D1 and D2 Receptor Antagonist Injections in the Prefrontal Cortex Selectively Impair Spatial Learning in Mice

Rinaldi, Arianna; Mandillo, Silvia; Oliverio, Alberto; Mele, Andrea

doi:10.1038/sj.npp.1301176

Cited by 62 publications

(48 citation statements)

References 67 publications

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“…Similar to the present findings, DA receptors blockade within the prefrontal cortex impairs short-term spatial memory, and does not affect novel object discrimination (Rinaldi et al 2007). However, the same pharmacological manipulations within the ventral striatum produce receptors subtype-dependent effect; in particular, D2 dopamine receptor blockade affects both spatial and non-spatial novelty discrimination (Coccurello et al 2000;Rinaldi et al 2007).…”

Section: Discussionsupporting

confidence: 76%

“…Regarding the relative contribution of different DA terminal regions in processing the same kind of spatial information, previous studies reported the effects of D1 and D2 receptor antagonists administration within the prefrontal cortex and the ventral striatum in the same spatial task (Coccurello et al 2000;Rinaldi et al 2007). Similar to the present findings, DA receptors blockade within the prefrontal cortex impairs short-term spatial memory, and does not affect novel object discrimination (Rinaldi et al 2007).…”

Section: Discussionmentioning

confidence: 98%

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Spatial deficits in a mouse model of Parkinson disease

et al. 2007

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Section: Discussionsupporting

confidence: 76%

Section: Discussionmentioning

confidence: 98%

Spatial deficits in a mouse model of Parkinson disease

et al. 2007

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“…Given that this effect was only seen in animals that received extended access to cocaine, it is possible that dysregulation of dopamine D2 receptor signaling contributes to the cognitive deficit, which was also only seen in the LgA group. The integrity of D2 receptor function is closely associated with the ability to manipulate acutely relevant information in prefrontal regions (Wang et al, 2004) and inhibition of D2 receptor activation in both humans and animals, either by antagonist administration or genetic manipulation, results in a decrease in the acquisition of working memory task rules (Glickstein et al, 2005), attentional set-shifting (Tost et al, 2006), and spatial working memory (Von Huben et al, 2006;Rinaldi et al, 2007). This is consistent with the idea that cocaine impaired cognitive flexibility primarily by disrupting prefrontal D2 receptor function.…”

Section: Effects Of Past Experience With Self-administered Cocaine Onsupporting

confidence: 72%

Persistent Alterations in Cognitive Function and Prefrontal Dopamine D2 Receptors Following Extended, but Not Limited, Access to Self-Administered Cocaine

Briand

Flagel²,

García-Fuster³

et al. 2008

Neuropsychopharmacol

123

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Drug addicts have deficits in frontocortical function and cognition even long after the discontinuation of drug use. It is not clear, however, whether the cognitive deficits are a consequence of drug use, or are present prior to drug use, and thus are a potential predisposing factor for addiction. To determine if self-administration of cocaine is capable of producing long-lasting alterations in cognition, rats were allowed access to cocaine for either 1 h/day (short access, ShA) or 6 h/day (long access, LgA) for 3 weeks. Between 1 and 30 days after the last self-administration session, we examined performance on a cognitively demanding test of sustained attention that requires an intact medial prefrontal cortex. The expression levels of dopamine D1 and D2 receptor mRNA and D2 protein in the prefrontal cortex were also examined. Early after discontinuation of drug use, LgA (but not ShA) animals were markedly impaired on the sustained attention task. Although the LgA animals improved over time, they continued to show a persistent pattern of performance deficits indicative of a disruption of cognitive flexibility up to 30 days after the discontinuation of drug use. This was accompanied by a significant decrease in DA D2 (but not D1) mRNA in the medial and orbital prefrontal cortex, and D2 receptor protein in the medial prefrontal cortex of LgA (but not ShA) animals. These findings establish that repeated cocaine use is capable of producing persistent alterations in the prefrontal cortex and in cognitive function, and illustrate the usefulness of extended access self-administration procedures for studying the neurobiology of addiction.

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“…The prefrontal dopaminergic function is partly regulated by the enzyme catechol-O-methyltransferase (COMT), which inactivates the synaptic dopamine acting upon D1, the main dopamine receptor at the neocortex [Lidow and Rakic, 1992]. D1 seems to play a crucial role in cognitive processes such as attention [Rinaldi et al, 2007], reward-related incentive learning [Beninger and Miller 1998], executive function, and working memory [Rybakowski et al, 2005]. There appears to be an optimal level for D1 stimulation in regulating prefrontal function and working memory [MeyerLindenberg et al, 2005;Williams and Castner, 2006], which not only relies upon binding efficiency or receptor density [Okubo et al, 1997;Abi-Dargham et al, 2002] but also on its combination with COMT activity and its effects on dopamine levels [Slifstein et al, 2008].…”

Section: Introductionmentioning

confidence: 99%

Sexually dimorphic interaction between the DRD1 and COMT genes in schizophrenia

Hoenicka

Garrido

Ponce

et al. 2010

American J of Med Genetics Pt B

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Dopaminergic dysfunction in the prefrontal cortex (PFC) is involved in the pathophysiology of schizophrenia. In the PFC, dopamine signalling largely depends on the D1 receptors, which are coded by the DRD1 gene, and on the regulation of dopamine levels by the enzyme catechol-O-methyltransferase (COMT). Here, we investigate the role of DRD1 and its interaction with the COMT gene in schizophrenic patients. In two gender-limited independent patient and control samples, we genotype five Tag single nucleotide polymorphisms (tagSNPs) of DRD1. The DRD1 SNP and haplotype associations, as well as interaction effects with the Val158Met COMT SNP were analyzed. In the male sample, we found the rs11746641 and rs11749676 DRD1 SNPs were associated with schizophrenia. Haplotype analyses identified the T-A-T-C-T variant related to a protective effect (P = 0.008) and the G-G-T-C-C variant that showed a tendency to be a risk factor for the disorder (P = 0.012). A logistic regression analysis revealed a significant pattern of interaction between DRD1 and COMT for both the rs11746641 (P = 0.002) and rs11749676 (P = 4.5 x 10(-5)) SNPs. DRD1-associated haplotypes were exclusively related to schizophrenia in the Val homozygous subgroup of patients (T-A-T-C-T: P = 0.003; G-G-T-C-C: P = 0.006). In females, none of the DRD1 SNPs were linked to the disorder. Our genetic data suggest that DRD1 and COMT are epistatically associated with protection against and the risk of developing schizophrenia in a gender-dependent fashion, and support the role of dopamine dysfunction at the PFC in the pathophysiology of this disorder.

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D1 and D2 Receptor Antagonist Injections in the Prefrontal Cortex Selectively Impair Spatial Learning in Mice

Cited by 62 publications

References 67 publications

Spatial deficits in a mouse model of Parkinson disease

Spatial deficits in a mouse model of Parkinson disease

Persistent Alterations in Cognitive Function and Prefrontal Dopamine D2 Receptors Following Extended, but Not Limited, Access to Self-Administered Cocaine

Sexually dimorphic interaction between the DRD1 and COMT genes in schizophrenia

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