Martha Nance

Detection of Huntington’s disease decades before diagnosis: the Predict-HD study

Objective: The objective of the Predict-HD study is to use genetic, neurobiological and refined clinical markers to understand the early progression of Huntington’s disease (HD), prior to the point of traditional diagnosis, in persons with a known gene mutation. Here we estimate the approximate onset and initial course of various measurable aspects of HD relative to the time of eventual diagnosis. Methods: We studied 438 participants who were positive for the HD gene mutation, but did not yet meet the diagnostic criteria for HD and had no functional decline. Predictability of baseline cognitive, motor, psychiatric and imaging measures was modelled non-linearly using estimated time until diagnosis (based on CAG repeat length and current age) as the predictor. Results: Estimated time to diagnosis was related to most clinical and neuroimaging markers. The patterns of association suggested the commencement of detectable changes one to two decades prior to the predicted time of clinical diagnosis. The patterns were highly robust and consistent, despite the varied types of markers and diverse measurement methodologies. Conclusions: These findings from the Predict-HD study suggest the approximate time scale of measurable disease development, and suggest candidate disease markers for use in preventive HD trials.

Striatal and white matter predictors of estimated diagnosis for Huntington disease.

Previous MRI studies with participants prior to manifest Huntington disease have been conducted in small single-site samples. The current study reports data from a systematic multi-national study during the prodromal period of Huntington disease and examines whether various brain structures make unique predictions about the proximity to manifest disease. MRI scans were acquired from 657 participants enrolled at 1 of 32 PREDICT-HD research sites. Only prodromal Huntington disease participants (those not meeting motor criteria for diagnosis) were included and subgrouped by estimated diagnosis proximity (Near, Mid, and Far) based upon a formula incorporating age and CAG-repeat length. Results show volumes of all three subgroups differed significantly from Controls for total brain tissue, cerebral spinal fluid, white matter, cortical gray matter, thalamus, caudate, and putamen. Total striatal volume demonstrated the largest differences between Controls and all three prodromal subgroups. Cerebral white matter offered additional independent power in the prediction of estimated proximity to diagnosis. In conclusion, this large cross-sectional study shows that changes in brain volume are detectable years to decades prior to estimated motor diagnosis of Huntington disease. This suggests that a clinical trial of a putative neuroprotective agent could begin as much as 15 years prior to estimated motor diagnosis in a cohort of persons at risk for but not meeting clinical motor diagnostic criteria for Huntington disease, and that neuroimaging (striatal and white matter volumes) may be among the best predictors of diagnosis proximity.

Cognitive performance of GBA mutation carriers with early-onset PD The CORE-PD study

Objective: To assess the cognitive phenotype of glucocerebrosidase (GBA) mutation carriers with early-onset Parkinson disease (PD). Methods: We administered a neuropsychological battery and the University of Pennsylvania Smell Identification Test (UPSIT) to participants in the CORE-PD study who were tested for mutations in PARKIN, LRRK2, and GBA. Participants included 33 GBA mutation carriers and 60 noncarriers of any genetic mutation. Primary analyses were performed on 26 GBA heterozygous mutation carriers without additional mutations and 39 age- and PD duration–matched noncarriers. Five cognitive domains, psychomotor speed, attention, memory, visuospatial function, and executive function, were created from transformed z scores of individual neuropsychological tests. Clinical diagnoses (normal, mild cognitive impairment [MCI], dementia) were assigned blind to genotype based on neuropsychological performance and functional impairment as assessed by the Clinical Dementia Rating (CDR) score. The association between GBA mutation status and neuropsychological performance, CDR, and clinical diagnoses was assessed. Results: Demographics, UPSIT, and Unified Parkinsons Disease Rating Scale–III performance did not differ between GBA carriers and noncarriers. GBA mutation carriers performed more poorly than noncarriers on the Mini-Mental State Examination (p = 0.035), and on the memory (p = 0.017) and visuospatial (p = 0.028) domains. The most prominent differences were observed in nonverbal memory performance (p < 0.001). Carriers were more likely to receive scores of 0.5 or higher on the CDR (p < 0.001), and a clinical diagnosis of either MCI or dementia (p = 0.004). Conclusion: GBA mutation status may be an independent risk factor for cognitive impairment in patients with PD.

Apolipoprotein E controls the risk and age at onset of Parkinson disease

Background: Similarities between Alzheimer disease (AD) and Parkinson disease (PD) suggest a possible role for apolipoprotein E (APOE) in PD. Most previous studies seeking to establish such a link used case-control datasets and results have been inconsistent. Objective: To investigate APOE’s role in PD using family-based association analyses. Methods: APOE functional polymorphisms were genotyped for 658 PD affected families, including 282 multiplex and 376 singleton families. The pedigree disequilibrium test (PDT) and the genotype-PDT were used to test the risk effect of APOE. The Monks-Kaplan test was used to evaluate the effect of APOE on age at onset of PD. Results: APOE was significantly associated with risk of developing PD. Stratified analysis revealed that APOE was most strongly associated with families with a positive PD family history (global p = 0.003). Like AD, the APOE-4 allele increases disease risk while the APOE-3 allele decreases risk. We detected a positive association of APOE-3 (p = 0.019) and a negative association of APOE-4 (p = 0.015) with age at onset in PD. Conclusions: The APOE-4 allele increases risk and decreases age at onset of PD, an association that may not be dependent upon cognitive impairment.

Predictors of nursing home placement in Huntington disease

Objective: To determine whether motor, behavioral, or psychiatric symptoms in Huntington disease (HD) predict skilled nursing facility (SNF) placement. Methods: Subjects were participants in the Huntington Study Group’s Unified Huntington Disease Rating Scale Database (Rochester, NY) between January 1994 and September 1999. Specific motor, psychiatric, and behavioral variables in subjects residing at home and in SNF were analyzed using χ2 and Student’s t-tests. For a subset of subjects for whom longitudinal data existed, a Cox proportional hazards model controlling for age, sex, and disease duration was used. Results: Among 4,809 subjects enrolled, 3,070 had clinically definite HD. Of these, 228 (7.4%) resided in SNF. The SNF residents’ average age was 52 years, average disease duration was 8.6 years, and they were predominantly women (63%). The SNF residents had worse motor function (chorea, bradykinesia, gait abnormality, and imbalance, p < 0.0001); were more likely to have obsessions, compulsions, delusions, and auditory hallucinations; and had more aggressive, disruptive (p < 0.0001), and irritable behaviors (p = 0.0012). For 1,559 subjects, longitudinal data existed (average length of follow-up, 1.9 years), and 87 (5%) moved from home to SNF. In the Cox model, bradykinesia (HR 1.965, 95% CI 1.083 to 3.564), impaired gait (HR 3.004, 95% CI 1.353 to 6.668), and impaired tandem walking (HR 2.546, 95% CI 1.460 to 4.439) were predictive of SNF placement. Conclusions: Institutionalized patients with HD are more motorically, psychiatrically, and behaviorally impaired than their counterparts living at home. However, motor variables alone predicted institutionalization. Treatment strategies that delay the progression of motor dysfunction in HD may postpone the need for institutionalization.

Haplotypes and gene expression implicate the MAPT region for Parkinson disease The GenePD Study

Background: Microtubule-associated protein tau (MAPT) has been associated with several neurodegenerative disorders including forms of parkinsonism and Parkinson disease (PD). We evaluated the association of the MAPT region with PD in a large cohort of familial PD cases recruited by the GenePD Study. In addition, postmortem brain samples from patients with PD and neurologically normal controls were used to evaluate whether the expression of the 3-repeat and 4-repeat isoforms of MAPT, and neighboring genes Saitohin (STH) and KIAA1267, are altered in PD cerebellum. Methods: Twenty-one single-nucleotide polymorphisms (SNPs) in the region of MAPT on chromosome 17q21 were genotyped in the GenePD Study. Single SNPs and haplotypes, including the H1 haplotype, were evaluated for association to PD. Relative quantification of gene expression was performed using real-time RT-PCR. Results: After adjusting for multiple comparisons, SNP rs1800547 was significantly associated with PD affection. While the H1 haplotype was associated with a significantly increased risk for PD, a novel H1 subhaplotype was identified that predicted a greater increased risk for PD. The expression of 4-repeat MAPT, STH, and KIAA1267 was significantly increased in PD brains relative to controls. No difference in expression was observed for 3-repeat MAPT. Conclusions: This study supports a role for MAPT in the pathogenesis of familial and idiopathic Parkinson disease (PD). Interestingly, the results of the gene expression studies suggest that other genes in the vicinity of MAPT, specifically STH and KIAA1267, may also have a role in PD and suggest complex effects for the genes in this region on PD risk.

Genetic Polymorphisms of the N-acetyltransferase genes and risk of Parkinson's disease:

Recently, the authors demonstrated linkage in idiopathic PD to a region on chromosome 8p that contains the N-acetyltransferase genes, NAT1 and NAT2. The authors examined NAT1 and NAT2 for association with PD using family-based association methods and single nucleotide polymorphisms (SNPs). The authors did not find evidence for association with increased risk for PD between any individual NAT1 or NAT2 SNP or acetylation haplotype (N = 397 families, 1,580 individuals).

Autosomal dominant spinocerebellar ataxia Locus heterogeneity in a Nebraska kindred

SCA1 is an adult-onset autosomal dominant ataxia that is genetically linked to loci on chromosome 6p. A highly informative GT-repeat marker, D6S89, has been closely linked to the SCA1 locus in five large kindreds. We have used this marker to perform linkage analysis in a smaller autosomal dominant ataxia family consisting of five generations designated as the Nebraska kindred. This kindred includes 33 affected (12 living) and 40 first-generation at-risk individuals. We examined eight affected individuals; all had gait and limb ataxia. We analyzed the D6S89 locus by the polymerase chain reaction. Based on the analysis of 31 individuals from this kindred, we statistically excluded linkage to D6S89 for moderate-to-tight linkage (less than 11% recombination). These data clearly demonstrate genetic heterogeneity among the autosomal dominant ataxias. In addition, we obtained linkage data for HLA-A and SCA1 in this kindred. Comparison of HLA-A with D6S89 shows the latter marker to be more powerful. Use of D6S89 and other highly polymorphic markers in this region will greatly facilitate genetic classification of ataxias and make presymptomatic diagnosis of SCA1 feasible.

Genetic testing in inherited ataxias.

Many genetic conditions can result in ataxia. Careful clinical, radiologic, and genetic evaluation permits the specific diagnosis of many of these conditions, which in turn facilitates medical care for the patient and genetic counseling for the patient and family. Predictive, prenatal, and carrier testing are possible for some conditions, but the use of gene tests in these clinical situations requires detailed genetic counseling that may be best left to genetics specialists.

Genetics and Genetic Counseling Related Issues

One would hope that there would be few emergencies related to genetic testing for movement disorders, but we have reviewed below several situations that qualify, including perception of urgency around testing, family conflicts and psychosocial complications related to testing, and problems related to misunderstanding of genetic facts. The physician can minimize the potential for genetic emergencies through proper education of, and support for, patients and their families. The judicious use of genetics specialists, such as genetic counselors, is an invaluable asset to the neurologist.