Teresa Tallerico

Dopamine receptor contribution to the action of PCP, LSD and ketamine psychotomimetics

Although phencyclidine and ketamine are used to model a hypoglutamate theory of schizophrenia, their selectivity for NMDA receptors has been questioned. To determine the affinities of phencyclidine, ketamine, dizocilpine and LSD for the functional high-affinity state of the dopamine D2 receptor, D2High, their dissociation constants (Ki) were obtained on [3H]domperidone binding to human cloned dopamine D2 receptors. Phencyclidine had a high affinity for D2High with a Ki of 2.7 nM, in contrast to its low affinity for the NMDA receptor, with a Ki of 313 nM, as labeled by [3H]dizocilpine on rat striatal tissue. Ketamine also had a high affinity for D2High with a Ki of 55 nM, an affinity higher than its 3100 nM Ki for the NMDA sites. Dizocilpine had a Ki of 0.3 nM at D2High, but a Kd of 1.8 nM at the NMDA receptor. LSD had a Ki of 2 nM at D2High. Because the psychotomimetics had higher potency at D2High than at the NMDA site, the psychotomimetic action of these drugs must have a major contribution from D2 agonism. Because these drugs have a combined action on both dopamine receptors and NMDA receptors, these drugs, when given in vivo, test a combined hyperdopamine and hypoglutamate theory of psychosis.

Dopamine D2 receptor dimers in human and rat brain

In order to determine whether dimers of dopamine D2 receptors can occur in mammalian brain, rat and human brain striatal membranes were photolabelled with two radioactive photoaffinity compounds selective for dopamine D2 receptors, [125I]azidophenethylspiperone and [125I]‐4‐azido‐5‐iodonemonapride. It was found that [125I]azidophenethylspiperone only labelled the D2 monomer, while [125I]‐4‐azido‐5‐iodonemonapride labelled both D2 monomers and dimers, despite the fact that very high concentrations (6 nM) of both radiocompounds were used. In addition, human cloned D2 receptors were probed with a D2‐specific antibody, revealing multiple bands indicating the existence of trimers, tetramers and pentamers of D2 receptors. The different D2‐binding patterns of the spiperone and benzamide congeners may explain the different densities of dopamine D2 receptors found with these two radioligands in human brain positron tomography in health and disease.

Schizophrenia: elevated mRNA for dopamine D2Longer receptors in frontal cortex

Because dopamine D2 receptors are the primary targets for antipsychotic drugs, including clozapine and quetiapine, and because some studies have found D2 receptors to be elevated in schizophrenia, we examined the mRNA of three forms of the D2 receptor, particularly the new form of the dopamine D2 receptor, D2(Longer), in post-mortem brains from patients who died with schizophrenia. Using quantitative competitive RT-PCR (reverse transcriptase-polymerase chain reaction), the D2(Longer) mRNA was higher in the frontal cortex, compared to control tissues. The mRNA concentration of D2(Long) and D2(Short) was also higher in the frontal cortex, compared to control tissues. Although most of the schizophrenia patients had received different antipsychotic drugs for varying periods of time, the mRNA of D2(Longer), as well as that for D2(Long) and D2(Short), in such medicated tissues was similar to that in a frontal cortex tissue from a patient who had reliably never received antipsychotic drugs. It is possible, therefore, that the elevation of the mRNAs for D2(Longer), D2(Long) and D2(Short) in the frontal cortex may be related to the disease of schizophrenia itself.

Nogo A, B and C expression in schizophrenia, depression and bipolar frontal cortex, and correlation of Nogo expression with CAA/TATC polymorphism in 3'-UTR

Schizophrenia may result from altered gene expression leading to abnormal neurodevelopment. In a search for genes with altered expression in schizophrenia, our previous work on human frontal cerebral cortex found the mRNA of Nogo, a myelin-associated protein which inhibits the outgrowth of neurites and nerve terminals, to be overexpressed in schizophrenia. Because those earlier results did not examine tissues for the separate Nogo A, B and C isoforms from age- and sex-matched individuals, we repeated the study for all three isoforms, using a new set of tissues from matched individuals, and using the more accurate method of quantitative real-time PCR (polymerase chain reaction). We found Nogo C to be overexpressed by 26% in the schizophrenia tissues, which is in accordance with our earlier results. The expression of Nogo B was statistically significantly reduced by 17% in the frontal cortices from individuals who had been diagnosed as having had severe depression. Furthermore, we show that there is a direct correlation between the expression of Nogo A and C and the presence of alleles with a CAA insert, irrespective of disease status. While upregulation of Nogo C expression may play a role in schizophrenia, altered Nogo B may contribute to the clinical condition of depression. Nogo A showed a statistically non-significant increase in expression in schizophrenia.

Schizophrenia: elevated mRNA for calcium-calmodulin-dependent protein kinase IIβ in frontal cortex

Because amphetamine releases two to three times more dopamine in schizophrenia patients than in control subjects, and because calcium-calmodulin-dependent protein kinase II has a key role in the enhanced action of amphetamine-induced dopamine release in rats, the synaptic content of calcium-calmodulin-dependent protein kinase IIbeta mRNA was measured (by quantitative competitive RT-PCR; reverse transcriptase-polymerase chain reaction) in seven frontal cerebral cortices of post-mortem brains from patients who had schizophrenia and in seven control tissues. The results indicate that the mRNA of this kinase is elevated in the schizophrenia frontal cortex.

Role of dopamine D2, D4 and serotonin(2A) receptors in antipsychotic and anticataleptic action.

1Department of Pharmacology ,Medical Science Building , Room 4344 , University of Toronto , Toronto , Ontario , Canada M5S 1A8 , 2Department of Biological Research Neuroscience SBU , Hoechst-Roussel Pharmaceuticals Inc ., PO Box 2500 , Route 202-206 North , Somerville ,NJ 08876 , USA , 3Molecular Neurobiology Laboratory ,Clarke Institute of Psychiatry , 250 College Street , Toronto , Canada M5T1R8 and 4Allelix

A serotonin-4 receptor-like pseudogene in humans

During a search for new G-protein-linked receptors for dopamine and serotonin, we found a serotonin-4 receptor-like pseudogene. This receptor-like pseudogene is intronless, contains an in-frame stop codon following transmembrane-3, and has two one-nucleotide insertions between transmembrane-5 and -6 regions which alter the reading frame. The predicted amino acid sequence of the human pseudogene is about 35% identical with that of the rat serotonin-4 receptor.

Parent of origin effect and differential allelic expression of BDNF Val66Met in suicidal behaviour

Abstract Objectives Brain-derived neurotrophic factor (BDNF) plays an important role in the pathophysiology of mood disorders and may also be involved in suicidal behaviour since BDNF levels are decreased in brain and plasma of suicide victims. Because the differential allelic expression of Val66Met BDNF gene on suicidal behaviour has not been investigated, we analyzed the parent-of-origin effect (POE) in suicide attempters and the differential expression of BDNF Val66Met alleles in suicide victims. Methods We performed a family-based association study and ETDT analyses of the Val66Met polymorphism in nuclear families with at least one subject affected by major psychosis with suicidal behaviour, and compared allele-specific mRNA levels in post-mortem brain samples from suicide and non-suicide victims. The subjects included in this study have diagnosis of schizophrenia, bipolar disorder type I and type II. Results Allele 3 in the GT repeat polymorphism was transmitted significantly more often to patients who attempted suicide (maternal transmissions: 46/22, P = 0.003; paternal transmissions: 55/30, P = 0.006). There was no significant difference between maternal and paternal transmission ratios. Furthermore, there was no significant difference in the ratio of Val/Met-specific mRNA expression between suicide victims and controls. Conclusions These data do not support a role for allelic imbalance or POE of BDNF for suicidal behaviour in major psychoses.

A human serotonin-7 receptor pseudogene

Although the serotonin-7 receptor was cloned several years ago, its localization in brain tissues remains confusing because of the existence of a related expressed pseudogene, the sequence of which has not hitherto been reported. During the course of searching for related receptor genes, we also searched for this pseudogene to determine its sequence. Human genomic DNA was screened for dopamine and serotonin receptor-like genes, using the polymerase chain reaction method and degenerate oligonucleotide primers based on the similar sequences in the transmembrane-6 and -7 regions of the serotonin-5A, the serotonin-7, and the dopamine D2, D3 and D4 receptors. This resulted in one of the clones having a 115 bp fragment, of which 89% of the bases were identical to the transmembrane-6 and -7 regions of the serotonin-7 receptor sequence. The fragment was radiolabelled and used to screen a human fetal brain cDNA library. A novel cDNA clone of 1326 bp was isolated. Based on the nucleotide sequence, 88% of the bases in this sequence of the pseudogene are identical to the human serotonin-7 receptor coding sequence. However, compared to the serotonin-7 receptor DNA sequence, the pseudogene sequence has nucleotide deletions and insertions, resulting in frame-shifts and stop codons. It was concluded that this sequence represented a pseudogene related to the serotonin-7 receptor gene.