Rapid increase of phenylethanolamine N-methyltransferase by environmental stress in an inbred mouse strains.

The activity of-phenylethanolamine N-methyltransferase in mice of the C57Bl/Ka strain was determined after a 4 degrees C stress. The enzyme activity increased 1.2-fold at the end of 3 hours and by 1.4-fold by the end of 6 hours of the stress. The results are in contrast to those from other species with intact animals in which the enzyme changes only after several days of chronic stress. Cycloheximide prevents the rise in enzyme activity, suggesting the increase may be due to protein synthesis. The increase may provide a model system for studying regulation of catecholamine biosynthetic enzymes.

Narcolepsy: biogenic amine deficits in an animal model.

Concentrations of biogenic amine metabolites in discrete brain areas differed significantly between dogs with genetically transmitted narcolepsy and age- and breed-matched controls. Dopamine and 3,4-dihydroxyphenylacetic acid were consistently elevated in the brains of narcoleptic animals, while homovanillic acid was not. Narcoleptic animals consistently exhibited lower utilization of dopamine and higher intraneuronal degradation of dopamine but no uniform decrease in serotonin utilization. Hence neuropathology appears to be associated with genetically transmitted canine narcolepsy. The data indicate a nonglobal depression of dopamine utilization or turnover or both.

Isolation and characterization of a novel cDNA clone encoding a homeodomain that is developmentally regulated in the ventral forebrain.

A complementary DNA, Tes-1, of a novel homeodomain protein has been cloned, and its pattern of expression has been characterized. It is a structural homolog of Distal-less, a homeodomain-encoding gene in D. melanogaster. Its expression is developmentally regulated and is limited to structures in the head. Within the central nervous system of the midgestation mouse embryo, it is expressed exclusively in the ventral forebrain. It is likely that Tes-1 plays a regulatory role in the development of this complex neural structure.

Autism and the X chromosome. Multipoint sib-pair analysis.

BACKGROUND: Genetic factors undoubtedly play a major etiologic role in autism, but how it is inherited remains unanswered. The increased incidence in males suggests possible involvement of the X chromosome. METHODS: Using data from 38 multiplex families with autism (2 or more autistic siblings), we performed a multipoint sib-pair linkage analysis between autism and 35 microsatellite markers located on the X chromosome. The model included a single parameter, the risk ratio lambda xs (i.e., ratio of risk to siblings compared with the population prevalence), owing to an X-linked gene. Different lambda xs values were assumed and regions of exclusion were established. RESULTS: The entire X chromosome could be excluded for a lambda xs value of 4. The ability to exclude an X-linked gene decreased with smaller lambda xs values, and some positive evidence was obtained with smaller values. A maximum lod score of 1.24 was obtained at locus DXS424 with a lambda xs value of 1.5. CONCLUSIONS: We were able to exclude any moderate to strong gene effect causing autism on the X chromosome. Smaller gene effects (lambda xs < 4) could not be excluded, in particular, a gene of small effect located between DXS453 and DXS1001.

N5,10-methylenetetrahydrofolate reductase activity in autopsied brain parts of chronic schizophrenics and controls and in vitro tryptoline formation.

We and others have shown that in vitro tryptoline (tetrahydro-beta-carboline) formation accounts for the apparent-N-methylating activity of a brain enzymatic preparation using 5-methyltetrahydrofolic acid (5-MTHF) as a cofactor and tryptamines or catecholamines as substrates. This paper demonstrates that N5,10-methylenetetrahydrofolate reductase (methylene reductase) is responsible for this in vitro tryptoline formation with human brain enzymatic preparations. Others have described a folate-responsive psychosis which was associated with markedly reduced methylene reductase activity. Therefore, we also have examined this enzymatic activity in autopsied brains from chronic schizophrenics and controls. There were no statistically significant differences between activities for schizophrenics and controls in the six brain regions studied. Thus, although it is possible that some subgroup of schizophrenics may be characterized by abnormal methylene reductase activity, there does not appear to be a general association between the two.

Hyperserotonemia and platelet serotonin uptake and release in schizophrenia and affective disorders.

The authors found that platelet serotonin concentrations were significantly elevated in patients with chronic schizophrenia and in patients with bipolar major depressive disorder. High-affinity serotonin uptake was significantly reduced only in patients with bipolar major depressive disorder. Thrombin-induced release of serotonin from platelets in any patient group was not different from that of normal control subjects. Platelet serotonin storage in chronic schizophrenic patients was also not different from that in normal control subjects. These platelet findings could not be explained by age, sex, or medication variables. The authors suggest that the pharmacodynamics of platelet serotonin may be different in chronic schizophrenia than in bipolar major depressive disorder.

Regulation of 5-HT2 and 5-HT1C serotonin receptor levels. Methodology and mechanisms.

Both the 5-hydroxytryptamine2 (5-HT2) and 5-HT1c receptors may be regulated by a large number of endogenous and exogenous factors. The 5-HT2 receptors, for example, may be decreased by acute and chronic treatment with many antipsychotic agents, some antidepressants, and receptor-specific agonists. Similar to the 5-HT2 receptor, the 5-HT1c receptors may be decreased by acute and chronic treatment with the antidepressant mianserin. The 5-HT2 receptors appear to increase during perinatal development and are reported to be elevated in the frontal cortex and hippocampus of victims of suicide; the 5-HT1c receptors display supersensitivity following ablation of serotonergic terminals with 5,7-dihydroxytryptamine. The molecular details responsible for these changes remain unknown, though with the recent cloning of the cDNAs for the 5-HT2 and 5-HT1c receptors the occasion is particularly favorable for mechanistic studies aimed at determining how these alterations occur. Preliminary information suggests that developmentally induced alterations in 5-HT2 and 5-HT1c receptors may be due to transcriptional regulation while changes caused by mianserin treatment might be due to posttranslational processes (e.g., proteolysis, internalization, phosphorylation, covalent alterations). Insights into the molecular means by which 5-HT receptors are regulated could have profound influences on our understanding of pharmacologic, developmental, and psychopathologic processes.

Neurons expressing 5-HT2 receptors in the rat brain: neurochemical identification of cell types by immunocytochemistry.

The serotonin2 (5-HT2) receptor has been implicated in a number of behavioral and physiological processes. It may also play a role in cellular development and differentiation, and represents a site of action of hallucinogens and certain psychotherapeutic drugs. To better understand the functions and regulation of the 5-HT2 receptor, we have undertaken a series of studies in which we attempted to identify the specific cell types that express the receptor. This was accomplished using a variety of double-labeling strategies with an antibody we raised against the rat 5-HT2 receptor protein. In this review, we recount of some of our previously published findings and present some new data in which we identify subpopulations of cholinergic neurons in the brainstem and gamma-aminobutynic acid (GABA)ergic interneurons in the cortex that express 5-HT2 receptor immunoreactivity. Developmentally, the appearance of 5-HT2 receptor immunoreactivity occurs relatively late in teh ontogeny of the cells in which it is expressed, mostly in the early postnatal period. This argues against a significant role for this receptor in early development, though it may participate in some aspect of terminal differentiation. We discuss the significance of the cell-type-specific and temporal expression of the 5-HT2 receptor in the context of current hypotheses of neuropsychiatric disorders such as schizophrenia.

Ontogeny of 5-hydroxytryptamine2 receptor immunoreactivity in the developing rat brain.

In this study, we investigated the regional and temporal emergence of 5-hydroxytryptamine2 receptor immunoreactivity in the developing rat brain. In a qualitative immunocytochemical analysis using an antibody against the rat 5-hydroxytryptamine2 receptor protein, we visualized cells expressing the receptor in the pontine tegmentum, caudate nucleus, basal forebrain, hippocampus and neocortex of developing rats. Three potentially important periods in the developmental regulation of 5-hydroxytryptamine2 receptors were identified: the time of onset, a period of accelerated expression and hyper-elaboration, and a period of regression. In general, the onset of 5-hydroxytryptamine2 receptor immunoreactivity occurred relatively late in the ontogeny of cells in these regions, in the late prenatal and early postnatal periods. Following the perinatal onset of receptor expression, there was a rapid increase in the number of immunoreactive neurons during the first week after birth. In neocortex, there appeared to be a relative over-expression of the receptor, with an elevated density and hyper-elaboration of immunopositive neurons relative to the adult, reaching a peak at the end of the second week. There was then a gradual decrease in both the density and morphological complexity of cortical 5-hydroxytryptamine2-labelled neurons, until the adult pattern of expression was achieved at about four weeks of age. In all areas studied, cells positive for the 5-hydroxytryptamine2 receptor were first detected within the regions in which they would ultimately reside, and after the known periods of cell proliferation for these regions. These observations would argue against a role for the 5-hydroxytryptamine2 receptor as a transducer of the early developmental influences of serotonin in the central nervous system, but leave open the possibility that the receptor may participate in regulating some aspect of terminal differentiation or late maturation of the neurons on which it is found. The identification of important developmental periods in the ontogeny of 5-hydroxytryptamine2 receptors suggests time-points at which events that disrupt the normal ontogenetic pattern of expression could produce long-lasting effects on central serotonergic neurotransmission.

Immunocytochemical localization and description of neurons expressing serotonin2 receptors in the rat brain.

Serotonin2 receptors have been implicated in a variety of behavioral and physiological processes, as well as a number of neuropsychiatric disorders. To specify the brain regions and specific cell types possessing serotonin2 receptors, we conducted an immunocytochemical study of the rat brain using a polyclonal serotonin2 receptor antibody. Perfusion-fixed rat brain sections were processed for immunocytochemistry and reactivity was visualized using an immunoperoxidase reaction. Numerous small, round neurons were heavily labeled in the granular and periglomerular regions of the olfactory bulb. Heavy labeling of medium-sized multipolar and bipolar neurons was also seen in olfactory regions of the ventral forebrain, including the anterior olfactory nucleus and olfactory tubercle. Other regions of the basal forebrain exhibiting high levels of immunoreactivity were the nucleus accumbens, ventral pallidum, Islands of Calleja, fundus striatum and endopyriform nucleus. Immunoreactive neurons were also seen in the lateral amygdala. A dense band of small, round cells was stained in layer 2 of pyriform cortex. In neocortex, a very sparse and even distribution of bipolar and multipolar neurons was seen throughout layers II-VI. A much more faintly labeled population of oval cells was observed in the deep layer of retrosplenial and posterior cingulate cortex, and in the granular layer of somatosensory frontoparietal cortex. A moderate number of medium bipolar and multipolar cells were scattered throughout the neostriatum, and a moderate number of pyramidal and pyramidal-like cells were seen in the CA fields of the hippocampus. Diencephalic areas showing immunolabeling included the medial habenula and anterior pretectal nucleus, with less labeling in the ventral lateral geniculate. In the hindbrain, two dense populations of large multipolar cells were heavily labeled in the pedunculopontine and laterodorsal tegmental nuclei, with lesser labeling in the periaqueductal gray, superior colliculus, spinal trigeminal nucleus and nucleus of the solitary tract. Based on the distribution, localization and morphology of immunoreactive neurons in these regions, we hypothesize that subpopulations of serotonin2 containing cells may be GABAergic interneurons or cholinergic neurons. Further, the observed distribution suggests that the physiological effects of serotonin acting through serotonin2 receptors are mediated by a relatively small number of cells in the brain. These observations may have strong functional implications for the pharmacological treatment of certain neuropsychiatric disorders.

Brain benzodiazepine receptor characteristics in canine narcolepsy.

A regional analysis of brain benzodiazepine (BDZ) receptors was conducted in narcoleptic and normal dogs to determine whether these sites are altered in narcolepsy. It was postulated that BDZ receptors play a role in the excessive sleepiness of narcolepsy because activation of these sites in freely behaving normal animals is hypnogenic. [3H]Flunitrazepam binding sites were assessed in 11 discrete areas of the forebrain and brainstem. No consistent or statistically significant group differences in either receptor densities (Bmax) or binding affinities (Kd) were found. These findings do not support the assertion that BDZ receptors are involved in the pathogenesis of canine narcolepsy.

Muscarinic cholinergic receptors and the canine model of narcolepsy.

The role of the muscarinic cholinergic receptor in narcolepsy was examined using radioligand binding to various brain regions of normal and genetically narcoleptic Doberman pinschers. In this multi-litter study, a previous report of a proliferation of muscarinic cholinergic receptors in the brainstem was confirmed, and the concentration of the M2 receptor subtype, in particular, was elevated. This up-regulation of brainstem cholinergic receptors suggests a problem with release of acetylcholine, which, together with previous reports of an impairment of dopamine release, may be indicative of a fundamental membrane problem in narcolepsy.

Male-to-male transmission in extended pedigrees with multiple cases of autism.

Despite strong genetic influences in autism, the true mode of inheritance remains unknown. Sex differences in autism have been described in both singleton and multiplex families [Lord et al., 1982; Volkmar et al., 1993; McLennan et al., 1993; Lord, 1992]: Boys outnumber girls by 3 or 4 to 1, and so a sex-linked mode of transmission must also be considered. The key characteristic of X-linkage is that all sons of affected men are unaffected (no male-to-male transmission). In the present study, which is part of an ongoing linkage project in autism, we describe 77 multiplex autism families, 11 of who are affected cousin or half-sibling families. By using these families, it is possible to trace the path of genetic transmission and observe whether the hypothesis of X-linkage is tenable. Of 11 extended pedigrees from 77 multiplex families, six show male-to-male transmission; in these families, X-linkage can be excluded as the genetic basis for their autism. The data from the other five families are compatible with either an autosomal or an X-linked mode of transmission. The key point to emerge, then, is that autism cannot be exclusively an X-linked disorder; there must be an autosomal mode of transmission at least in some families. Thus we must consider the alternative hypotheses that autism is either entirely autosomal, or it is genetically heterogeneous, involving at least one autosomal locus with genderspecific expression, as well as a possible locus on the X-chromosome.

Molecular biology of serotonin receptors.

The past decade has seen an explosive growth in our understanding of neurotransmitter receptors and the roles they play in neurotransmission. This is particularly true of the serotonin receptors where a synergy of basic science and clinical research has not only produced a deeper understanding of serotonin receptors and their actions but also resulted in the availability of new therapeutic agents useful for treating a number of psychiatric illnesses. This chapter details our current knowledge of the major subtypes of the serotonin receptor, including recent advances in the molecular biology, pharmacology, biochemistry, and clinical correlates of these receptors.

Transcriptional control of the rat serotonin-2 receptor gene.

Previous reports have indicated that, in vivo, the serotonin-2 (5-HT2) receptor is responsive to exogenously administered glucocorticoids. The ability of the glucocorticoid receptor (GR) to influence transcription of the rat 5-HT2 receptor gene was tested in two different experimental paradigms. In both sets of experiments transcription of the 5-HT2 gene was monitored with a promoter-reporter plasmid in which the promoter for the 5-HT2 gene was driving the expression of the firefly luciferase gene. In the first, the 5-HT2 promoter-reporter plasmid was transfected directly into RS1 cells followed by dexamethasone treatment. In the second set of experiments, the cDNA encoding the GR carried on a separate expression vector was cotransfected into CCL-39 or Neuro-2a cells along with the 5-HT2 promoter-reporter plasmid. These cells were then exposed to dexamethasone. In the RS-1 and CCL-39 transfection experiments, the dexamethasone treatment caused an inhibition of transcription of the 5-HT2 promoter, whereas in the Neuro-2a cells, the dexamethasone treatment stimulated transcription from the 5-HT2 promoter. These responses were dependent on the presence of the GR. The effect of the activated GR would seem to be indirect as sequence analysis of the 4.2 kb preceding the site of transcription initiation revealed only an 11/15 nt match to a putative glucocorticoid response element (GRE), and deletion of this sequence did not alter the response to dexamethasone. Sequence analysis revealed a variety of potential response elements for other known transcription factors, including four potential AP-1 response elements.(ABSTRACT TRUNCATED AT 250 WORDS)

Transcriptional regulation of hippocampal 5-HT1a receptors by corticosteroid hormones.

5-HT1a receptors in the hippocampus play a critical role in modulating limbic system output. The activity and level of 5-HT1a receptors are modulated by glucocorticoid levels. The present study was undertaken to test the hypothesis that glucocorticoids attenuate the transcriptional activity of the 5-HT1a receptor gene. Using in situ hybridization and RNase protection assays, we observed a substantial increase in 5-HT1a mRNA expression after adrenalectomy in the same hippocampal regions in which 5-HT1a binding sites are increased. This increase in 5-HT1a mRNA expression occurs as early as 1 h after adrenalectomy and precedes the increase in receptor binding sites. Further in situ hybridization analysis showed that 5-HT1a mRNA is increased within individual hippocampal cells after adrenalectomy. Administration of dexamethasone completely prevents the adrenalectomy-induced elevation in hippocampal 5-HT1a receptor mRNA. Nuclear run-on assays showed that the rate of transcription of 5-HT1a mRNA after adrenalectomy increased 70% above the rate from control preparations and could be reduced to basal levels by the administration of dexamethasone. Adrenalectomy did not cause an increase in functional coupling of 5-HT1a receptors to adenylyl cyclase or phospholipase C. These results suggest that transcription of hippocampal 5-HT1a receptor mRNA is under negative regulation by corticosteroid hormones.

Brain specific proteins binding to the 3' UTR of the 5-HT2C receptor mRNA.

The 5-HT2C receptor2 is a prominent serotonin receptor that is uniquely expressed in the central nervous system and has been implicated in a variety of psychiatric diseases. While characterizing the 5-HT2C receptor gene, we observed that the mRNA contains a long 3' untranslated region that binds multiple brain proteins. Two proteins, molecular weights 55 and 58 kDa, were of particular interest because they were detected only in brain regions known to express the 5-HT2C receptor abundantly, namely, the hippocampus and cortex. These proteins bind with high affinity to the 5-HT2C receptor mRNA at its extreme 3' end (Kd = 1.8 nM), and binding can be specifically competed by selected regions of the 3' UTR. Furthermore, binding of the 55 and 58 kDa proteins to the mRNA is directionally specific and shows preference for an AU-rich loop containing 6 to 7 nucleotides. These results suggest the possibility that these two brain specific proteins may play a role in the post-transcriptional regulation of the 5-HT2C receptor, and that post-transcriptional control of 5-HT2C receptor expression may be an important regulatory mechanism which has not been previously reported for this serotonin receptor subtype.

Isolation and characterization of a library of cDNA clones that are preferentially expressed in the embryonic telencephalon.

In order to isolate genes involved in development of the mammalian telencephalon we employed an efficient cDNA library procedure. By subtracting an adult mouse telencephalic cDNA library from an embryonic day 15 (E15) mouse telencephalic cDNA library we generated two subtracted libraries (ES1 and ES2). We estimate that ES1 contains between 200 and 600 different cDNA clones, which approximates the number of genes that are preferentially expressed in the E15 telencephalon, compared to the adult telencephalon. Northern analysis of 20 different cDNA clones shows that 14 of these are expressed at least 5-fold more in the E15 telencephalon than the adult telencephalon. Limited sequencing of the 14 differentially expressed clones reveals that 10 have no significant identity to sequences in GenBank and EMBL databases, whereas the other 4 have significant sequence identity to vimentin, histone 3.3, topoisomerase I and the B2 repeat element. In situ hybridization using one of the differentially expressed cDNAs, TES-1, demonstrates that it is transiently expressed in the anlage of the basal ganglia. In situ hybridization with another differentially expressed cDNA clone, TES-4, shows that it is specifically expressed in differentiating cells of the neural axis with a distinctive rostral-caudal temporal pattern. These findings, and the methods that we have developed, provide a framework for future investigations of the genetic control of telencephalon development.

Interaction of opiate peptide and noradrenalin systems: light microscopic studies.

In this light microscopic immunocytochemical study beta-Endorphin (beta-END), leu-enkephalin and dopamine-beta hydroxylase (DBH) antisera are used to obtain an overview of the interaction of the noradrenergic and opiate peptide systems in brain. Serial brain areas were analyzed for DBH and then for beta-END or leu-enkephalin. Several areas were evaluated for cell and fiber interactions between these systems. The areas of richest possible contact between beta-END and DBH positive systems include the rostral locus coeruleus region, the periaqueductal grey, possibly the dorsal thalamus, the paraventricular hypothalamus and the arcuate nucleus. Enkephalin cells and fibers were seen surrounding the locus coeruleus throughout its length with a few fibers in the nucleus itself.

Central effects of RDS-127: sexual behavior after intracerebroventricular administration and in vitro receptor binding studies.

RDS-127, in a dose-related manner, induced seminal emission ex copula after intracerebroventricular (i.c.v.) administration. In mating tests initiated 6 min after i.c.v. administration, RDS-127 induced decreases in ejaculation latency and intromission frequency, with some rats ejaculating on the initial intromission. Additionally, penile reflexes were eliminated by 150 micrograms and 600 micrograms, but not by an intermediate dose. In in vitro radioligand binding studies, RDS-127 potently displaced [3H]DPAT binding to 5-HT1A sites in rat cortex (Ki = 14 +/- 4 nM) and was only moderately effective in displacing [3H]spiperone binding to dopaminergic D2 sites in rat striatum. RDS-127 was essentially ineffective at 5-HT1B sites labeled by [3H]5-HT in rat striatum (Ki = 13 000 +/- 4 000 nM). These data demonstrate that centrally administered RDS-127 mimics the previously reported alterations in sexual behavior after systemic treatment and that RDS-127 is a high affinity 5-HT1A agent with low affinity at the 5-HT1B binding site.