Objective: X-linked dystonia parkinsonism (XDP) is a neurodegenerative movement disorder caused by a single mutation: SINE-VNTR-Alu (SVA) retrotransposon insertion in TAF1. Recently, a (CCCTCT) n repeat within the SVA insertion has been reported as an age-at-onset (AAO) modifier in XDP. Here we investigate the role of this hexanucleotide repeat in modifying expressivity of XDP. Methods: We genotyped the hexanucleotide repeat in 355 XDP patients and correlated the repeat number (RN) with AAO (n = 295), initial clinical manifestation (n = 294), site of dystonia onset (n = 238), disease severity (n = 28), and cognitive function (n = 15). Furthermore, we investigated i) repeat instability by segregation analysis and Southern blotting using postmortem brain samples from two affected individuals and ii) relative TAF1 expression in blood RNA from 31 XDP patients. Results: RN showed significant inverse correlations with AAO and with TAF1 expression and a positive correlation with disease severity and cognitive dysfunction. Importantly, AAO (and not RN) was directly associated with whether dystonia or parkinsonism will manifest at onset. RN was lower in patients affected by mouth/tongue dystonia compared with blepharospasm. RN was unstable across germline transmissions with an overall tendency to increase in length and exhibited somatic mosaicism in brain. Interpretation: The hexanucleotide repeat within the SVA insertion acts as a genetic modifier of disease expressivity in XDP. RN-dependent TAF1 repression and subsequent differences in TAF1 mRNA levels in patients may be potentiated in the brain through somatic variability leading to the neurological phenotype.
X-linked dystonia-parkinsonism is a neurodegenerative movement disorder characterized by adult-onset dystonia combined with parkinsonism over the disease course. Previous imaging and pathological findings indicate exclusive striatal atrophy with predominant pathology of the striosomal compartment in the dystonic phase of X-linked dystonia-parkinsonism. The striosome occupies 10-15% of the entire striatal volume and the density of striosomes follows a rostrocaudal gradient with the rostral striatum being considered striosome-rich. Recent quantitative MRI analyses provided evidence for an additional involvement of the white matter and the pallidum. In this study, we aimed to (i) disentangle the degree of atrophy in the different subdivisions of the striatum; (ii) investigate changes of cortical morphology; and (iii) elucidate the role of the cerebellum in X-linked dystonia-parkinsonism. T1-weighted MRI scans were acquired in 17 male X-linked dystonia-parkinsonism patients with predominant dystonia (40.1 ± 7.5 years) and 17 ethnicity-matched male healthy controls (35.2 ± 7.4 years). Voxel-based morphometry used a region of interest-based approach for the basal ganglia and primary motor cortex, whole brain analysis, and a separate analysis of the cerebellum. Cortical thickness and subcortical volume were measured. Volume loss in X-linked dystonia-parkinsonism affected all parts of the striatum (-29% voxel intensity) but was most pronounced in the associative subdivision (-41%; P < 0.001). The volume loss also involved the external and internal pallidum, albeit to a lesser extent than the striatum (-19% and -12%, P<0.001). Cortical thickness was reduced in the frontal (-4.3%) and temporal cortex (-6.1%). In addition, we found grey matter pathology in the associative part of the cerebellum and increased voxel intensities in the anterior sensorimotor part of the cerebellum and the dorsal ponto-mesencephalic brainstem. Taken together, our analysis of subcortical and cortical grey matter in the dystonic phase of X-linked dystonia-parkinsonism showed that (i) the striosome-enriched rostral striatum was most severely affected; and (ii) cortical thickness was only reduced in those regions that predominantly have anatomical connections to striosomes. Moreover, the cerebellum may be implicated in both disease-related and compensatory changes, highlighting the significance of the cerebellum in the pathophysiology of dystonia.
X-linked dystonia-parkinsonism is a neurodegenerative disorder caused by a founder retrotransposon insertion, in which a polymorphic hexanucleotide repeat accounts for ~50% of age at onset variability. Employing a genome-wide association study to identify additional factors modifying age at onset, we establish that three independent loci are significantly associated with age at onset (p < 5 × 10−8). The lead single nucleotide polymorphisms collectively account for 25.6% of the remaining variance not explained by the hexanucleotide repeat and 13.0% of the overall variance in age at onset in X-linked dystonia-parkinsonism with the protective alleles delaying disease onset by seven years. These regions harbor or lie adjacent to MSH3 and PMS2, the genes that were recently implicated in modifying age at onset in Huntington’s disease, likely through a common pathway influencing repeat instability. Our work indicates the existence of three modifiers of age at onset in X-linked dystonia-parkinsonism that likely affect the DNA mismatch repair pathway.
ObjectiveX‐linked dystonia‐parkinsonism (XDP) is a neurodegenerative disease with adult onset dystonia and subsequent parkinsonism. Postmortem and imaging studies revealed remarkable striatal pathology, with a predominant involvement of the striosomal compartment in the early phase. Here, we aimed to disentangle sequential neurodegeneration in the striatum of XDP patients, provide evidence for preferential loss of distinct striatal areas in the early phase, and investigate whether iron accumulation is present.MethodsWe used multimodal structural magnetic resonance imaging (voxel‐based morphometry and relaxometry) in 18 male XDP patients carrying a TAF1 mutation and 19 age‐matched male controls.ResultsVoxel‐based relaxometry and morphometry revealed (1) a cluster in the anteromedial putamen showing high iron content and severe atrophy (−55%) and (2) a cluster with reduced relaxation rates as a marker for increased water levels and a lower degree of atrophy (−20%) in the dorsolateral putamen. Iron deposition correlated with the degree of atrophy (ρ = −0.585, p = 0.011) and disease duration (ρ = 0.632, p = 0.005) in the anteromedial putamen. In the dorsolateral putamen, sensorimotor putamen atrophy correlated with disease severity (ρ = −0.649, p = 0.004).InterpretationThis multimodal approach identified a patchy pattern of atrophy within the putamen. Atrophy is advanced and associated with iron accumulation in rostral regions of the striatum, whereas neurodegeneration is moderate and still ongoing in dorsolateral areas. Given the short disease duration and predominant dystonic phenotype, these results are well in line with early and preferential degeneration of striosome‐rich striatal areas in XDP. ANN NEUROL 2019;86:517–526
Association of Pallidal Neurostimulation and Outcome Predictors With X-linked Dystonia Parkinsonism
IMPORTANCE Anecdotal evidence suggests that deep brain stimulation (DBS) of the internal globus pallidus (GPi) is effective in ameliorating dystonia in X-linked dystonia parkinsonism (XDP), a disease that is usually refractive to medical therapy. OBJECTIVE To determine the efficacy of GPi-DBS in a cohort of patients with XDP in a prospective study and identify predictors of postoperative outcomes. DESIGN, SETTING, AND PARTICIPANTS This observational prospective cohort study enrolled patients in February 2013 and was completed in December 2014. The patients were followed up for up to 46 months. Patients from the Philippines were treated in a single center in Lübeck, Germany and followed up in the Philippines. Sixteen men with XDP (mean [SD] age, 40.9 [7.3] years; disease duration, 1-6 years) from the Philippines with predominant dystonia were selected. EXPOSURES All patients underwent bilateral GPi-DBS in Lübeck, Germany. MAIN OUTCOMES AND MEASURES Clinical assessment included the motor parts of the Burke-Fahn-Marsden scale (BFMDRS-M) and the Unified Parkinson's Disease Rating Scale (UPDRS-III). T1-based basal ganglia volumetry was performed and correlated with postoperative outcomes. RESULTSThe study participants included 16 Filipino men (mean age, 40.9 years). Masked video ratings revealed significant improvements of dystonia severity 1 week (−55%; range, −94% to 59%; P < .01) and 6 months (−59%; range, −100% to 22%; P < .001) after surgery. The UDPRS-III score also improved, albeit to a lesser extent (−19%; range, −54% to 95%; and −27%; range, −70% to 124%; respectively). Unmasked long-term follow-up confirmed the continued efficacy of GPi-DBS up to 46 months after surgery. Important secondary end points improved, including activities of daily living, pain severity, weight, and quality of life. Caudate atrophy was a predictor of a less beneficial outcome (r = 0.817, P = .004).CONCLUSIONS AND RELEVANCE Internal globus pallidus DBS had a positive association in XDP with predominant dystonia (the primary end point) and contributed to an improved quality of life (the secondary end point). The response to DBS occurred within 1 week. Given the inverse correlation of postoperative benefit and caudate atrophy, GPi-DBS should be considered early during the disease course. Close international collaboration, training, and funding from multiple sources enabled the sustainable follow-up of patients with XDP in the Philippines.
Objective.To investigate the contribution of substantia nigra (SN) and locus coeruleus (LC) pathology to clinical signs and symptoms in Parkinson’s disease (PD) by applying neuromelanin-weighted imaging.Methods.Forty-seven patients with PD and 53 matched controls underwent motor assessment, a neuropsychological test battery and neuromelanin-weighted MRI. Patients with PD have been enrolled after fulfilling the criteria for ‘clinically established PD’ as defined by the Movement Disorders Society Clinical Diagnostic Criteria. Two independent raters identified SN and LC and calculated the contrast-to-noise ratio (CNR).Results.The intra-rater reliability demonstrated a good reliability between raters with an intraclass correlation coefficient of .88 (p<.001) and an inter-rater reliability of .80 (p<.001). Both, SN and LC CNRs were lower in patients with PD (p≤.001) compared to controls. The CNR of SN but not of LC was strongly correlated with disease duration (p≤.001). Neuromelanin pathology of the pars compacta-containing dorso-lateral SN correlated with MDS-UPDRS I, II and III but not cognitive functions. In contrast, neuromelanin pathology of LC was associated with cognitive functions in all tested domains but not with motor impairment or activities of daily living. No such associations were present in controls.Conclusions.Neuromelanin imaging of the SN and LC is well-suited to map neurodegeneration in PD. Neuromelanin pathology of the SN correlates with motor dysfunction whereas LC pathology is related to cognitive impairment. Neuromelanin-weighted imaging of the LC could thus serve as an imaging marker of executive and other cognitive dysfunctions in PD.Classification of Evidence:This study provides Class I evidence that neuromelanin-weighted imaging was associated with the severity of various signs and symptoms in patients with PD.
Background The underlying pathophysiology of Parkinson's disease is complex, involving different molecular pathways, including brain iron deposition and mitochondrial dysfunction. At a molecular level, these disease mechanisms are likely interconnected. Therefore, they offer potential strategies for disease-modifying treatments. We aimed to investigate subcortical brain iron deposition as a potential predictor of the bioenergetic status in patients with idiopathic Parkinson’s disease. Methods Thirty patients with idiopathic Parkinson's disease underwent multimodal MR imaging (T1, susceptibility-weighted imaging, SWI) and 31phosphorus magnetic resonance spectroscopy imaging. SWI contrast-to-noise ratios served as a measure for brain iron deposition in the putamen, caudate, globus pallidus, and thalamus and were used in a multiple linear regression model to predict in-vivo energy metabolite ratios. Results Subcortical brain iron deposition, particularly in the putamen and globus pallidus, was highly predictive of the region-specific amount of high-energy-containing phosphorus metabolites in our subjects. Conclusions Our study suggests that brain iron deposition but not the variability of individual volumetric measurements are highly predictive of mitochondrial impairment in vivo. These findings offer the opportunity, e.g., by using chelating therapies, to improve mitochondrial bioenergetics in patients with idiopathic Parkinson's disease.
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