[Gene-selective treatment approaches for Huntington's disease]. / Genselektive Therapieansätze bei der Huntington-Krankheit.

In Germany at least 8000 and probably up to ca. 14,000 people currently suffer from clinically manifest Huntington's disease (HD). In addition, an estimated 24,000 Germans carry the HD mutation in the huntingtin (HTT) gene and will develop HD during their lifetime. Although HD is a rare neurodegenerative disease, it is currently in the focus of general medical interest: clinical trials have begun that provide a rational basis for hope to slow down the so far relentless progression of the disease, ultimately resulting in patients becoming entirely dependent on nursing care. If treatment is started early enough it may be possible to mitigate the clinical manifestation of HD. These innovative therapeutic approaches aim at inhibiting the de novo production of mutant HTT gene products. A first clinical drug trial to demonstrate the efficacy (phase III) of intrathecal antisense oligonucleotides (ASO, active substance RG6042) was started in 2019. Additional clinical studies on alternative treatment approaches with allele-selective ASOs as well as gene therapeutic approaches using RNA molecules and zinc finger repressor complexes are imminent. This article gives an overview of the current gene-selective therapeutic approaches in HD under discussion.

Progression of motor subtypes in Huntington's disease: a 6-year follow-up study.

The objective of this study is to investigate the progression of predominantly choreatic and hypokinetic-rigid signs in Huntington's disease (HD) and their relationship with cognitive and general functioning over time. The motor signs in HD can be divided into predominantly choreatic and hypokinetic-rigid subtypes. It has been reported in cross-sectional studies that predominantly choreatic HD patients perform better on functional and cognitive assessments compared to predominantly hypokinetic-rigid HD patients. The course of these motor subtypes and their clinical profiles has not been investigated longitudinally. A total of 4135 subjects who participated in the European HD Network REGISTRY study were included and classified at baseline as either predominantly choreatic (n = 891), hypokinetic-rigid (n = 916), or mixed-motor (n = 2328), based on a previously used method. The maximum follow-up period was 6 years. The mixed-motor group was not included in the analyses. Linear mixed models were constructed to investigate changes in motor subtypes over time and their relationship with cognitive and functional decline. Over the 6-year follow-up period, the predominantly choreatic group showed a significant decrease in chorea, while hypokinetic-rigid symptoms slightly increased in the hypokinetic-rigid group. On the Total Functional Capacity, Stroop test, and Verbal fluency task the rate of change over time was significantly faster in the predominantly choreatic group, while on all other clinical assessments the decline was comparable for both groups. Our results suggest that choreatic symptoms decrease over time, whereas hypokinetic-rigid symptoms slightly increase in a large cohort of HD patients. Moreover, different motor subtypes can be related to different clinical profiles.

Error processing in normal aging and in basal ganglia disorders.

Recently it has been shown that effects of aging and pathologically induced changes of basal ganglia structures may have quite similar effects on cognitive functions mediated by the medial prefrontal cortex. The question appears, if this pattern may be assignable to other cognitive functions that are mediated via the basal ganglia and medial prefrontal brain areas. Error processing is a component of executive functions that also depends on these areas and especially on the anterior cingulate cortex (ACC). Hence we ask, if error processing functions are differentially modulated by normal aging and basal ganglia diseases. Error processing mechanisms in these groups were investigated using a cognitive event-related potential (ERP), the error negativity. Enrolling an extended sample of young and elderly controls, as well as patients with Parkinson's and Huntington's disease, we show that modulations of error processing differ between aging, different basal ganglia diseases. Despite that the examined basal ganglia disorder groups (Parkinson's and Huntington's disease) differ in their age they show similar modulations in error processing, suggesting that aging effects are overridden by pathogenic effects. The study shows that it may be valuable to compare aging not only to different forms of basal ganglia disorders in order to gain knowledge about age- and disease-related mechanisms and the effects of these on cognitive functions. Diseases of the basal ganglia may impact error processing above and beyond the effects of normal aging. Although many aging, Parkinson's disease and Huntington's disease studies on error processing functions have already been published, this study ties together several related observations across all of these groups in one experiment.

Chronic subdural haematoma in patients with Huntington's disease.

We studied the frequency of patients who had chronic subdural haematomas (CSDH) and Huntington's disease (HD) in a 1-year study period. In our department a total of 58 patients with CSDH were treated. Four patients (6.9% of them) had HD. Surgical evacuation of the haematoma was performed in all four cases with the use of a twist drill trepanation without a drainage system.

[Segmental dysfunction of sweating in multiple system atrophy]. / Segmentale Schweisssekretionsstörung bei Multisystematrophie.

There are many different causes of anhidrosis. Sweat glands can be absent, atrophic or blocked; sympathetic innervation may be disturbed, or central nervous system damage may prevent perspiration. We present a patient with multiple system atrophy ( MSA) who presented with unilateral anhidrosis of the trunk. MSA is a sporadic neurodegenerative disorder of adults involving the pyramidal, extrapyramidal, cerebellar and/or autonomic system. The findings in our patient could be explained by a depletion of catecholaminergic sympathetic neurons of the thoracic spinal neurons.

Apolipoprotein E genotypes do not influence the age of onset in Huntington's disease.

OBJECTIVE: The epsilon4 allele of the apolipoprotein E (ApoE) gene has been defined as a critical factor for early onset neurodegeneration in Pick's, Parkinson's, and Alzheimer's disease. Unexpectedly, the epsilon4 allele appeared to delay the age of onset in Huntington's disease (HD) patients. Furthermore, sex specific effects were reported on earlier age of onset due to the ApoE epsilon2epsilon3 genotype in males with HD. The age of onset of HD is known to be negatively correlated with increasing lengths of pathogenetic CAG expansions in the huntingtin gene. METHODS: In order to examine the effects of CAG block lengths, we have correlated ApoE genotypes with the age of onset in 145 patients symptomatic for HD with psychiatric and somatic symptoms (depression, psychosis, dementia, choreic, and other movement disorders) harbouring only modestly expanded huntingtin alleles (41-45 CAGs). RESULTS: The negative correlation between age of onset and CAG block length was established in our HD cohort. Statistically significant effects of the epsilon4 allele were not obvious regarding clinical characteristics including age of onset, nor were any sex differences for the epsilon2epsilon3 genotype observed. CONCLUSION: The ApoE genotype does not affect the course of HD significantly.

Methyltetrahydrofolate reductase polymorphism influences onset of Huntington's disease.

Onset of Huntington's disease (HD) negatively correlates with CAG repeat length of the HD gene, which encodes the protein huntingtin. This protein interacts with the homocysteine metabolizing enzyme cystathionine betasynthase (CBS). Objective of this study was to analyze the impact of CAG repeats, polymorphisms of various homocysteine metabolizing enzymes, like CBS, Methyltetrahydrofolate Reductase (MTHTR), Methionine Synthase Reductase (MSR) and methionine synthase (MS) on HD onset in 171 patients. The significant impact of CAG repeats on HD onset (chi2= 25.54, FG = 4, p<0.0001) with a significant correlation between both (R= -0.521, p=0.01) was obvious. HD patients with the homozygous MTHFR-1298-CC significantly (p = 0.024) earlier experienced HD symptoms. There was no influence demonstrable of CBS, MSR and MS. Determination of MTHFR polymorphisms and CAG repeats enables screening for subjects with putative early HD onset in order to study neuroprotective compounds in their efficacy to delay HD symptoms.

Congruent deterioration of complex and simple movements in patients with Huntington's disease.

Rating scales and assessment of simple and complex movements may reflect severity of Huntington's disease (HD). Objectives of our study were to compare scored HD symptoms and outcomes of instrumental tests, which demand for simple (tapping) and complex (peg insertion) movement series, in controls and subjects in various HD stages and to correlate them to each other. Motor test outcomes were significantly worsened in previously untreated and treated HD patients in comparison with HD gene carriers and controls. Peg insertion- and tapping results significantly correlated with the scored HD symptoms. Significant associations appeared between both motor test results in the controls, the previously untreated- and treated HD patients. Results of both instrumental tasks represent no specific diagnostic marker of HD, but the significant associations between both motor test outcomes indicate, that a parallel progress of deterioration of complex and simple movement abilities occurs after start of HD.

Coenzyme Q10 serum levels in Huntington's disease.

Mitochondrial dysfunction contributes to the neurodegenerative process in Huntington's disease (HD). Coenzyme Q10 (CoQ10) enhances mitochondrial complex I activity and may therefore provide a therapeutic benefit in HD. We compared serum CoQ10 levels of previously untreated-and treated HD patients with those of healthy controls. CoQ10 did not significantly (ANCOVA F(dF 2, dF 55) = 2.57; p=0.086) differ between all three groups. However, the post hoc analysis showed no significant (p = 0.4) difference between treated HD patients ([CoQ10]: 88.12 [mean]+/-24.44 [SD], [range] 48.75-146.32 [pg/million platelets]) and controls (93.71+/-20.72, 65.31-157.94), however previously untreated HD patients (70.10+/-21.12, 38.67-106.14) had marked (p = 0.051) lower CoQ10 results than treated HD patients and controls (p = 0.017). Our results support that CoQ10 supplementation in HD patients may reduce impaired mitochondrial function in HD.

Topography of cerebral atrophy in early Huntington's disease: a voxel based morphometric MRI study.

OBJECTIVES: To analyse grey matter changes in early stages of Huntington's disease using magnetic resonance imaging (MRI) and the technique of voxel based morphometry (VBM). METHODS: Forty four patients with a molecularly confirmed clinical diagnosis of Huntington's disease based on the presence of motor signs were included in the study. Patients were clinically rated using the Unified Huntington's Disease Rating Scale; all were in early clinical stages of the disease (that is, Shoulson stages I and II). High resolution volume rendering MRI scans (MP-RAGE) were acquired. MRI data were volumetrically analysed in comparison to an age matched normal database by VBM, using statistical parametric mapping (SPM99). RESULTS: In Huntington's disease, robust regional decreases in grey matter density (p<0.001, corrected for multiple comparisons)-that is, atrophy-were found bilaterally in striatal areas as well as in the hypothalamus and the opercular cortex, and unilaterally in the right paracentral lobule. The topography of striatal changes corresponded to the dorso-ventral gradient of neuronal loss described in neuropathological studies. Stratification according to clinical severity showed a more widespread involvement extending into the ventral aspects of the striatum in the group of more severely affected patients. CONCLUSIONS: The topography of cerebral volume changes associated with Huntington's disease can be mapped using VBM. It can be shown that cerebral grey matter changes co-vary with clinical severity and CAG repeat length.

Autonomic nervous system function in Huntington's disease.

OBJECTIVE: To investigate whether Huntington's disease (HD) affects autonomic nervous system (ANS) functioning. METHODS: Twenty patients with HD who had positive genetic test results underwent standardised ANS function tests including sympathetic skin responses (SSRs) of the hands and feet, measurements of heart rate variability (HRV), both during five minutes of resting and deep respiration, and an orthostatic blood pressure test. Patients were classified according to the motor subscale of the unified Huntington's disease rating scale (UHDRS; mean (SD) score 26.4 (13.6)) and divided into two subgroups: UHDRS <25 points (early stages, E-HD) and UHDRS > or =25 points (mid stages, M-HD). Autonomic indices were compared with those obtained for a group of well matched healthy controls (n=60). RESULTS: Overall, patients showed lower HRV indices than controls. Multivariate analysis with the independent factor of "group" (controls, E-HD, M-HD) showed a significant group effect on both the high frequency power (F=4.32, p=0.017) and the coefficient of variation (F=4.23, p=0.018), indicating a significant reduction in vagal modulation in the M-HD group. There was a shift in autonomic neurocardiac balance towards sympathetic predominance in the M-HD group compared with controls (F=2.89, p=0.062). Moreover, we found an inverse correlation between the severity of clinical HD symptoms (assessed by the UHDRS) and the modulation of cardiovagal activity (p=0.028). Vagal dysregulation was present in two patients; one of them also showed a pathological blood pressure test and a latency prolongation in the SSRs of the hands. Two other patients had pathologically reduced SSR amplitudes. Only patients of the M-HD group were affected. CONCLUSION: Autonomic dysfunction is present even in the middle stages of HD and affects both the sympathetic and parasympathetic branch of the ANS.

Levodopa in plasma correlates with body weight of parkinsonian patients.

Background: Antiparkinsonian comedication and/or altered gastrointestinal motility and absorption influence plasma levels of levodopa. Another putative factor may represent body weight. The objective of our study was to examine the relationship between body weight and levodopa in plasma of parkinsonian patients.Methods: We enrolled 26 individuals into this trial on the resorption of levodopa. A standardized protocol was used, which eliminated influencing factors, such as comedication, activity, food and estimated levodopa plasma levels at fixed timepoints.Results: Levodopa amount (Spearman R=-0.48; p=0.013) and maximum concentration (Spearman R=-0.50; p=0.008) in plasma correlated negatively with body weight.Conclusion: Doses of levodopa should be considered in relation to body weight. Thus severe loss of weight may reduce the need for oral levodopa intake by parkinsonian subjects and may represent a putative factor in the occurrence of dyskineasia in these patients unless there is a concomitant reduction in the dose of oral levodopa.