Idiopathic environmental intolerance: increased prevalence of panic disorder-associated cholecystokinin B receptor allele 7.

Background: A growing body of evidence suggests that idiopathic environmental intolerance (IEI) is a psychophysiologic disorder with prominent features of anxiety/panic and somatization, although proponents of a toxicogenic explanation claim, despite a lack of convincing evidence, that symptoms arise from exposure to otherwise nonnoxious environmental agents. Patient behaviour is characterized by strenuous avoidance of perceived triggers to the point of severe impairment of normal social and vocational functioning. IEI proponents claim that previous studies showing a high prevalence of psychopathology in patients with IEI and studies showing panic responses to known panicogenic challenges merely reflect the anxiety-producing result of living with IEI.

Schizophrenia: elevated mRNA for dopamine D2(Longer) 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.

New dopamine receptor, D2(Longer), with unique TG splice site, in human brain.

Brain dopamine receptor agonists alleviate the signs of Parkinson's disease, while dopamine receptor antagonists alleviate hallucinations and delusions in psychosis. The dopamine type 2 receptor (or D2) is blocked by antipsychotic drugs, including even the "atypical" drugs such as clozapine or remoxipride, in direct relation to their clinical potencies. Compared to the long form of the D2 receptor (D2(Long)), the short form (D2(Short)) may be three times more sensitive to benzamide antipsychotic drugs.

Dopamine D2 receptor promoter polymorphism: no association with schizophrenia.

A functional polymorphism in the promoter region of the dopamine D2 receptor gene, the -141C Del allele, which may be associated with schizophrenia susceptibility, has previously been described in a Japanese sample. The present study was done in order to examine whether such an association would also be found in a North American schizophrenia patient population. However, analysis of the -141C Del allele frequency in the present group of schizophrenia patients (n = 50) and control subjects (n = 51) did not identify any significant differences.

The human serotonin-7 receptor pseudogene: variation and chromosome location.

We report a variation of the pseudogene for the serotonin-7 receptor in human DNA. Human genomic DNA was amplified, using the polymerase chain reaction method and degenerate oligonucleotide primers for serotonin receptor-like genes. A novel gene DNA sequence of 1325 bp was found.

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.

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.

A polymorphic dinucleotide repeat in the human dopamine D5 receptor gene promoter.

Previously, we have reported the cloning and characterization of the 5'-flanking region of the human dopamine D5 receptor encoding gene (D5) and that the major transactivation domain was 119-182 bp upstream of the transcriptional start site [Beischlag, T.V. et al.

Dopamine D4 receptor variant in Africans, D4valine194glycine, is insensitive to dopamine and clozapine: report of a homozygous individual.

The D4Valine194Glycine receptor is a variant of the dopamine D4 receptor and is found in 12.5% of the Afro-Caribbean population. Glycine replaces valine at a position one amino acid away from a serine which is critical for the attachment of dopamine.

Dopamine D4 receptor variant, D4GLYCINE194, in Africans, but not in Caucasians: no association with schizophrenia.

Because antipsychotic drugs selectively block dopamine receptors and since dopamine D4 receptors are elevated sixfold in postmortem schizophrenia brain, we searched for possible abnormalities in the coding region of the genomic DNA sequence for the dopamine D4 receptor in control and schizophrenia tissues. The DNA sequence for the first 250 bases of exon 3 of this receptor was examined in the genomic DNA from 296 control individuals and 58 schizophrenics. Twenty-three out of 183 control blacks (12.

Dopamine receptors labelled by PHNO.

Since the high-affinity state of dopamine D2 receptors may be abnormal in psychomotor diseases, it is desirable to develop a radioactive agonist to label this high-affinity site for possible clinical diagnostic use. (+)PHNO is a selective D2 agonist used to treat Parkinson's disease. We prepared [3H](+)PHNO from allyl-des-propyl(+)PHNO.

Schizophrenia: normal sequence in the dopamine D2 receptor region that couples to G-proteins. DNA polymorphisms in D2.

Because dopamine (DA) D2 receptors are a target in neuroleptic therapy and have been found to be elevated in schizophrenia, the human DA D2 receptor gene was examined for possible abnormalities in schizophrenia. Moreover, since D2 receptors in psychosis have a reduced coupling to D1 receptors, the cytoplasmic third loop of D2 was chosen for deoxyribonucleic acid (DNA) sequencing, since this region is essential for coupling to G-proteins. This region also contains exon 5, which is expressed in the long form of D2, but not in the short form of D2.

Schizophrenia: dopamine D1 receptor sequence is normal, but has DNA polymorphisms.

Genes that regulate dopamine (DA) receptors may underlie the overactive DA system in schizophrenia. Since it is known that there is an abnormally reduced or absent regulation of the DA D2 receptor by the DA D1 receptor in the postmortem schizophrenia brain, the human DA D1 receptor gene was sequenced from genomic deoxyribonucleic acid (DNA) of seven schizophrenic individuals. The tissues from two schizophrenics had previously been found to have a reduced link between DA D1 and D2 receptors.

Link between D1 and D2 dopamine receptors is reduced in schizophrenia and Huntington diseased brain.

Dopamine receptor types D1 and D2 can oppose or enhance each other's actions for electrical, biochemical, and psychomotor effects. We report a D1-D2 interaction in homogenized tissue as revealed by ligand binding. D2 agonists lowered the binding of [3H]raclopride to D2 receptors in striatal and anterior pituitary tissues.

Dopamine D1 and D2 receptor selectivities of agonists and antagonists.

The selectivities of various dopamine agonists and antagonists for dopamine D1 and D2 receptors were obtained by comparing their relative dissociation constants for inhibiting the binding of [3H]SCH 23390 at D1 receptors (calf caudate nucleus) and at D2 receptors (pig anterior pituitary tissue). The most selective agonists were SK&F 38393 (for D1) and (+)-PHNO (for D2), while the most selective antagonists were SCH 23390 (for D1) and raclopride or eticlopride (for D2).

Bimodal distribution of dopamine receptor densities in brains of schizophrenics.

The dopamine hypothesis of schizophrenia was examined by measuring the density of dopamine receptors in the postmortem brains of 81 control subjects and 59 schizophrenics from four different countries. The densities of dopamine receptors in the tissues from the schizophrenic patients had a bimodal distribution in the caudate nucleus, putamen, and nucleus accumbens. One mode occurred 25 percent above the control density, and a second mode occurred at a density 2.

Dopamine receptor parameters detected by [3H]spiperone depend on tissue concentration: analysis and examples.

The binding of lipophilic radioligands to homogenized tissue was investigated with the help of a simple, two-component model: a specific component reflects binding to a single and uniform population of sites; a nonspecific component reflects partitioning into the membrane and the entrapment of some drug present in the aqueous phase prior to separation of the particulate fraction. The results indicate that the capacity and the affinity of the receptor may be underestimated when the data are analyzed in terms of total rather than free radioligand. Errors in capacity arise when for a significant fraction of the radioligand access to the receptor is blocked by an unlabelled drug and this appears as nonspecific binding.

Neuroleptics have identical potencies in human brain limbic and putamen regions.

In order to examine whether some neuroleptic drugs were specifically more potent on human limbic dopamine receptors than on striatal dopamine receptors, we tested the potency of eight neuroleptics on their ability to inhibit the binding of [3H]spiperone to D2 dopamine receptors in human putamen and nucleus accumbens. Each of the neuroleptics had an identical potency in both tissues, the IC50 values being 0.2 nM for spiperone, 2.

Anti-myosin stains chromaffin cells.

The presence in fixed chromaffin cells of antigenic sites for a myosin antibody was demonstrated using immunofluorescence techniques. Tests on viable cells showed that at least some of the antigenic sites seem to be localized on or close to the cell surface and explained the cell agglutination that occurred with the addition of the myosin antibody to cells isolated by a method described in this paper.

Isolation and characterization of myosin from the adrenal medulla.

A protein with adenosine triphosphatase activity was isolated from bovine adrenal medulla and subsequently purified by ammonium sulfate precipitation and agarose gel filtration using a discontinuous two-buffer system. Characterization of this protein by polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate, by assay of the activity of Ca2+, K(+)-EDTA and Mg2+ dependent adenosine triphosphatases by amino acid analysis and by electron microscopy has shown that the adrenal medullary myosin closely resembles those myosins isolated from muscle and other non-muscle cells. The possible roles of myosin in the adrenal medulla are discussed.