Naltrexone modulates dopamine release following chronic, but not acute amphetamine administration: a translational study.

The opioid antagonist naltrexone has been shown to attenuate the subjective effects of amphetamine. However, the mechanisms behind this modulatory effect are currently unknown. We hypothesized that naltrexone would diminish the striatal dopamine release induced by amphetamine, which is considered an important mechanism behind many of its stimulant properties. We used positron emission tomography and the dopamine D2-receptor radioligand [11C]raclopride in healthy subjects to study the dopaminergic effects of an amphetamine injection after pretreatment with naltrexone or placebo. In a rat model, we used microdialysis to study the modulatory effects of naltrexone on dopamine levels after acute and chronic amphetamine exposure. In healthy humans, naltrexone attenuated the subjective effects of amphetamine, confirming our previous results. Amphetamine produced a significant reduction in striatal radioligand binding, indicating increased levels of endogenous dopamine. However, there was no statistically significant effect of naltrexone on dopamine release. The same pattern was observed in rats, where an acute injection of amphetamine caused a significant rise in striatal dopamine levels, with no effect of naltrexone pretreatment. However, in a chronic model, naltrexone significantly attenuated the dopamine release caused by reinstatement of amphetamine. Collectively, these data suggest that the opioid system becomes engaged during the more chronic phase of drug use, evidenced by the modulatory effect of naltrexone on dopamine release following chronic amphetamine administration. The importance of opioid-dopamine interactions in the reinforcing and addictive effects of amphetamine is highlighted by the present findings and may help to facilitate medication development in the field of stimulant dependence.

CSF 5-HIAA, suicide intent and hopelessness in the prediction of early suicide in male high-risk suicide attempters.

OBJECTIVE: To study the predictive value of the Beck Suicide Intent Scale (SIS), the Beck Hopelessness Scale (BHS) and of 5-hydroxyindoleacetic acid (5-HIAA) in the cerebrospinal fluid for future early suicide in a group of high-risk male suicide attempters. METHOD: Fifteen consecutive male suicide attempters admitted to a psychiatric ward at the Karolinska Hospital, who were not receiving any treatment with antidepressants were diagnosed according to DSM-III, assessed with SIS and BHS and submitted to lumbar puncture. All patients were followed up for cause of death. RESULTS: Five early suicides (within 2 years) were identified. Mean cerebrospinal fluid (CSF) 5-HIAA differed between suicides and survivors. Low CSF 5-HIAA was identified in those who committed early suicide. Neither the Suicide Intent Score nor the Hopelessness Score distinguished suicides from survivors. CONCLUSION: In high suicide risk hospitalized male psychiatric patients CSF 5-HIAA may be a better predictor of early suicide after attempted suicide than SIS or BHS.

No support for regional selectivity in clozapine-treated patients: a PET study with [(11)C]raclopride and [(11)C]FLB 457.

OBJECTIVE: The authors' goal was to test the hypothesis of extrastriatal D(2) receptor selectivity as the mechanism of action of clozapine. METHOD: Positron emission tomography (PET) was used to examine extrastriatal as well as striatal dopamine D(2) receptor occupancy in four patients treated with clozapine and three patients treated with haloperidol. The reference radioligand [(11)C]raclopride was used for determination of D(2) receptor occupancy in the striatum. The radioligand [(11)C]FLB 457 was chosen for determination of D(2) receptor occupancy in the thalamus, the temporal cortex, and the frontal cortex. RESULTS: In patients treated with haloperidol the D(2) receptor occupancy was high in all examined brain regions. In clozapine-treated patients the D(2) receptor occupancy was relatively low in both the striatum and the extrastriatal regions. CONCLUSIONS: The results from the present study give no support for the hypothesis of regional selectivity as the mechanism of action for clozapine.

High 5HT2A receptor occupancy in M100907-treated schizophrenic patients.

RATIONALE: Selective drugs are required to test the hypothesis whether antipsychotic effects may be induced or modulated by 5HT(2A) receptor antagonism. M100907 (previously known as MDL 100,907) is a highly selective 5HT(2A) antagonist in clinical development. OBJECTIVE: To test if the suggested clinical dose of 20 mg M100907 daily induces high 5HT(2A) receptor occupancy in patients with schizophrenia. METHODS: The 5HT(2A) receptor occupancy was determined in two patients with schizophrenia treated with M100907, 20 mg once a day. Positron emission tomography (PET) with (11)C-labeled M100907, was performed prestudy and under steady state conditions. Clinical ratings were performed weekly. RESULTS: Clinical treatment with M100907, 20 mg daily induced a very high 5HT(2A) receptor occupancy in the frontal cortex of both patients (>90%). M100907 was well tolerated. One patient improved minimally and one patient became minimally worse during treatment. CONCLUSIONS: The results confirm that an oral dose of 20 mg per day ensures adequate 5HT(2A) receptor occupancy for clinical proof of concept. The sample is too small to allow conclusions about the clinical effect.

A PET study of D2 dopamine receptor density at different phases of the menstrual cycle.

Behavioral and biochemical studies in animals indicate that central dopaminergic neurotransmission may be modulated by sex steroids. This may be the mechanism underlying the suggested association between estrogen and schizophrenia. The aim was to examine if different levels of sex steroids during the menstrual cycle are associated with variations in D2 dopamine receptor density as measured with positron emission tomography (PET) and [11C]raclopride. Five healthy women were examined, one during two subsequent follicular phases and four during two different phases of their menstrual cycle. In none of the women did the difference in putamen to cerebellum (P/C) ratios (-11 to 10%) exceed the difference in P/C ratios previously reported in test-retest analyses in men (-11 to 9%). The findings do not support the conclusion that there is a menstrual-cycle-dependent variation in D2 receptor density detectable with single PET examinations and [11C]raclopride. Furthermore, a stable P/C ratio throughout the menstrual cycle indicated a stable D2 receptor occupancy in schizophrenic women treated with antipsychotic drugs. Repeated PET examinations of schizophrenic women known to deteriorate during particular phases of their menstrual cycle may further contribute to our understanding of the association between schizophrenia and sex steroids.

Plasma prolactin and central D2 receptor occupancy in antipsychotic drug-treated patients.

Previous studies of the relationship between plasma prolactin and clinical effects in patients treated with antipsychotic drugs have yielded inconsistent results. A possible explanation may be that most studies have not included subtherapeutic or low doses of antipsychotics. In this exploratory, double-blind study, the relationship between plasma prolactin concentration and central D2 receptor occupancy was examined in 13 schizophrenic patients treated with the experimental antipsychotic drug raclopride (2, 6, or 12 mg daily). D2 receptor occupancy was determined by positron emission tomography and was related to antipsychotic effect as measured by the Brief Psychiatric Rating Scale. Plasma prolactin concentration was increased in eight of nine patients with a D2 receptor occupancy greater than 50%, whereas it was normal among patients with a D2 receptor occupancy less than 50% (p < 0.01). Plasma prolactin concentration measured 4 hours after the morning dose of raclopride correlated significantly with plasma raclopride concentration (r = 0.92, p < 0.01), the degree of D2 receptor occupancy (r = 0.81,p < 0.01), and the antipsychotic effect (r = 0.79, p < 0.01). Further controlled studies that include low doses of antipsychotic drugs may warrant a reconciliation of plasma prolactin as a useful tool in clinical monitoring of antipsychotic drug treatment.

D1, D2, and 5-HT2 receptor occupancy in relation to clozapine serum concentration: a PET study of schizophrenic patients.

OBJECTIVE: Central D1, D2, and 5-HT2 receptor occupancy in schizophrenic patients treated with clozapine was determined and related to clozapine serum concentrations. METHOD: Seventeen patients treated with clozapine (125-600 mg/day) were examined with positron emission tomography (PET) and one to three of the following selective radioligands: [11C]SCH23390 (N = 11), [11C]raclopride (N = 16), and [11C]N-methylspiperone (N = 5). Clozapine concentration in serum was determined by gas chromatography/mass spectrometry. RESULTS: D2 receptor occupancy (20%-67%) was lower than that previously determined in patients treated with classical neuroleptics (70%-90%). D1 receptor occupancy (36%-59%) was higher than that induced by classical neuroleptics (0%-44%). 5-HT2 receptor occupancy was very high (84%-94%), even at low clozapine doses. Despite a 20-fold range in clozapine serum concentration (105-2121 ng/ml) at the time of PET examination, D2 receptor occupancy was low in all patients and was not described by the curvilinear relationship between serum drug concentration and receptor occupancy that has been demonstrated for classical antipsychotics. CONCLUSIONS: The results confirm in an extended series of patients that clozapine is atypical with regard to degree of D2 receptor occupancy, a finding that may explain the lack of extrapyramidal side effects. The combination of relatively high D1, low D2, and very high 5-HT2 receptor occupancy values is unique to clozapine. Clozapine serum concentrations have not been unequivocally shown to predict clinical effects. In this study, concentration did not predict degree of occupancy in brain. Thus, careful clinical titration cannot be replaced by monitoring of drug concentrations for optimization of clozapine treatment in individual patients.

Positron emission tomography studies on D2 dopamine receptor occupancy and plasma antipsychotic drug levels in man.

Positron emission tomography (PET) and the selective radioligand [11C]raclopride were used to measure D2 receptor occupancy in several studies in schizophrenic patients and healthy subjects. Clinical effects of the treatment were recorded, and drug plasma concentrations measured. The hypothesized curvilinear relationship between receptor occupancy and drug plasma concentrations was supported experimentally. We suggest that there may be a distinct threshold for antipsychotic effect at about 70% D2 receptor occupancy, and another threshold for extrapyramidal side effects above 80% D2 receptor occupancy. Receptor occupancy was high even at low plasma drug concentrations. Our data indicate a need to establish dose-response curves for the conventional neuroleptics. Such a dose-response relationship might be expected for a much lower dose interval than those previously examined.

No elevated D2 dopamine receptors in neuroleptic-naive schizophrenic patients revealed by positron emission tomography and [11C]N-methylspiperone.

The dopamine hypothesis of schizophrenia received strong support when a two- to three-fold elevation of D2 receptor densities was demonstrated by positron emission tomography (PET) and [11C]N-methylspiperone ([11C]NMSP). In the present study, the reproducibility of this finding was examined by application of a similar method in seven normal comparison subjects and seven neuroleptic-naive schizophrenic patients examined by PET before and after administration of haloperidol, 7.5 mg. After haloperidol, the specific binding of [11C]NMSP was reduced by 80-90%, resulting in a signal-to-noise ratio that was unfavorably low for reliable quantification. No significant difference was found between normal subjects and patients in a descriptive analysis of the time-activity curves or in a nonequilibrium graphical determination of D2 receptor densities in the basal ganglia. The results are consistent with those of a previous quantitative PET study of [11C]raclopride binding, which showed normal densities of D2 receptors in the striatum of neuroleptic-naive schizophrenic patients.

Utilization of radioligands in schizophrenia research.

Interest in the role of monoaminergic mechanisms in schizophrenia has stimulated the development of specific radioligands that allow PET analysis of quantitative aspects of monoamine receptor subtypes in the living human brain. Clinical studies with such ligands have not consistently demonstrated specific alterations of the total populations of D1 and D2 dopamine receptors in the caudate putamen complex of drug-naive schizophrenic patients. However, recent studies using [11C]SCH 23390, a specific D1 dopamine receptor ligand, disclosed a highly significant reduction of ligand binding in pixel elements of the basal ganglia that normally contain high activity. This finding may be related to reduced D1 dopamine regulated transmission in subsets of neuronal pathways within the basal ganglia. D3, D4, and D5 receptor subtypes constitute minor fractions of the total number of dopamine receptors in the human brain. However, efforts to find selective ligands for D3 and D4 subtypes also show promise. Radioligands for monoamine receptors have also been used to follow drug effects on receptor subtypes in schizophrenic patients treated with different types of antipsychotic drugs. Such studies have allowed the analysis of relationships between occupancy of dopamine receptor subtypes and some clinical manifestations of drug treatment. Such studies with the selective D2 antagonist raclopride indicated quantitative relationships between the degree of D2 dopamine receptor occupancy in the basal ganglia and the extrapyramidal manifestations, as well as the antipsychotic action. Some of the currently available antipsychotic drugs also induced significant occupancy of D1 dopamine receptors. However, the selective D1 antagonist SCH 39166 in doses inducing a more than 70% occupancy of D1 dopamine receptors in the caudate putamen failed to induce an antipsychotic action. This indicates that, in contrast to D2 blockade, selective antagonism of D1-regulated pathways does not mediate antipsychotic action in schizophrenia. Some but not all antipsychotic drugs also induced high occupancy of neocortical 5HT2A receptors. Because selective 5HT2A antagonism does not appear to be an efficient treatment for schizophrenia, it seems most likely that 5HT2A receptors and, perhaps, D1 receptors act in concert to modify aspects of the mandatory D2 blockade to induce antipsychotic actions. Computer graphic methods for image analysis add new dimensions to brain imaging research, allowing three-dimensional visualization of receptor populations computed from molecular PET data. This will make possible further exploration of the detailed molecular compartmentalization of the human brain using radioligand binding.

Recent developments in PET scan imaging of neuroreceptors in schizophrenia.

Among the brain imaging techniques developed during the past two decades, positron emission tomography (PET) has the highest sensitivity allowing the analysis of specific neurotransmitter mechanisms in the living human brain. By using a combination of selective ligands labeled with positron emitting isotopes D1- and D2 dopamine, serotonin 5HT2, and benzodiazepine receptors were examined in schizophrenic patients (DSM-III-R) and healthy control subjects. With this technique receptor populations could be excellently visualized and quantified with regard to number and binding characteristics in several brain regions. The characteristics of the total D1 and D2 dopamine receptor populations in the caudate and putamen did not differ in young drug-naive schizophrenic patients and age-matched control subjects. Also for 5HT2 and benzodiazepine receptors no major alteration of receptor characteristics was observed in several neocortical and limbic brain regions. However, in schizophrenic patients treated with chemically different types of antipsychotic drugs major reductions of ligand binding was observed indicating specific induction of neuroreceptor occupancy. Thus, all chemically different types of antipsychotic drugs examined induced a substantial occupancy of D2 dopamine receptors. Clozapine in high doses induced a significantly lower degree of D2 dopamine receptor occupancy than the conventional drugs. Some but not all antipsychotics also induced a significant D1 dopamine receptor occupancy. In spite of the fact that the selective D1 antagonist SCH 39166 induced a substantial D1 occupancy, this drug did not exhibit an antipsychotic effect in schizophrenic patients. A very high degree of 5HT2 occupancy in neocortical regions was observed after clinical treatment with antipsychotic drugs as clozapine, risperidone and thioridazine.(ABSTRACT TRUNCATED AT 250 WORDS)

PET imaging of neuroreceptors in schizophrenia.

Among the brain imaging techniques developed during the past two decades positron emission tomography has the highest sensitivity, allowing the analysis of specific neurotransmitter mechanisms in the living human brain. By using a combination of selective ligands labelled with positron emitting isotopes, D1 and D2 dopamine, serotonin 5HT2 and benzodiazepine receptors were examined in schizophrenic patients (DSM-IIIR) and healthy control subjects. With this technique receptor populations could be excellently visualized and quantified with regard to number and binding characteristics in several brain regions. The characteristics of total D1 and D2 dopamine receptor populations in the caudate and putamen did not differ significantly in young drug naive schizophrenic patients and age matched control subjects. On the other hand, there was a highly significant reduction of the D1 signal in high intensity regions of the basal ganglia when [11C]SCH 23390, a selective D1 dopamine receptor antagonist, was used. These results suggest the possibility of a reduced D1 dopamine receptor density in the patch compartment of the basal ganglia in schizophrenia. For 5HT2 and benzodiazepine receptors no major alteration of receptor characteristics was observed in several neocortical and limbic brain regions.

Neuronal development in embryonic brain tissue derived from schizophrenic women and grafted to animal hosts.

The distribution of schizophrenia in families supports the hypothesis of heritable risk factors in schizophrenia, but there is as yet no identification of an inherited neurobiological defect. Human embryonic brain tissue fragments, derived from first trimester abortions, can be transplanted into rat hosts, where they continue neuronal development and are accessible for neurobiological investigation. Hippocampal transplants derived from three schizophrenic women and a larger series of normal women have been studied. If there are heritable neuronal defects associated with schizophrenia, a proportion of the transplants from schizophrenic women would be expected to carry these defects. The transplants from the first two schizophrenic women showed profound abnormalities in survival and growth, compared to the series of transplants from normal women. The transplants from the third schizophrenic woman showed normal growth and development, as well as typical histological and electrophysiological features. The data must be regarded as preliminary, because of the small number of subjects that have been studied. However, they are consistent with the transmission of a defect in neuronal development to some of the offspring of schizophrenic women, a possibility consistent with other studies of the pathogenesis of schizophrenia. The mechanism of the defect in development remains to be identified.

D1-, D2-, and 5-HT2-receptor occupancy in clozapine-treated patients.

Positron emission tomography (PET) and selective radioligands were used to determine central D1- and D2-dopamine- and 5-HT2-receptor occupancy in clozapine-treated patients with schizophrenia. In 16 patients, the mean D2-receptor occupancy was 47% (range, 20%-67%), which is lower than that previously demonstrated in patients treated with classical neuroleptics (range, 70%-89%). In 11 patients, the mean D1-receptor occupancy was 44% (range, 33%-59%), which is high when compared with that for classical neuroleptics. In a group of 5 patients, including some treated with low doses of clozapine, the mean 5-HT2-receptor occupancy was a high 89% (range, 84%-94%). By comparison to classical neuroleptics, clozapine is atypical with regard to central binding characteristics in the brain of treated patients.

An open clinical and biochemical study of ritanserin in acute patients with schizophrenia.

The effect of the selective serotonin-2 antagonist ritanserin was investigated in an open study of patients with schizophrenia. The patients were in an acute psychotic state considered to require neuroleptic medication. No neuroleptic drug was allowed during the study or during the last month preceeding the study. Oxazepam or nitrazepam were allowed for sedation or sleep inducement. Safety, tolerability, potential antipsychotic effect, and drug effects on monoamine metabolites in serum and CSF and prolactin in serum were evaluated. Central D2-dopamine receptor occupancy was determined by positron emission tomography. Ten male patients (mean age 32.4) fulfilling DSM-III-R criteria for schizophrenia were included in the study. Nine of these patients completed 4 weeks' treatment with ritanserin 10 mg b.i.d. The clinical effect was evaluated by means of CPRS and SANS and significant improvement was seen after 4 weeks' treatment both in positive and negative symptoms. Ritanserin was well tolerated and no extrapyramidal symptoms or akathisia were seen. Concentrations of monoamine metabolites and prolactin did not change during treatment. Ritanserin did not occupy D2-dopamine receptors. Thus, no indications of any D2-dopamine-antagonistic activity were obtained. All patients had expected ritanserin levels in plasma during the whole study. This first study of a selective serotonin-2 antagonist in the treatment of acute schizophrenic patients demonstrated significant clinical effects. However, the open design of the study does not allow us to conclude with any certainty that the patients' improvement was due to a specific blockade of serotonin-2 receptors or unspecific factors, although a direct D2-dopamine blockade could be ruled out.

Central D2-dopamine receptor occupancy in relation to antipsychotic drug effects: a double-blind PET study of schizophrenic patients.

The relationship between central D2-dopamine receptor occupancy and antipsychotic drug effects was examined in a double-blind study. Raclopride was the compound used to induce a selective occupancy of the D2-dopamine receptors. In addition, 11C-labeled raclopride was the radioligand used to measure occupancy by positron emission tomography (PET). Seventeen schizophrenic patients were randomly assigned to one of three parallel groups treated for 4 weeks with daily doses of 2, 6, or 12 mg of raclopride. D2-receptor occupancy was determined by PET at steady-state conditions in 13 patients who completed the study. A statistically significant relationship was demonstrated between antipsychotic effect and degree of D2-receptor occupancy (p < 0.05). Patients with extrapyramidal side effects had significantly higher D2-receptor occupancy than those without (p = 0.02). The finding of a relationship between selective occupancy of the D2-dopamine receptors and clinical effects in schizophrenic patients principally provides new support for the dopamine hypothesis of antipsychotic drug action.

High 5-HT2 receptor occupancy in clozapine treated patients demonstrated by PET.

The clinical benefit of the atypical antipsychotic drug clozapine may be related to a combined effect on D2 and 5-HT2 receptors. To examine the basis for this hypothesis, positron emission tomography (PET) and the radioligand [11C]N-methylspiperone were used to determine cortical 5-HT2 receptor occupancy in three psychotic patients treated with 125 mg, 175mg and 200mg clozapine daily. The uptake of [11C]N-methylspiperone in the frontal cortex was very low compared to that in neuroleptic naive schizophrenic patients. 5-HT2 receptor occupancy calculated in the clozapine treated patients was 84%, 87% and 90%. The results show that clinical treatment with clozapine induces a high 5-HT2 receptor occupancy in psychotic patients at a low dose level.