Tourette syndrome (TS) is a neuropsychiatric disorder with childhood onset characterized by motor and phonic tics. Obsessivecompulsive disorder (OCD) is often concomitant with TS. Dysfunctional tonic and phasic dopamine (DA) and serotonin (5-HT) metabolism may play a role in the pathophysiology of TS. We simultaneously measured the density, affinity, and brain distribution of dopamine D 2 receptors (D 2 -R's), dopamine transporter binding potential (BP), and amphetamine-induced dopamine release (DA rel ) in 14 adults with TS and 10 normal adult controls. We also measured the brain distribution and BP of serotonin 5-HT 2A receptors (5-HT 2A R), and serotonin transporter (SERT) BP, in 11 subjects with TS and 10 normal control subjects. As compared with controls, DA rel was significantly increased in the ventral striatum among subjects with TS. Adults with TS + OCD exhibited a significant D 2 -R increase in left ventral striatum. SERT BP in midbrain and caudate/putamen was significantly increased in adults with TS (TS + OCD and TS-OCD). In three subjects with TS + OCD, in whom D 2 -R, 5-HT 2A R, and SERT were measured within a 12-month period, there was a weakly significant elevation of DA rel and 5-HT 2A BP, when compared with TS-OCD subjects and normal controls. The current study confirms, with a larger sample size and higher resolution PET scanning, our earlier report that elevated DA rel is a primary defect in TS. The finding of decreased SERT BP, and the possible elevation in 5-HT 2A R in individuals with TS who had increased DA rel , suggest a condition of increased phasic DA rel modulated by low 5-HT in concomitant OCD.
The long-term consequences of chronic manganese (Mn) exposure on neurological health is a topic of great concern to occupationally-exposed workers and in populations exposed to moderate levels of Mn. We have performed a comprehensive assessment of Mn effects on dopamine (DA) synapse markers using Positron Emission Tomography (PET) in the non-human primate brain. Young male Cynomolgus macaques were given weekly i.v. injections of 3.3-5.0 mg Mn/kg (n=4), 5.0-6.7 mg Mn/kg (n=5), or 8.3-10.0 mg Mn/kg (n=3) for 7-59 weeks and received PET studies of various DA synapse markers before (baseline) and at one or two time points during the course of Mn exposure. We report that amphetamine-induced DA release measured by PET is markedly impaired in the striatum of Mn-exposed animals. The effect of Mn on DA release was present in the absence of changes in markers of dopamine terminal integrity determined in post-mortem brain tissue from the same animals. These findings provide compelling evidence that the effects of Mn on DA synapses in the striatum are mediated by inhibition of DA neurotransmission and are responsible for the motor deficits documented in these animals.
These results suggest a possible relationship between DAT BP and memory deficits in abstinent METH users, and lend support to the notion that METH produces lasting effects on central DA neurons in humans. As METH can also produce toxic effects on serotonin (5-HT) neurons, further study is needed to address the potential role of brain 5-HT depletion in cognitive deficits in abstinent METH users.
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