M M Herman scite author profile

The identification of five dopamine receptor subtypes has given the dopamine hypothesis of schizophrenia new life. The D4 receptor is particularly intriguing because it binds clozapine with high affinity. Putative D4 receptors were labeled in postmortem human brain by subtracting the binding of a saturating concentration of 3H-raclopride (6 nM, which labels D2 and D3 receptors) from that labeled by a saturating concentration of [3H]YM 0915–2 (1–1.3 nM, which labels D2, D3, and D4 receptors). In the control brain, putative D4 receptors show a homogenous distribution in striatum and nucleus accumbens. This is also true in schizophrenic brains, although the levels are significantly higher (twofold). These data are inconsistent with mRNA studies that have shown negligible amounts in striatum and accumbens, with modest amounts reported in most of cerebral cortex. These findings suggest that the putative D4 receptors are not synthesized in this region, but are presynaptically localized on striatal afferent terminals. Our findings confirm and extend the report of Seeman et al. (1993). Extension of these findings into the nucleus accumbens is important because of its extensive connections to the limbic system while the putamen is exclusively “motor” striatum.

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Evidence for a deficit in cholinergic interneurons in the striatum in schizophrenia

Holt

et al. 1999

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Contrasting changes in DRD1 and DRD2 splice variant expression in schizophrenia and affective disorders, and associations with SNPs in postmortem brain

Kaalund

Newburn

et al. 2013

Mol Psychiatry

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Dopamine 2 receptor (DRD2) is of major interest to the pathophysiology of schizophrenia (SCZ) both as a target for antipsychotic drug action as well as a SCZ-associated risk gene. The dopamine 1 receptor (DRD1) is thought to mediate some of the cognitive deficits in SCZ, including impairment of working memory that relies on normal dorsolateral prefrontal cortex (DLPFC) function. To better understand the association of dopamine receptors with SCZ, we studied the expression of three DRD2 splice variants and the DRD1 transcript in DLPFC, hippocampus and caudate nucleus in a large cohort of subjects (~700), including patients with SCZ, affective disorders and nonpsychiatric controls (from 14th gestational week to 85 years of age), and examined genotype-expression associations of 278 single-nucleotide polymorphisms (SNPs) located in or near DRD2 and DRD1 genes. Expression of D2S mRNA and D2S/D2-long (D2L) ratio were significantly increased in DLPFC of patients with SCZ relative to controls (P<0.0001 and P<0.0001, respectively), whereas D2L, D2Longer and DRD1 were decreased (P<0.0001). Patients with affective disorders showed an opposite pattern: reduced expression of D2S (major depressive disorder, P<0.0001) and increased expression of D2L and DRD1 (bipolar disorder, P<0.0001). Moreover, SCZ-associated risk alleles at rs1079727, rs1076560 and rs2283265 predicted increased D2S/D2L expression ratio (P<0.05) in control individuals. Our data suggest that altered splicing of DRD2 and expression of DRD1 may constitute a pathophysiological mechanism in risk for SCZ and affective disorders. The association between SCZ risk-associated polymorphism and the ratio of D2S/D2L is consistent with this possibility.

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The dopamine transporter and dopamine D2 receptor messenger RNAs are differentially expressed in limbic- and motor-related subpopulations of human mesencephalic neurons

Hurd¹,

Pristupa²,

Herman³

et al. 1994

Neuroscience

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M M Herman

Distribution of putative D4 dopamine receptors in postmortem striatum from patients with schizophrenia

Evidence for a deficit in cholinergic interneurons in the striatum in schizophrenia

Contrasting changes in DRD1 and DRD2 splice variant expression in schizophrenia and affective disorders, and associations with SNPs in postmortem brain

The dopamine transporter and dopamine D2 receptor messenger RNAs are differentially expressed in limbic- and motor-related subpopulations of human mesencephalic neurons

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