Patterns of cell loss in Huntington's disease

The key neuropathological features of Huntington's disease (HD) are neuronal loss and astroglial proliferation in the striatum. Despite the lack of specificity of cell loss seen with traditional histological methods, the degenerative process in HD is not uniformly expressed in all neuronal classes. Aspiny interneurons, such as those that contain the peptides somatostatin and neuropeptide Y, and the enzyme NADPH diaphorase, are spared, whereas spiny projecting neurons show early morphological changes. We have reproduced this differential neuronal involvement by injecting rat striatum with quinolinic acid, a naturally occurring excitotoxin. If such a neurotoxin is responsible for neuronal loss in HD, pharmacological blockade may prevent development of the disease in asymptomatic, at risk, patients.     

Striatal neuronal loss correlates with clinical motor impairment in Huntington's disease

Huntington's disease (HD) is characterized clinically by chorea, motor impairment, psychiatric manifestations, and dementia. Atrophy of the striatum is the neuropathological hallmark of HD, and previous studies have suggested that striatal atrophy correlates more closely with motor impairment than with chorea. Motor impairment, as measured by motor impairment score, correlates with functional disability in HD patients, but chorea does not. In this study, we investigated the relation between neuronal loss and these motor features. We conducted neuropathological and stereologic assessments of neurons in putamen and subthalamic nuclei in HD patients and age‐matched controls. In putamen, we estimated the total number and volume of medium spiny neurons labeled with dopamine‐ and cAMP‐regulated phosphoprotein 32 kDa (DARPP‐32). In subthalamic nuclei, we estimated the total number of neurons on hematoxylin & eosin/luxol fast blue stains. In putamen of HD, immunohistochemistry showed DARPP‐32 neuronal atrophy with extensive disruption of neurites and neuropil; stereologic studies found significant decreases in both the number and size of DARPP‐32 neurons; we also detected a significant reduction of overall putamen volume in HD patients, compared to controls. In subthalamic nuclei, there was a mild, but significant, neuronal loss in the HD group. The loss of neurons in putamen and subthalamic nuclei as well as putaminal atrophy were significantly correlated with severity of motor impairment, but not with chorea. Our findings suggest that neuronal loss and atrophy in striatum and neuronal loss in subthalamic nuclei contribute specifically to the motor impairment of HD, but not to chorea. © 2012 Movement Disorder Society     

Genetically confirmed clinical Huntington's disease with no observable cell loss

Huntington's disease (HD) results from neurodegeneration of the neostriatum. The mutation on chromosome 4 is an expansion in a triplet repeat (CAG)(n) located within the IT15 gene. Only six patients have been reported with clinical features of HD in association with limited neuropathology. Of these, only one has had the diagnosis confirmed by genetic (DNA) testing. We describe a patient with the clinical phenotype and genetically confirmed HD but unexpected limited neuropathology. The patient was seen because of aggressive behaviour and memory problems of two years duration. The differential diagnosis included HD although there was no family history. DNA testing was positive for the HD mutation. Clinical follow up three months later confirmed classic features of HD. Progression of the disease was rapid with death three years later. Neuropathology revealed a largely intact neostriatum with bilateral ischaemic damage and cell loss in the external globus pallidus. Such pathology alone could explain the clinical features of HD. This is only the second report of genetically confirmed clinically manifest HD with little evidence of HD neuropathology. There are several unusual features which could not have been predicted by the clinical picture, in particular the progressive course of bilateral ischaemic changes restricted to the external globus pallidus. The potential to miss other HD cases at post-mortem examination, and the implications of this for family members, are discussed.     

Abnormalities of motor timing in Huntington's disease

The ability of patients with Huntington's disease (HD) and control subjects to produce rhythmic finger tapping movements at target frequencies (1-5 Hz) signalled by auditory cues, and to sustain the tapping tempo following sudden withdrawal of cues, was investigated. HD performance, in both the presence and absence of cues, was characterised by, (i) marked irregularity of instantaneous tapping rates and (ii) a tendency to tap too slowly at higher (3-5 Hz) frequency targets and too rapidly at low target frequencies. Analysis of the variability of inter-tap intervals, during uncued tapping at a target rate of 1.8 Hz, using Wing and Kristofferson's model of motor timing (Wing AM, Kristofferson AB. Percept. Psychophys. 1973; 14: 5-12), indicated disturbances of both hypothetical 'clock' and 'motor implementation' systems in HD.     

Weight loss in early stage of Huntington's disease

BACKGROUND: Huntington's disease (HD) is an autosomal dominant disease with neurologic manifestations. In transgenic mouse models of HD, weight loss is recognized as a feature associated with the disease onset. It is unclear whether a similar pattern occurs in humans. METHODS: Data from the Huntington Study Group were used to evaluate whether HD is associated with lower body mass index (BMI) at the earliest stage of the disease. There were 361 case subjects in whom HD had been diagnosed with an independence scale rating of 100 (no special care needed), a total functional capacity score of >or=11, and HD duration of <4 years. For each case subject, five sex- and age-matched control subjects were selected from the National Heart, Lung, and Blood Institute Family Heart Study or the Framingham Offspring Study. RESULTS: Among case subjects, neither disease duration, nor dystonia, nor chorea score was significantly associated with BMI. BMI was significantly lower among case than among control subjects. Among men, age-adjusted BMI (+/-SE) was 25.90 +/- 0.34 kg/m(2) for case subjects with HD and 27.68 +/- 0.16 kg/m(2) for control subjects. Among women, corresponding values were 24.34 +/- 0.43 for case subjects with HD and 26.63 +/- 0.21 kg/m(2) for control subjects. CONCLUSIONS: At an early stage of the disease, subjects with Huntington's disease had lower body mass index than matched controls from the general population. The cause of weight loss is unknown but the parallel to observations in Huntington's disease transgenic mice suggests that it is a significant hallmark of Huntington's disease gene expression.     

Genetically confirmed Huntington's disease masquerading as motor neuron disease

We describe a patient with Huntington's disease (HD) who showed asymmetrical upper limb amyotrophy as a main manifestation. Chorea and psychiatric symptoms were not prominent. Electromyography revealed generalized active and chronic denervation and fasciculations. A genetic test showed 46 CAG repeats in the huntingtin gene. Asymmetrical amyotrophy restricted to the upper limb has been reported in some patients with progressive chorea and amyotrophy without acanthocytosis, but genetically proven cases of HD have rarely been reported. It is not known why only a few HD patients show the motor neuronal loss; however, certain as‐yet‐unidentified genetic factors combined with some environment factors and the underlying cellular dysfunctions by polyglutamine aggregation could be responsible for the motor neuronal loss similar to that in amyotrophic lateral sclerosis. © 2008 Movement Disorder Society     

Relationship between motor and cognitive disorders in Huntington's disease

Summary Akinesia and mental decline appear to be more appropriate criteria than hyperkinesia for the evaluation of the stage and progression of Huntington's disease (HD). In order to establish the relationship between motor and cognitive impairment in the disease, 20 non-demented HD patients were compared with 44 control subjects with respect to motor and cognitive performance. HD patients were significantly impaired in almost all cognitive functions in comparison with controls. Reaction time (RT) and movement time (MT) were considerably slower in HD patients when compared with controls and with patients with parkinsonism. Hyperkinesias did not correlate with cognitive impairment, but there was a good correlation between RT, MT and cognitive functions. Therefore, it seems that akinesia evaluated by RT and MT is an important sign in HD and proceeds at the same rate as mental decay.     

Tracking motor impairments in the progression of Huntington's disease

The Unified Huntington's Disease Rating Scale is used to characterize motor impairments and establish motor diagnosis. Little is known about the timing of diagnostic confidence level categories and the trajectory of motor impairments during the prodromal phase. Goals of this study were to estimate the timing of categories, model the prodromal trajectory of motor impairments, estimate the rate of motor impairment change by category, and provide required sample size estimates for a test of efficacy in clinical trials. In total, 1010 gene‐expanded participants from the Neurobiological Predictors of Huntington's Disease (PREDICT‐HD) trial were analyzed. Accelerated failure time models were used to predict the timing of categories. Linear mixed effects regression was used to model the longitudinal motor trajectories. Age and length of gene expansion were incorporated into all models. The timing of categories varied significantly by gene expansion, with faster progression associated with greater expansion. For the median expansion, the third diagnostic confidence level category was estimated to have a first occurrence 1.5 years before diagnosis, and the second and first categories were estimated to occur 6.75 years and 19.75 years before diagnosis, respectively. Motor impairments displayed a nonlinear prodromal course. The motor impairment rate of change increased as the diagnostic confidence level increased, with added acceleration for higher progression scores. Motor items can detect changes in motor impairments before diagnosis. Given a sufficiently high progression score, there is evidence that the diagnostic confidence level can be used for prodromal staging. Implications for Huntington's disease research and the planning of clinical trials of efficacy are discussed. © 2013 International Parkinson and Movement Disorder Society     

Human neural stem cell transplants improve motor function in a rat model of Huntington's disease

The present study investigated the neuroanatomical and behavioral effects of human stem cell transplants into the striatum of quinolinic acid (QA)-lesioned rats. Twenty-four rats received unilateral QA (200 nM/microl) injections into the striatum. One week later, rats were transplanted with stem cells derived from human fetal cortex (12 weeks postconception) that were either 1) pretreated in culture media with the differentiating cytokine ciliary neurotrophic factor (CNTF; n = 9) or 2) allowed to grow in culture media alone (n=7). Each rat was injected with a total of 200,000 cells. A third group of rats (n=8) was given a sham injection of vehicle. Rats transplanted with human stem cells performed significantly better over the 8 weeks of testing on the cylinder test compared with those treated with vehicle (P < or = 0.001). Stereological striatal volume analyses performed on Nissl-stained sections revealed that rats transplanted with CNTF-treated neurospheres had a 22% greater striatal volume on the lesioned side compared with those receiving transplants of untreated neurospheres (P = 0.0003) and a 26% greater striatal volume compared with rats injected with vehicle (P < or = 0.0001). Numerous human nuclei-positive cells were visualized in the striatum in both transplantation groups. Grafted cells were also observed in the globus pallidus, entopeduncular nucleus, and substantia nigra pars reticulata, areas of the basal ganglia receiving striatal projections. Some of the human nuclei-positive cells coexpressed glial fibrillary acidic protein and NeuN, suggesting that they had differentiated into neurons and astrocytes. Taken together, these data demonstrate that striatal transplants of human fetal stem cells elicit behavioral and anatomical recovery in a rodent model of Huntington's disease.     

Lamotrigine in motor and mood symptoms of Huntington's disease.

Huntington's disease (HD) is an autosomal dominant neurodegenerative disorder characterized by midlife onset, progressive course and a combination of motor, cognitive and psychiatric symptoms. Since dysregulation of the glutamate/calcium signalling pathway is beginning to emerge as a potential cause of neuron degeneration, antagonists of glutamate pathways such as lamotrigine, may have beneficial value for treatment of HD. We describe the use of lamotrigine in the treatment of an HD patient with motor abnormality (choreoathetoidic movements) complicated by psychiatric abnormalities (depression, severe mood swing and recurrent high risk of suicidal attempts). The patient's depression, severe mood swing and choreoathetoidic movements significantly improved with 300 mg/day of lamotrigine. Experience from our patient suggests that lamotrigine might be effective in treating HD patients with motor and mood symptoms. Further controlled studies are warranted to confirm its efficacy in patients of this type.     

Reduced Purkinje cell density in Huntington's disease

We studied, in a "blind" and quantitative fashion, the density of cerebellar Purkinje cells in 17 adult cases of Huntington's disease (HD), 17 patients with other movement disorders, 17 with schizophrenia, and 23 normal controls. There was a highly significant reduction in Purkinje cell density in HD compared with any of the other three groups. A much smaller difference in neuronal density between patients with other movement disorders and normal controls was barely significant. Eight of the 17 HD patients and only 1 of the other 57 subjects had Purkinje cell density less than 50% of the mean for the normal controls. The low density of Purkinje cells in HD could not be attributed to aging, seizures, or cause of death, nor was it merely a part of a generalized brain atrophy. The loss of large Purkinje cells suggests that the neuronal loss in HD may not be restricted to small and medium-size neurons.     

Stem cell transplantation for Huntington's disease

By way of commentary on a recent report that transplanted adult neural progenitor cells can alleviate functional deficits in a rat lesion model of Huntington's disease [Vazey, E.M., Chen, K., Hughes, S.M., Connor, B., 2006. Transplanted adult neural progenitor cells survive, differentiate and reduce motor function impairment in a rodent model of Huntington's disease. Exp. Neurol. 199, 384-396], we review the current status of the field exploring the use of stem cells, progenitor cells and immortalised cell lines to repair the lesioned striatum in animal models of the human disease. A remarkably rich range of alternative cell types have been used in various animal models, several of which exhibit cell survival and incorporation in the host brain, leading to subsequent functional recovery. In comparing the alternatives with the 'gold standard' currently offered by primary tissue grafts, key issues turn out to be: cell survival, differentiation prior to and following implantation into striatal-like phenotypes, integration and connectivity with the host brain, the nature of the electrophysiological, motor and cognitive tests used to assess functional repair, and the mechanisms by which the grafts exert their function. Although none of the alternatives yet has the capacity to match primary fetal tissues for functional repair, that standard is itself limited, and the long term goal must be not just to match but to surpass present capabilities in order to achieve fully functional reconstruction reliably, flexibly, and on demand.     

Aggregate distribution in frontal and motor cortex in Huntington's disease brain

Insoluble protein aggregates have been considered a pathological hallmark of Huntington's disease and other polyglutamine disorders. In this study the number of aggregates was assessed in the superior frontal gyrus and motor cortex of seven Huntington's disease patients and was compared with the symptoms (motor/mood) these patients displayed during the course of the disease. Regardless of the pattern of symptoms present in the patients, there was a consistently higher number of nuclear and non-nuclear aggregates in the superior frontal gyrus than in the motor cortex. This suggests that there is a consistent regional difference in the density of aggregates and that this consistency is not reflected in the variable symptomatology between cases.     

Central motor conduction to hand and leg muscles in Huntington's disease

Using electromagnetic stimulation of motor cortex and cervical or lumbar roots, central conduction times to the thenar and abductor hallucis muscles bilaterally were determined in a population of 32 patients with definite Huntington's disease (HD) and 14 subjects at risk. The HD patients showed a wide variety of different severity of choreatic movements, disease duration, and total disability. None of the stimulation parameters (latency after cortical stimulation, amplitude, threshold, or central conduction time) revealed statistically significant abnormalities compared with a normal control group as well as between patient subgroups. The data indicate that central motor conduction to upper and lower extremity muscles remains normal in Huntington's disease irrespective of the severity of the disorder.     

Striatal gray matter loss in Huntington's disease is leftward biased.

In Huntington's disease (HD), the distribution of pathological changes throughout the brain is incompletely understood. Some studies have identified leftward-biased lateralization, whereas others did not. We performed magnetic resonance imaging and a voxel-based asymmetry analysis in 44 right-handed HD gene carriers (presymptomatic, n = 5; stage I, n = 28; stage II, n = 11) and 44 right-handed healthy controls. The group comparison revealed leftward-biased gray matter loss in the striatum. Further analyses showed no indication of asymmetry in presymptomatic HD patients but an increase in asymmetry in the course of the HD stages under examination. Our study demonstrates and discusses leftward-biased gray matter loss in HD.     

Tongue force analysis assesses motor phenotype in premanifest and symptomatic Huntington's disease

Motor symptoms in Huntington's Disease (HD) are commonly assessed by the Unified Huntington's Disease Rating Scale‐Total Motor Score (UHDRS‐TMS). However, the UHDRS‐TMS is limited by interrater variability, its categorical nature, and insensitivity in premanifest subjects. More objective and quantitative measures of motor phenotype may complement the use of the UHDRS‐TMS as outcome measure and increase the power and sensitivity of clinical trials. Deficits in tongue protrusion are well acknowledged in HD and constitute a subitem of the UHDRS‐TMS. We, therefore, investigated whether objective and quantitative assessment of tongue protrusion forces (TPF) provides measures that (1) correlate to the severity of motor phenotype detected in the UHDRS‐TMS in symptomatic HD, (2) detect a motor phenotype in premanifest HD gene‐carriers, and (3) exhibit a correlation to the genotype as assessed by a disease burden score (based on CAG‐repeat length and age). Using a precalibrated force transducer, the ability of premanifest gene carriers (n = 15) and subjects with symptomatic HD (n = 20) to generate and maintain isometric TPF at three target force levels (0.25, 0.5, and 1.0 N) was assessed and compared with age‐matched controls (n = 20) in a cross‐sectional study. Measures of variability of TPF and tongue contact time distinguished controls, premanifest, and symptomatic HD groups and correlated to the UHDRS‐TMS and disease burden score, suggesting a strong genotype‐phenotype correlation. Group distinction was most reliable at the lowest target force level. We conclude that assessment of TPF may be a useful objective and quantitative marker of motor dysfunction in premanifest and symptomatic HD. © 2010 Movement Disorder Society     

Interrater agreement in the assessment of motor manifestations of Huntington's disease.

With prospects improving for experimental therapeutics aimed at postponing the onset of illness in preclinical carriers of the Huntington's disease (HD) gene, we assessed agreement among experienced clinicians with respect to the motor manifestations of HD, a relevant outcome measure for preventive trials in this population. Seventy-five clinicians experienced in the evaluation of patients with early HD and six non-clinicians were shown a videotape compiled from the film archives of the United States-Venezuela Collaborative HD Research Project. Observers were asked to rate a 2-3-minute segment of the motor examination for each of 17 at-risk subjects. The rating scale ranged from 0 (normal) to 4 (unequivocal extrapyramidal movement disorder characteristic of HD). As measured by a weighted kappa statistic, there was substantial agreement among the 75 clinicians in the judgment of unequivocal motor abnormalities comparing scale ratings of 4 with ratings that were not 4 (weighted kappa = 0.67; standard error (SE) = 0.09). Agreement among the non-clinicians was only fair (weighted kappa = 0.28; SE = 0.10). Even under the artificial conditions of a videotape study, experienced clinicians show substantial agreement about the signs that constitute the motor manifestations of illness in subjects at risk for HD. We expect these findings to translate to a similar level of interobserver agreement in the clinical trial setting involving experienced investigators examining live patients.     

Effects of rivastigmine on motor and cognitive impairment in Huntington's disease.

To evaluate the efficacy of rivastigmine on motor and cognitive impairment in Huntington's disease (HD), we carried out a prospective, open-label, randomized, controlled study. Twenty-one HD patients were enrolled: 14 were randomly sorted into medication and 7 to no-treatment groups. Clinical and demographic features were similar between groups. After 8 months, an efficacy evaluation was carried out to compare the two groups. The improvement of cholinergic transmission in HD patients seemed to have a slight effect in ameliorating cognitive performance and slowing motor deterioration.     

Sub-movement cueing and motor sequence execution in patients with Huntington's disease.

OBJECTIVES: We investigated whether the type of sub-movement cueing during the execution of motor sequences influences the movement time in patients with Huntington's disease. METHODS: The kinematic variables of rapid sequential free arm movements executed with different types of sub-movement cueing - externally-triggered (ET) and self-initiated (SI) tasks - were analyzed in 7 patients and 7 healthy controls. The ET task required subjects to initiate movements in response to consecutive visual go signals; the SI task allowed them to start at will. RESULTS: HD patients performed ET and SI tasks slower than normal subjects. Both groups executed ET sequences slower than SI, but movement times for the two tasks differed less in patients than in controls. Patients paused normally between sub-movements during the SI task, but they had slower reaction times for all the sub-movements of the ET task. CONCLUSIONS: Slower execution of both motor tasks indicates that HD patients are bradykinetic in performing sequential free arm movements. Our finding that total movement times for SI and ET tasks differ less in patients than in controls suggests that HD impairs internal more than external cueing mechanisms.