SERT and DAT availabilities under citalopram treatment in obsessive-compulsive disorder (OCD).

Serotonin and dopamine transporter (SERT, DAT) availabilities have prospectively been investigated using [123I]beta-CIT and single photon emission computed tomography in subjects with obsessive-compulsive disorder under treatment with the selective serotonin reuptake inhibitor citalopram. SERT availability decreased by a mean 36.5%, whereas DAT availability increased by about 40%. The data point at a citalopram induced modulation of both serotonergic and dopaminergic activity and support the notion of functional interactions of monoaminergic systems in the human brain.     

Displacement of serotonin and dopamine transporters by venlafaxine extended release capsule at steady state: a [123I]2beta-carbomethoxy-3beta-(4-iodophenyl)-tropane single photon emission computed tomography imaging study

Both positron emission tomography and single photon emission computed tomography (SPECT) studies suggest that saturation of serotonin transporters (SERT) is present during treatment with therapeutic doses of selective serotonin reuptake inhibitors (SSRIs). Selective serotonin reuptake inhibitors also appear to increase the availability of dopamine transporters (DAT). The current study measured SERT occupancy and modulation of DAT by the serotonin/norepinephrine reuptake inhibitor (SNRI) venlafaxine using [123I]2beta-carbomethoxy-3beta-(4-iodophenyl)-tropane SPECT. Eight healthy subjects were administered open-label venlafaxine extended release capsules (75 mg/d for 4 days followed by 150 mg/d for 5 days). Venlafaxine significantly inhibited [123I]beta-CIT binding to SERT in the brainstem (55.4%) and the diencephalon (54.1%). In contrast, venlafaxine increased [123I]beta-CIT binding to DAT in the striatum (10.1%) after 5 days of administration of 150 mg/d. The displacement of [123I]beta-CIT from brain SERT and the increase in striatal [123I]beta-CIT binding to DAT appear similar to previous work with the SSRI citalopram (40 mg/d). A literature review of SERT occupancy by marketed SSRIs and the SNRI venlafaxine using SPECT ([123I]beta-CIT) or positron emission tomography ([11C](N, N-Dimethyl-2-(2-amino-4-cyanophenylthio)-benzylamine) imaging suggests that therapeutic doses of SNRI are associated with virtual saturation of the serotonin transporter.     

Changes in human in vivo serotonin and dopamine transporter availabilities during chronic antidepressant administration.

Few studies have demonstrated in vivo alterations of human serotonin and dopamine transporters (SERTS and DATS) during antidepressant treatment. The current study measured these transporter availabilities with [(123)I]beta-CIT single photon emission computed tomography (SPECT) during administration of selective serotonin reuptake inhibitors (SSRIs) or a non-SSRI, bupropion. A total of 17 healthy human subjects were randomly assigned to two different treatment protocols: (1). citalopram (40 mg/day) followed by augmentation with bupropion (100 mg/day) or (2). bupropion (100-200 mg/day) for 16 days. Citalopram significantly inhibited [(123)I]beta-CIT binding to SERT in brainstem (51.4%) and diencephalon (39.4%) after 8 days of administration, which was similarly observed after 16 days. In contrast, citalopram significantly increased striatal DAT binding by 15-17% after 8 and 16 days of administration. Bupropion and its augmentation to citalopram did not have a significant effect on DAT or SERT. In 10 depressed patients who were treated with paroxetine (20 mg/day), a similar increase in DAT and inhibition of SERT were observed during 6 weeks treatment. The results demonstrated the inhibition of SERT by SSRI in human in vivo during the chronic treatment and, unexpectedly, an elevation of DAT. This apparent SSRI-induced modulation of the dopamine system may be associated with the side effects of these agents, including sexual dysfunction.     

Validation of [(123)I]beta-CIT SPECT to assess serotonin transporters in vivo in humans: a double-blind, placebo-controlled, crossover study with the selective serotonin reuptake inhibitor citalopram.

Disturbances in the serotonin (5-HT) system are associated with various neuropsychiatric disorders. The 5-HT system can be studied in vivo by measuring 5-HT transporter (SERT) densities using (123)iodine-labeled 2beta-carbomethoxy-3beta(4-iodophenyl)tropane ([(123)I]beta-CIT) and single photon emission computed tomography (SPECT). Validation of this technique is important because [(123)I]beta-CIT does not bind selectively to SERTs. Some studies have validated this technique in vivo in the human brain in SERT-rich areas, but the technique has not been validated yet in SERT-low cortical areas. The aim of this study was to further validate [(123)I]beta-CIT SPECT in assessing SERTs in vivo in humans in both SERT-rich and SERT-low areas. A double-blind, placebo-controlled, crossover design was used with the selective 5-HT reuptake inhibitor (SSRI) citalopram. Six male subjects underwent two [(123)I]beta-CIT SPECT sessions: one after pretreatment with citalopram and one after placebo. Scans were acquired 4 h and 22-27 h p.i., and both region-of-interest and voxel-by-voxel analyses were performed. Citalopram reduced [(123)I]beta-CIT binding ratios in SERT-rich midbrain and (hypo)thalamus. Binding ratios were also lower after citalopram in SERT-low cortical areas, but statistical significance was only reached in several cortical areas using voxel-by-voxel analysis. In addition, citalopram increased binding ratios in the DAT-rich striatum and increased absolute uptake in the cerebellum. The results show that [(123)I]beta-CIT SPECT is a valid technique to study SERT binding in vivo in human brain in SERT-rich areas. Although we provide some evidence that [(123)I]beta-CIT SPECT may be used to measure SERTs in SERT-low cortical areas, these measurements must be interpreted with caution.     

Validity of in vivo [123I]beta-CIT SPECT in detecting MDMA-induced neurotoxicity in rats.

This study investigated the ability of a high-resolution pinhole single-photon emission computed tomography (SPECT) system, with [(123)I]beta-CIT as a radiotracer, to detect 3,4-methelenedioxymethamphetamine (MDMA, 'Ecstasy')-induced loss of serotonin transporters (SERTs) in the living rat brain. In vivo striatal and thalamic [(123)I]beta-CIT binding ratios, representing specific binding to dopamine and serotonin transporters, respectively, were determined 7 days before as well as 10 days after treatment of rats with neurotoxic doses of MDMA using SPECT. At the end of the experiment, radioactivity ratios were also determined ex vivo, and compared to control data. Both in vivo and ex vivo, thalamic, but not striatal, uptake ratios were statistical significantly reduced after MDMA treatment. These data show that [(123)I]beta-CIT SPECT may be able to detect MDMA-induced loss of SERTs. Therefore, this may be a promising technique to perform serial studies on MDMA-induced serotonergic neurotoxicity in living small animals.     

Availability of dopamine and serotonin transporters in opioid-dependent users—a two-isotope SPECT study

Rationale and objective

The aims of this study were to examine the differences between 32 opioid-dependent users treated with a very low dose of methadone or undergoing methadone-free abstinence and 32 controls.

Methods

SPECT analysis using [^99mTc] TRODAT-1 to assess striatal dopamine transporter (DAT) availability and [¹²³I] ADAM to assess midbrain serotonin transporter (SERT) availability were performed.

Results

Lower striatal DAT and midbrain SERT availabilities were noted in low-dose methadone users. History of metamphatamine use was associated with the lower striatal DAT. The striatal DAT of methadone-free abstainers was also lower than controls. The midbrain SERT availability tended to be higher in the methadone-free abstainers than the low-dose methadone users. The severity of depressive symptoms was negatively correlated with midbrain SERT availability in the opioid users.

Conclusion

The availability of striatal DAT tended to be, and the availability of midbrain SERT was, lower in the opioid users. History of metamphatamine use may confound the difference in straital DAT between controls and opioid users, as midbrain SERT and depressive symptoms are also associated with opioid use and abstinence.     

Binding kinetics of 123I[ADAM] in healthy controls: a selective SERT radioligand

[123I]ADAM (2-((2-((dimethylamino)methyl)phenyl)thio)-5-iodophenylamine) is a promising radioligand for in-vivo quantification of serotonin transporters (SERT) using single photon emission computed tomography (SPECT) in man. We performed tracer kinetic analysis in various brain regions to determine the optimum equilibrium time for SERT quantification with [123I]ADAM and SPECT. Radiosyntheses of [123I]ADAM were performed at MAP Medical Technologies Oy, Tikkakoski, Finland. Thirty healthy male volunteers (21-41 yr) received between 104 and 163 MBq [123I]ADAM intravenously as a bolus. Consecutively, multiple SPECT scans were performed between 14 and 420 min post-injection (p.i.) using a Siemens Multispect 3 camera. Reconstruction was performed applying filtered back projection with a Butterworth filter (cut-off 0.7, order 7) in 128x128 matrices. Regions of interest (ROI) were drawn manually on the individual T1-weighted magnetic resonance image (MRI) comprising midbrain/hypothalamus for specific binding to SERT, and the cerebellum as reference region. After re-orientation to the MRI, the ROI template was applied to SPECT studies. We generated time-activity curves for the ROI and calculated the ratio countstarget/countscerebellum minus 1 (=V3') as a measure for specific SERT binding. Counts were corrected for applied activity, acquisition time and body-weight. Peak uptakes were observed between 14 and 50 min after bolus injection. Counts per voxel were highest in the midbrain/hypothalamus, 798 (max. 872, min. 728), whereas 462 counts per voxel (max. 599, min. 412) were measured in the cerebellum at a mean time of 31 min p.i. Stable values for V3' reached 205-320 min p.i. Mean peak V3' value was 1.43 (95% CI 171-230) for the midbrain/hypothalamus at 205 min p.i. [123I]ADAM is a useful ligand for in-vivo quantification of human SERT by means of SPECT, with a comparatively better signal-to-noise ratio compared to beta-CIT. Our data suggest that the acquisition time for the SPECT scan is optimally, under pseudo-equilibrium conditions, between 205-320 min post-bolus injection of the tracer.     

The variable number of tandem repeats polymorphism of the dopamine transporter gene is not associated with significant change in dopamine transporter phenotype in humans.

A 40 base polymorphism of a variable number of tandem repeats (VNTR) has been described in the 3' untranslated region of the gene (SLC6A3) coding for the dopamine transporter (DAT). Despite being located in the untranslated region of the gene, this polymorphism has been associated with clinical phenotypes associated with dysregulation of dopamine transmission, such as attention deficit hyperactivity disorder and cocaine-induced paranoia. To examine the neurochemical phenotype associated with this polymorphism, we compared amphetamine-induced dopamine release (measured as displacement of the radiotracer [123I]IBZM) and DAT expression (measured with [123I]beta-CIT) in the striatum with Single Photon Computerized Emission Tomography (SPECT). Our sample included 59 subjects, 31 healthy controls and 29 patients with schizophrenia. No significant association was found between VNTR polymorphism and amphetamine-induced dopamine release or DAT density in the total sample, nor when each diagnostic group was considered separately. Thus, we did not replicate the findings of two previous studies, which had suggested that the 9 repeat allele was associated with either an increased or decreased DAT expression, albeit in different patient populations.     

Synthesis and characterization of iodine-123 labeled 2beta-carbomethoxy-3beta-(4'-((Z)-2-iodoethenyl)phenyl)nortropane. A ligand for in vivo imaging of serotonin transporters by single-photon-emission tomography

2beta-Carbomethoxy-3beta-(4'-((Z)-2-iodoethenyl)phenyl)nortropane (ZIENT) (6) and 2beta-carbomethoxy-3beta-(4'-((E)-2-iodoethenyl)phenyl)nortropane (EIENT) (10) were prepared and evaluated in vitro and in vivo for serotonin transporter (SERT) selectivity and specificity. High specific activity [(123)I]ZIENT and [(123)I]EIENT were synthesized in 45% (n = 5) and 42% (n = 4) radiochemical yield (decay-corrected to end of bombardment (EOB)), respectively, by preparation of the precursor carbomethoxy-3beta-(4'-((Z)-2-trimethylstannylethenyl)phenyl)nortropane (7) and 2beta-carbomethoxy-3beta-(4'-((E)-2-tributylstannylethenyl)phenyl)nortropane (9), respectively, followed by treatment with no carrier-added sodium [(123)I]iodide and hydrogen peroxide in ethanolic HCl. Competition binding in cells stably expressing the transfected human SERT, dopamine transporter (DAT), and norepinephrine transporter (NET) using [(3)H]citalopram, [(3)H]WIN 35,428, and [(3)H]nisoxetine, respectively, demonstrated the following order of SERT affinity (K(i) in nM): ZIENT (0.05) > nor-CIT (0.12) > EIENT (1.15) > fluvoxamine (1.46). The affinity of ZIENT and EIENT for DAT was 69 and 1.6-fold lower, respectively, than for SERT. In vivo biodistribution and blocking studies were performed in male rats and demonstrated that the brain uptake of [(123)I]ZIENT was selective and specific for SERT-rich regions (hypothalamus, striatum, pons, and prefrontal cortex). SPECT brain imaging studies in monkeys demonstrated high [(123)I]ZIENT uptake in the diencephalon, which resulted in diencephalon-to-cerebellum ratios of 2.12 at 190 min. [(123)I]ZIENT uptake in the diencephalon achieved transient equilibrium at 157 min. In a displacement experiment of [(123)I]ZIENT in a cynomolgus monkey, radioactivity was reduced by 39% in the diencephalon at 101 min following injection of citalopram. The high specific activity one-step radiolabeling preparation and high selectivity of [(123)I]ZIENT for SERT support its candidacy as a radioligand for mapping brain SERT sites.     

Synthesis and in vivo evaluation of fluorine-18 and iodine-123 labeled 2beta-carbo(2-fluoroethoxy)-3beta-(4'-((Z)-2-iodoethenyl)phenyl)nortropane as a candidate serotonin transporter imaging agent

2Beta-carbo(2-fluoroethoxy)-3beta-(4'-((Z)-2-iodoethenyl)phenyl)nortropane (betaFEpZIENT, 1) was synthesized as a serotonin transporter (SERT) imaging agent for both positron emission tomography (PET) and single photon emission computerized tomography (SPECT). The binding affinity of 1 to human monoamine transporters showed a high affinity for the SERT (Ki = 0.08 nM) with respect to the dopamine transporter (DAT) (Ki = 13 nM) and the norepinephrine transporter (NET) (Ki = 28 nM). In vivo biodistribution and blocking studies performed in male rats demonstrated that [123I]1 was selective and specific for SERT. In vivo microPET brain imaging studies in an anesthetized monkey with [18F]1 showed high uptake in the diencephalon and brainstem with peak uptake achieved at 120 min. A chase study with (R,S)-citalopram.HBr displaced [18F]1 radioactivity from all SERT-rich brain regions. A chase study with the DAT ligand 2beta-carbophenoxy-3beta-(4-chlorophenyl)tropane (9, RTI-113) failed to displace [18F]1, indicating that [18F]1 is specific to the SERT. The in vivo evaluation of [18F]1 indicates that this radiotracer is a good candidate for mapping and quantifying CNS SERT.     

The promiscuity of the dopamine transporter: implications for the kinetic analysis of [3H]serotonin uptake in rat hippocampal and striatal synaptosomes

Evidence indicates that monoaminergic neurotransmitter transporters are promiscuous, transporting substrates other than their cognate neurotransmitters. For example, serotonin is transported by the dopamine transporter (DAT) under conditions in which serotonin transporter (SERT) activity is eliminated (e.g., pharmacological inhibition). We performed a kinetic analysis of [³H]serotonin uptake in rat striatal synaptosomes (expressing DAT and SERT) and hippocampal synaptosomes (expressing SERT, but not DAT). Nonspecific [³H]serotonin uptake was defined as the amount of uptake remaining in the presence of fluoxetine (10 μM) or paroxetine (0.05 μM). In hippocampal synaptosomes, K_m and V_max values for [³H]serotonin uptake did not differ whether fluoxetine or paroxetine was used to define nonspecific uptake. However, in striatal synaptosomes, both K_m and V_max values for [³H]serotonin uptake were greater when fluoxetine, rather than paroxetine, was used to define nonspecific uptake. These data suggest that, at the concentrations employed, fluoxetine inhibits serotonin uptake at both DAT and SERT, whereas paroxetine only inhibits serotonin uptake at SERT. Thus, when DAT is inhibited by GBR 12909, kinetic parameters for serotonin uptake via SERT in striatum are not different from those obtained in hippocampus. These findings have important implications regarding the analysis of monoaminergic reuptake in brain regions exhibiting heterogeneous transporter expression.     

Association between the dexamethasone suppression test and serotonin transporter availability in healthy volunteers - A SPECT with [(123)I] ADAM study

Most common psychiatric diseases have been found to be associated with disturbance of both the hypothalamic-pituitary-adrenal (HPA) axis and the brain serotonergic system. The aim of this study was to explore the neuroendocrine relationships between the dexamethasone suppression test (DST) and serotonin transporter (SERT) availability in healthy volunteers. Sixty-six participants (30 males and 36 females) were recruited from the community. The DST suppression rate (D%) is the reduction in cortisol level from Day 1 (D1) to Day 2 (D2) in proportion to the Day 1 cortisol level (D%=(D1-D2)/D1×100%). SPECT with [(123)I] ADAM was used to measure SERT availability. A significant correlation between D% and SERT availability was noted in all subjects (Spearman's ρ=0.26, p=0.03) and in the male subjects (Spearman's ρ=0.41, p=0.02). SERT availability may be sensitive to changes in DST, especially in males.     

PET and SPECT exploration of central monoaminergic transporters for the development of new drugs and treatments in brain disorders

Membrane and vesicular monoaminergic transporters, responsible for the homeostasis of neurotransmitter pools at nerve endings, are very involved in the physiology and diseases of central nervous system. Recent progresses of cerebral molecular imaging using SPECT and PET methods allow the extend of in vivo exploration of these transporters. For this aim, an increasing number of radiopharmaceuticals labelled with [123I], [99mTc], [11C] or [18F] have been developed such as cocaine derivatives for the DAT, compounds from the diphenyl sulfide family for the SERT, and dihydrotetrabenazine derivatives for the VMAT2. These functional imaging methods can be very useful in several neurological and psychiatric disorders which involve the monoaminergic neurotransmission systems such as Parkinson's disease, ADHD, depression and autism. For example, the DAT is a specific index of the density of dopaminergic endings which progressively degenerate in Parkinson's disease. In vivo exploration of this transporter can therefore be a relevant way (i) to realize an early detection of the loss of dopaminergic neurons, (ii) to assess the progression of the disease, (iii) to validate and improve the efficacy of new therapeutic strategies such as neuroprotection and neuroreparation. In all, the extend of in vivo exploration of monoamine transporters will allow great progress for (1) knowledge of physiopathological mechanisms of brain disorders, (2) early diagnosis of cerebral dysfunctions, allowing early use of new therapies, (3) selection of homogenous classes of subjects for therapeutic assays, (4) objectiveness of drug-molecular target interaction, (5) follow-up of disease evolution and treatment.     

Synthesis, radiosynthesis, and biological evaluation of carbon-11 and iodine-123 labeled 2beta-carbomethoxy-3beta-[4'-((Z)-2-haloethenyl)phenyl]tropanes: candidate radioligands for in vivo imaging of the serotonin transporter

2beta-Carbomethoxy-3beta-[4'-((Z)-2-iodoethenyl)phenyl]tropane (ZIET) and 2beta-carbomethoxy-3beta-[4'-((Z)-2-bromoethenyl)phenyl]tropane (ZBrET) were synthesized as well as their nortropane congeners ZIENT and ZBrENT. Binding affinities of these compounds were determined in cells transfected to express human SERT, DAT, and NET using [3H]citalopram, [125I]RTI-55, and [3H]nisoxetine, respectively. Both ZIET and ZBrET displayed high affinity for the SERT (Ki = 0.11 and 0.08 nM, respectively).The affinities of ZIET and ZBrET for the DAT were 200 and 38-fold lower, respectively, than for the SERT. [11C]ZIET and [11C]ZBrET were prepared by alkylation of their corresponding nortropanes with [11C]methyl iodide in approximately 30% radiochemical yield (decay-corrected to end of bombardment, EOB). High specific activity [123I]ZIET was synthesized in 33% radiochemical yield (decay-corrected) by treating the 2beta-carbomethoxy-3beta-[4'-((Z)-2-trimethylstannylethenyl)phenyl]tropane (3) with no carrier-added sodium [123I]iodide and hydrogen peroxide in ethanolic HCl. Biodistribution studies in rats indicated that [123I]ZIET enters the brain readily and accumulates in SERT-rich regions. Blocking studies performed in rats demonstrated that [123I]ZIET was selective and specific for SERT-rich regions (e.g. thalamus, brainstem, and striatum). MicroPET brain imaging studies in monkeys demonstrated that [11C]ZIET and [11C]ZBrET uptakes were selectivity localized in the putamen, midbrain, caudate, thalamus, pons, and medulla. Radioactivity in the regions of high SERT density of monkey brain was displaceable with citalopram except in the putamen and caudate. Radioactivity uptake in these DAT-rich regions was significantly displaceable either by preadministration of citalopram followed by injection of RTI-113 (or vice-versa) or by administration of a mixture of DAT and SERT ligands. In conclusion, the high yield, high specific activity, one-step radiolabeling method, high selectivity and favorable kinetics, and the good results obtained with [123I]ZIET in rats support the candidacy of [11C]ZIET for in vivo visualization and quantification of brain SERT.     

Methylone and monoamine transporters: correlation with toxicity

Methylone (2-methylamino-1-[3,4-methylenedioxyphenyl]propane-1-one) is a synthetic hallucinogenic amphetamine analog, like MDMA (3,4-methylenedioxy- methamphetamine), considered to act on monoaminergic systems. However, the psychopharmacological profile of its cytotoxicity as a consequence of monoaminergic deficits remains unclear. We examined here the effects of methylone on the transporters for dopamine (DAT), norepinephrine (NET), and serotonin (SERT), using a heterologous expression system in CHO cells, in association with its cytotoxicity. Methylone inhibited the activities of DAT, NET, and SERT, but not GABA transporter-1 (GAT1), in a concentration-dependent fashion with a rank order of NET > DAT > SERT. Methylone was less effective at inhibiting DAT and NET, but more effective against SERT, than was methamphetamine. Methylone alone was not toxic to cells except at high concentrations, but in combination with methamphetamine had a synergistic effect in CHO cells expressing the monoamine transporters but not in control CHO cells or cells expressing GAT1. The ability of methylone to inhibit monoamine transporter function, probably by acting as a transportable substrate, underlies the synergistic effect of methylone and methamphetamine.     

123I]-beta-CIT SPECT imaging shows reduced thalamus-hypothalamus serotonin transporter availability in 24 drug-free obsessive-compulsive checkers.

Numerous findings indicate alterations in brain serotonin systems in obsessive-compulsive disorder (OCD). We investigated the in vivo availability of thalamus-hypothalamus serotonin transporters (SERT) in patients with DSM-IV OCD who displayed prominent behavioral checking compulsions (OC-checkers). Four hours after injection of [(123)I]-2beta-carbomethoxy-3beta-(4-iodophenyl)tropane ([(123)I]-beta-CIT), single photon emission computed tomography (SPECT) scans were performed in 24 medication-free non-depressed OC-checkers and 24 age- and gender-matched healthy controls. For quantification of brain serotonin transporter availability, a ratio of specific to non-displaceable [(123)I]-beta-CIT brain binding was used (V'(3)=(thalamus and hypothalamus-cerebellum)/cerebellum). Drug-free non-depressed OC-checkers showed an 18% reduced brain serotonin transporter availability in the thalamus and hypothalamus, as compared with healthy control subjects (1.38+/-0.19 vs 1.69+/-0.21; p<0.001). There was a strong negative correlation between severity of OC symptomatology (Y-BOCS scores) and SERT availability (r=-0.80; p<0.001). Moreover, we found a significant positive correlation between illness duration and serotonin transporter availability (r=0.43; p<0.05). This first report of significantly reduced [(123)I]-beta-CIT binding in the thalamus-hypothalamus region in OC-checkers suggests reduced brain serotonin transporter availability, which is more pronounced with increased severity of OC symptomatology and short duration of illness. The results provide direct evidence for an involvement of the serotonergic system in the pathophysiology of OCD.     

Genotype influences in vivo dopamine transporter availability in human striatum.

In vivo availability of striatal dopamine transporter (DAT) protein has been reported to be reduced among alcoholics, and allelic variation of the DAT gene (SLC6A3) has been associated with severity of alcohol withdrawal. We examined the VNTR polymorphism of the 3' untranslated region of SLC6A3 and DAT protein availability in 14 abstinent alcoholics and 11 control subjects. Single photon emission computed tomography (SPECT) and plasma levels of the radioligand [I-123]beta-CIT were used to quantify DAT protein availability. Individuals with the 9-repeat/10-repeat genotype had a mean 22% reduction of DAT protein availability in putamen compared with 10-repeat homozygous individuals (t = 2.14, df = 23, p < .05). Consistent with earlier studies, alcoholism, per se, was not significantly associated with either DAT availability or DAT genotype. These findings suggest that the VNTR polymorphism of the DAT gene effects translation of the DAT protein. This effect may explain a variety of clinical associations that have been reported with this polymorphism.     

Striatal dopamine transporter availability with [<Superscript>123</Superscript>I]β-CIT SPECT is unrelated to gender or menstrual cycle

Objectives The effect of gender and female menstrual cycle on human striatal dopamine transporters (DATs) was investigated with single-photon emission computed tomography (SPECT) using the ligand 2β-carbomethoxy-3β-(4-[¹²³I]iodophenyl)tropane.Methods Ten female subjects aged 18–40 years (25.3±7.3 years) were scanned twice during the early follicular and the mid-luteal phases to detect any hormone-mediated changes in DAT availability in the striatum or serotonin transporter (SERT) availability in brainstem–diencephalon. Plasma estradiol and progesterone levels were obtained at the time of SPECT and confirmed the expected increases from the follicular to the luteal phases. Finally, in a post hoc analysis of a previously published healthy-subject sample, striatal DAT availability was compared between 70 male and 52 female subjects who ranged in age from 18 to 88 years.Results In the ten menstrual cycle subjects, DAT availability (V₃″) in striatum and SERT availability in brainstem–diencephalon did not differ between follicular and luteal phases. Moreover, change in V₃″ for striatum or brainstem–diencephalon was uncorrelated with change in plasma estradiol or progesterone from the follicular to the luteal phase. In the larger healthy-subject sample, there was no significant effect of gender or the interaction of age and gender on striatal V₃″.Conclusions These findings suggest that in using DAT or SERT ligands in the study of neuropsychiatric disorders, matching of female subjects according to a menstrual cycle phase is unnecessary. Although the present investigation did not confirm previous reports of gender differences in striatal DAT availability, controlling for gender in such studies still seems advisable.     

3H]beta-CIT: a radioligand for dopamine transporters in rat brain tissue

[3H]2-beta-carbomethoxy-3-beta-[4'-iodophenyl]tropane (beta-CIT) was prepared and evaluated. With rat forebrain tissue, [3H]beta-CIT showed high affinity for dopamine transporters (DAT), with selectivity for DAT over norepinephrine transporters, but not serotonin transporters, as well as DAT-stereoselectivity with beta-CIT, amphetamine and methylphenidate. Affinity and selectivity for 53 compounds assayed with [3H]beta-CIT and standard DAT radioligand [3H]GBR-12935 were highly correlated (r0.95). [3H]beta-CIT is proposed as a useful, high-affinity DAT radioprobe.     

Dopamine transporter density and novelty seeking among alcoholics.

OBJECTIVE: The aim of this study was to investigate a putative association between the personality trait of novelty seeking (NS) and dopaminergic neuronal activity in the human brain. METHOD: We studied the striatal dopamine transporter (DAT) density of 30 (18 early and 12 late-onset) alcoholics and 26 healthy controls with beta-CIT ([123I]-2-beta-carbomethoxy-3-beta-(4-iodophenyl)-tropane) and SPET (Single Photon Emission Tomography); personality traits were assessed with the Tridimensional Personality Questionnaire (TPQ). RESULTS: DAT density correlated significantly with both NS (r = 0.46, p = 0.011) and age (r = -0.50, p = 0.005) in the alcoholics, generally. NS scores were higher in alcoholics with antisocial personality disorder (p = 0.004) than among other alcoholics. CONCLUSION: Among alcoholics, NS correlated positively with DAT density, which is in line with Cloninger's theory concerning personality and character.