4 receptors

Andersson

Johnston

Herman

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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The neuregulin/ErbB signaling network is genetically associated with schizophrenia and modulates hippocampal γ oscillationsa type of neuronal network activity important for higher brain processes and altered in psychiatric disorders. Because neuregulin-1 (NRG-1) dramatically increases extracellular dopamine levels in the hippocampus, we investigated the relationship between NRG/ErbB and dopamine signaling in hippocampal γ oscillations. Using agonists for different D1-and D2-type dopamine receptors, we found that the D4 receptor (D4R) agonist PD168077, but not D1/D5 and D2/D3 agonists, increases γ oscillation power, and its effect is blocked by the highly specific D4R antagonist L-745,870. Using double in situ hybridization and immunofluorescence histochemistry, we show that hippocampal D4R mRNA and protein are more highly expressed in GAD67-positive GABAergic interneurons, many of which express the NRG-1 receptor ErbB4. Importantly, D4 and ErbB4 receptors are coexpressed in parvalbumin-positive basket cells that are critical for γ oscillations. Last, we report that D4R activation is essential for the effects of NRG-1 on network activity because L-745,870 and the atypical antipsychotic clozapine dramatically reduce the NRG-1-induced increase in γ oscillation power. This unique link between D4R and ErbB4 signaling on γ oscillation power, and their coexpression in parvalbumin-expressing interneurons, suggests a cellular mechanism that may be compromised in different psychiatric disorders affecting cognitive control. These findings are important given the association of a DRD4 polymorphism with alterations in attention, working memory, and γ oscillations, and suggest potential benefits of D4R modulators for targeting cognitive deficits.fast-spiking interneuron | attention-deficit/hyperactivity disorder | cognitive enhancers | excitatory/inhibitory balance G amma oscillations (30-80 Hz) are rhythmic local field potentials that synchronize local circuit activity and play an important role in higher brain processes, such as learning, memory, and cognition. Impairments in general synchronized network activity, in particular γ oscillations, are core features of several neurological and psychiatric disorders, such as schizophrenia, in which perception, cognition, and working memory are affected (1, 2). γ oscillation power is impaired during cognitive tasks in firstepisode schizophrenia independent of medication, indicating that these alterations are independent of disease history (3).Pharmacological studies in anesthetized rats and genetic studies in mutant mice emphasize the importance of recurrent excitatory and inhibitory interactions for the generation of γ oscillations in hippocampal networks (4). The development of methodologies to study neural network activity in acute hippocampal slices in vitro, whereby γ oscillations are induced by the activation of metabotropic glutamate receptors (5), muscarinic acetylcholine receptors (6), or kainate (KA) receptors (7), has been instrumental to identify cellular and molecular...

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“…Follow-up work indicates that the contribution of DA to spatial working memory is mediated by the D 1 (Arnsten et al, 1994;Sawaguchi and Goldman-Rakic, 1991) and D 2 families of receptors (Arnsten et al, 1995;Zhang et al, 2004) that may influence mnemonic and response aspects of information processing within primate PFC (Wang et al, 2004;Williams and Goldman-Rakic et al, 1995). Other research attests to the importance of NA transmission, and the balanced activity of a 1 -and a 2 -adrenoceptors, in protecting the cognitive functions of the lateral PFC from the deleterious effects of stress (Arnsten, 2000;Arnsten and Contant, 1992;Arnsten and Jentsch, 1997;Birnbaum et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

Low Doses of Δ-9 Tetrahydrocannabinol (THC) Have Divergent Effects on Short-Term Spatial Memory in Young, Healthy Adults

Mäkelä

Wakeley

Gijsman

et al. 2005

Neuropsychopharmacol

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Evidence suggests that manipulating spatial information within working memory depends upon a circuitry organized around the prefrontal cortex (PFC) and the activity of the catecholamine systems. Other evidence attests to the effects of D-9 tetrahydrocannabinol (THC) on short-term spatial memory function, most probably involving CB 1 receptor activity within hippocampal circuitries. At the current time, there have been no systematic studies of the effects of THC on spatial working memory in human subjects using tasks known to depend upon frontotemporal neural circuitries. We examined the effects of a single sublingual 5 mg dose of THC on a test of spatial working memory (requiring active manipulation of remembered spatial information for the management of future behavior) and a test of spatial span (requiring only the reproduction of sequences of previously presented spatial cues). In all, 19 healthy adults were administered 5 mg THC and placebo in a double-blind, placebo-controlled, within-subject, crossover design. Male participants performed more accurately than female participants. THC significantly enhanced spatial working memory performance of female participants. By contrast, male and female participants produced more intrusion errors during performance of the Spatial Span task. These results suggest that THC has relatively complex effects on spatial memory in human subjects, perhaps reflecting altered CB 1 receptor activity within frontotemporal circuits or altered activity of mesocortical dopaminergic pathways in PFC areas associated with spatial memory.

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Regulation of Working Memory by Dopamine D4 Receptor in Rats

Cited by 69 publications

References 52 publications

Reversal of Clozapine Effects on Working Memory in Rats with Fimbria–Fornix Lesions

Reversal of Clozapine Effects on Working Memory in Rats with Fimbria–Fornix Lesions

Neuregulin and dopamine modulation of hippocampal gamma oscillations is dependent on dopamine D4 receptors

Low Doses of Δ-9 Tetrahydrocannabinol (THC) Have Divergent Effects on Short-Term Spatial Memory in Young, Healthy Adults

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