Ruth H. Walker

Movement Disorder Society-Sponsored Revision of the Unified Parkinson's Disease Rating Scale (MDS-UPDRS): Scale Presentation and Clinimetric Testing Results

We present a clinimetric assessment of the Movement Disorder Society (MDS)‐sponsored revision of the Unified Parkinsons Disease Rating Scale (MDS‐UPDRS). The MDS‐UDPRS Task Force revised and expanded the UPDRS using recommendations from a published critique. The MDS‐UPDRS has four parts, namely, I: Non‐motor Experiences of Daily Living; II: Motor Experiences of Daily Living; III: Motor Examination; IV: Motor Complications. Twenty questions are completed by the patient/caregiver. Item‐specific instructions and an appendix of complementary additional scales are provided. Movement disorder specialists and study coordinators administered the UPDRS (55 items) and MDS‐UPDRS (65 items) to 877 English speaking (78% non‐Latino Caucasian) patients with Parkinsons disease from 39 sites. We compared the two scales using correlative techniques and factor analysis. The MDS‐UPDRS showed high internal consistency (Cronbachs alpha = 0.79–0.93 across parts) and correlated with the original UPDRS (ρ = 0.96). MDS‐UPDRS across‐part correlations ranged from 0.22 to 0.66. Reliable factor structures for each part were obtained (comparative fit index > 0.90 for each part), which support the use of sum scores for each part in preference to a total score of all parts. The combined clinimetric results of this study support the validity of the MDS‐UPDRS for rating PD.

Astrocyte-Neuron Lactate Transport Is Required for Long-Term Memory Formation

We report that, in the rat hippocampus, learning leads to a significant increase in extracellular lactate levels that derive from glycogen, an energy reserve selectively localized in astrocytes. Astrocytic glycogen breakdown and lactate release are essential for long-term but not short-term memory formation, and for the maintenance of long-term potentiation (LTP) of synaptic strength elicited in vivo. Disrupting the expression of the astrocytic lactate transporters monocarboxylate transporter 4 (MCT4) or MCT1 causes amnesia, which, like LTP impairment, is rescued by L-lactate but not equicaloric glucose. Disrupting the expression of the neuronal lactate transporter MCT2 also leads to amnesia that is unaffected by either L-lactate or glucose, suggesting that lactate import into neurons is necessary for long-term memory. Glycogenolysis and astrocytic lactate transporters are also critical for the induction of molecular changes required for memory formation, including the induction of phospho-CREB, Arc, and phospho-cofilin. We conclude that astrocyte-neuron lactate transport is required for long-term memory formation.

McLeod neuroacanthocytosis: Genotype and phenotype†

McLeod syndrome is caused by mutations of XK, an X‐chromosomal gene of unknown function. Originally defined as a peculiar Kell blood group variant, the disease affects multiple organs, including the nervous system, but is certainly underdiagnosed. We analyzed the mutations and clinical findings of 22 affected men, aged 27 to 72 years. Fifteen different XK mutations were found, nine of which were novel, including the one of the eponymous case McLeod. Their common result is predicted absence or truncation of the XK protein. All patients showed elevated levels of muscle creatine phosphokinase, but clinical myopathy was less common. A peripheral neuropathy with areflexia was found in all but 2 patients. The central nervous system was affected in 15 patients, as obvious from the occurrence of seizures, cognitive impairment, psychopathology, and choreatic movements. Neuroimaging emphasized the particular involvement of the basal ganglia, which was also detected in 1 asymptomatic young patient. Most features develop with age, mainly after the fourth decade. The resemblance of McLeod syndrome with Huntingtons disease and with autosomal recessive chorea‐acanthocytosis suggests that the corresponding proteins—XK, huntingtin, and chorein—might belong to a common pathway, the dysfunction of which causes degeneration of the basal ganglia.

The Sac1 Domain of SYNJ1 Identified Mutated in a Family with Early-Onset Progressive Parkinsonism with Generalized Seizures

This study aimed to elucidate the genetic causes underlying early‐onset Parkinsonism (EOP) in a consanguineous Iranian family. To attain this, homozygosity mapping and whole‐exome sequencing were performed. As a result, a homozygous mutation (c.773G>A; p.Arg258Gln) lying within the NH2‐terminal Sac1‐like inositol phosphatase domain of polyphosphoinositide phosphatase synaptojanin 1 (SYNJ1), which has been implicated in the regulation of endocytic traffic at synapses, was identified as the disease‐segregating mutation. This mutation impaired the phosphatase activity of SYNJ1 against its Sac1 domain substrates in vitro. We concluded that the SYNJ1 mutation identified here is responsible for the EOP phenotype seen in our patients probably due to deficiencies in its phosphatase activity and consequent impairment of its synaptic functions. Our finding not only opens new avenues of investigation in the synaptic dysfunction mechanisms associated with Parkinsonism, but also suggests phosphoinositide metabolism as a novel therapeutic target for Parkinsonism.

Immunohistochemical localization and distribution of torsinA in normal human and rat brain

Dystonia is a disease of basal ganglia function, the pathophysiology of which is poorly understood. Primary torsion dystonia is one of the most severe types of inherited dystonia and can be transmitted in an autosomal dominant manner. Recently, one mutation causing this disorder was localized to a gene on chromosome 9q34, designated DYT1, which encodes for a novel protein termed torsinA. The role of this protein in cellular function, in either normal or dystonic individuals is not known. We have developed a polyclonal antibody to torsinA and report its localization and distribution in normal human and rat brain. We demonstrate that torsinA is widely expressed in brain and peripheral tissues. Immunohistochemical studies of normal human and rat brain reveal the presence of torsinA in the dopaminergic neurons of the substantia nigra pars compacta (SNc), in addition to many other regions, including neocortex, hippocampus, and cerebellum. Labeling is restricted to neurons, as shown by double-immunofluorescence microscopy, and is present in both nuclei and cytoplasm. An ATP-binding property for torsinA has been suggested by its homology to ATP-binding proteins; this was confirmed by enrichment of torsinA in ATP-agarose affinity-purified fractions from tissue homogenates. An understanding of the role of torsinA in cellular function and the impact of the mutation (deletion of a glutamic acid at residue 303) is likely to provide insights into the etiopathogenesis of primary dystonia.

ε-Sarcoglycan mutations found in combination with other dystonia gene mutations

Myoclonus‐dystonia is a movement disorder associated with mutations in the ε‐sarcoglycan gene (SGCE) in most families and in the DRD2 and DYT1 genes in two single families. In both of the latter families, we also found a mutation of SGCE. The molecular mechanisms through which the detected mutations may contribute to myoclonus‐dystonia remain to be determined.

Diagnosis and Treatment of Chorea Syndromes

Chorea is a common movement disorder which can be caused by a large variety of diseases including neurodegenerative diseases, metabolic diseases, and autoimmune diseases, or can be secondary to structural changes. The basal ganglia seem to be mainly involved in the pathophysiology indicating the vulnerability of this region. The diagnosis can be challenging, especially if chorea occurs during the treatment of neuropsychiatric conditions, and in these cases, it is difficult to distinguish between medication side effects (i.e., tardive dyskinesia) and the development of a neurodegenerative disease. Most therapeutic approaches are predominantly symptomatic, with a focus on multidisciplinary care for many patients. Nevertheless, some underlying diseases can be successfully treated and must not be missed. In this review, we summarize recent new developments in the differential diagnosis of chorea syndromes and suggest a pathway for a successful diagnosis of chorea in infancy, childhood, and adulthood for daily practice.

Neurologic phenotypes associated with acanthocytosis

The term “neuroacanthocytosis” is normally used to refer to autosomal recessive chorea–acanthocytosis and X-linked McLeod syndrome, but there are other movement disorders in which erythrocyte acanthocytosis may also be seen, such as Huntington disease-like 2 and pantothenate kinase-associated neurodegeneration. Disorders of serum lipoproteins such as Bassen–Kornzweig disease form a distinct group of neuroacanthocytosis syndromes in which ataxia is observed, but movement disorders are not seen. Genetic testing has enabled us to distinguish between these disorders, even when there are considerable similarities between phenotypes. Improved detection is important for accurate genetic counseling, for monitoring for complications, and, it is hoped, for implementing causal treatments, once these become available. As in other neurodegenerative conditions, animal models are a promising strategy for the development of such therapies.

Phenotypic features of myoclonus-dystonia in three kindreds

Background Myoclonus-dystonia (M-D) is a movement disorder with involuntary jerks and dystonic contractions. Autosomal dominant alcohol-responsive M-D is associated with mutations in the &egr;-sarcoglycan gene (SGCE) (six families) and with a missense change in the D2 dopamine receptor (DRD2) gene (one family). Objective To investigate the clinical phenotype associated with M-D including motor symptoms, psychiatric disorders, and neuropsychological deficits. Methods Fifty individuals in three M-D families were evaluated and a standardized neurologic examination and DNA analysis were performed. Psychiatric profiles were established with the Diagnostic Interviews for Genetic Studies (DIGS) and the Yale-Brown Obsessive-Compulsive Scale (YBOCS). Cognition was evaluated with standardized neuropsychological tests. Results Distinct truncating mutations in the SGCE gene were identified in each family. Additionally, a missense alteration in the DRD2 gene was previously found in one family. Motor expression was variable, with onset of myoclonus or dystonia or both affecting the upper body and progression to myoclonus and dystonia in most cases. Psychiatric profiles revealed depression, obsessive-compulsive disorder, substance abuse, anxiety/panic/phobic disorders, and psychosis in two families, and depression only in the third family. Averaged scores from cognitive testing showed impaired verbal learning and memory in one family, impaired memory in the second family, and no cognitive deficits in the third family. Conclusions Cognitive deficits may be associated with M-D. Psychiatric abnormalities correlate with the motor symptoms in affected individuals. Assessment of additional M-D families with known mutations is needed to determine whether these are characteristic phenotypic manifestations of M-D.

Evaluation of acupuncture in the treatment of Parkinson's disease: a double-blind pilot study.

As many as 40% of patients with Parkinsons disease (PD) use some form of complementary medicine during the course of their illness, and many try acupuncture. One nonblinded study of the effects of acupuncture in PD suggested that it might be helpful for some aspects of PD. We performed a double‐blind, randomized, pilot study comparing acupuncture to a control nonacupuncture procedure to determine the effects of acupuncture upon a variety of PD‐associated symptoms. Fourteen patients with Stage II or III PD received acupuncture or a control nonacupuncture protocol. Before and after treatment, patients were evaluated using the Motor subscale of the Unified Parkinsons Disease Rating Scale (UPDRS), the Parkinsons Disease Questionnaire (PDQ‐39), and the Geriatric Depression Scale. There were no statistically significant changes for the outcomes measured. In the patients who received acupuncture, nonsignificant trends toward improvement were noted in the Activities of Daily Living score of the PDQ‐39, the PDQ‐39 Summary Index, and the Motor subscale of the UPDRS.