267Manuscript (excluding references, tables and figure legends): 3671References: 36Number of tables: 3 3 ABSTRACT An autosomal dominantly inherited defect in the GCH1 gene that encodes guanosine triphosphate cyclohydrolase 1 (GTPCH1) is the most common cause of dopa-responsive dystonia (DRD). A classic phenotype of young-onset lower limb dystonia, diurnal fluctuations, and excellent response to levodopa has been well recognized in association with GCH1 mutations, and rare atypical presentations have been reported. However, a number of clinical issues remain unresolved including phenotypic variability, long-term response to levodopa and associated non-motor symptoms, and there are limited data on long-term follow up of genetically proven cases. We present a detailed clinical evaluation of 34 patients (19 women, 15 men) with confirmed mutations in the GCH1 gene. We found that the classic phenotype was most frequent (n=23), with female predominance (F:M=16:7), and early onset (mean 4.5 years) with involvement of legs. However, a surprisingly large number of patients developed craniocervical dystonia, with spasmodic dysphonia being the predominant symptom in two subjects. A subset of patients, mainly men, presented with either a youngonset (mean 6.8 years) mild DRD variant not requiring treatment (n=4), or with an adult-onset (mean 37 years) Parkinson's disease-like phenotype (n=4). Two siblings were severely affected with early hypotonia and delay in motor development, associated with compound heterozygous GCH1 gene mutations. We also describe a number of supplementary features including restless legs-like symptoms, influence of female sex hormones, predominance of tremor or parkinsonism in adult-onset cases, initial reverse reaction to levodopa, recurrent episodes of depressive disorder, and specific levodopa-resistant symptoms (writer's cramp, dysphonia, truncal dystonia). We report that levodopa was used effectively and safely in 20 pregnancies, and did not cause any foetal abnormalities.
Progressive supranuclear palsy (PSP) is a neurodegenerative disease presenting with voluntary gaze difficulties, early falls, and Parkinsonism. Neuronal loss, associated with intracellular neurofibrillary tangles and activated microglia, is found targeting the basal ganglia, brainstem nuclei, and frontal cortex. [11C](R)-PK11195 PET is a marker of peripheral benzodiazepine binding sites (PBBS) expressed by activated microglia. We have used [11C](R)-PK11195 PET to demonstrate in vivo the degree and distribution of the glial response to the degenerative process in four patients with PSP. Compared to normal age-matched controls, the PSP patient group showed significantly increased mean [11C](R)-PK11195 binding in the basal ganglia, midbrain, the frontal lobe, and the cerebellum. Two of the patients were rescanned after 6 to 10 months and during that time the level of microglial activation remained stable. [11C](R)-PK11195 PET reveals a pattern of increased microglial activation in PSP patients involving cortical and subcortical regions that corresponds well with the known distribution of neuropathological changes. [11C](R)-PK11195 PET, therefore, may help in characterizing in vivo the underlying disease activity in PSP.
Corticobasal degeneration (CBD) is a neurodegenerative parkinsonian disorder of unknown cause that shows considerable clinical heterogeneity. In CBD, activated microglia have been shown to be associated closely with the extensive tau pathology found in the affected basal ganglia, brainstem nuclei, and cortical regions. We report on the use of [(11)C](R)-(1-[2-chlorophenyl]-N-methyl-N-[1-methylpropyl]-3-isoquinoline carboxamide) (PK11195) positron emission tomography (PET), a marker of peripheral benzodiazepine binding sites (PBBS) that are expressed by activated microglia, to demonstrate in vivo the degree and distribution of glial response to the degenerative process in 4 patients with CBD. Compared with normal age-matched controls, the CBD patient group showed significantly increased mean [(11)C](R)-PK11195 binding in the caudate nucleus, putamen, substantia nigra, pons, pre- and postcentral gyrus, and the frontal lobe. [11C](R)-PK11195 PET reveals a pattern of increased microglial activation in CBD patients involving cortical regions and the basal ganglia that corresponds well with the known distribution of neuropathological changes, which may therefore help to characterize in vivo the underlying disease activity in CBD.
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