Hans H. Klünemann

Niemann-Pick Disease Type C Yields Possible Clue for Why Cerebellar Neurons Do Not Form Neurofibrillary Tangles ☆

It is unknown why cerebellar neurons resist neurofibrillary tangle (NFT) formation. In Niemann-Pick disease Type C (NPC), NFT-mediated neurodegeneration occurs throughout brain, but the cerebellum degenerates conspicuously without NFT. To understand why, we have studied markers of NFT pathogenesis in cerebellum from 17 NPC cases, all having abundant NFT in forebrain. Remarkably, we found that NPC cerebella display several early markers of NFT formation, i.e., hyperphosphorylated tau and an array of cell cycle regulators, suggesting that cerebellar neurons in NPC undergo similar modifications as other neurons that develop NFT. However, cerebellar neurons are deficient in tau, the building block of NFT, and this may be one reason for their inability to form NFT. Even without NFT, cerebellar neurodegeneration may be triggered by the inappropriate activation of the cell cycle cdc2 kinase, and the npc-1 murine model provides an opportunity to test this hypothesis.

Genetic screening for Niemann-Pick disease type C in adults with neurological and psychiatric symptoms: findings from the ZOOM study.

Niemann–Pick disease type C (NP-C) is a rare, autosomal-recessive, progressive neurological disease caused by mutations in either the NPC1 gene (in 95% of cases) or the NPC2 gene. This observational, multicentre genetic screening study evaluated the frequency and phenotypes of NP-C in consecutive adult patients with neurological and psychiatric symptoms. Diagnostic testing for NP-C involved NPC1 and NPC2 exonic gene sequencing and gene dosage analysis. When available, results of filipin staining, plasma cholestane-3β,5α,6β-triol assays and measurements of relevant sphingolipids were also collected. NPC1 and NPC2 gene sequencing was completed in 250/256 patients from 30 psychiatric and neurological reference centres across the EU and USA [median (range) age 38 (18–90) years]. Three patients had a confirmed diagnosis of NP-C; two based on gene sequencing alone (two known causal disease alleles) and one based on gene sequencing and positive filipin staining. A further 12 patients displayed either single mutant NP-C alleles (8 with NPC1 mutations and 3 with NPC2 mutations) or a known causal disease mutation and an unclassified NPC1 allele variant (1 patient). Notably, high plasma cholestane-3β,5α,6β-triol levels were observed for all NP-C cases (n = 3). Overall, the frequency of NP-C patients in this study [1.2% (95% CI; 0.3%, 3.5%)] suggests that there may be an underdiagnosed pool of NP-C patients among adults who share common neurological and psychiatric symptoms.

Neuropsychological profile of adult patients with Niemann–Pick C1 (NPC1) mutations

SummaryNiemann–Pick type C disease is a fatal neurovisceral disorder linked to dysregulation in cholesterol processing. A medication for this disease is currently being tested in clinical trials. However, there is a lack of information on neuropsychological testing parameters for this disease. One aim of this pilot study was to evaluate a test battery that could be used to assess cognitive deficits in different stages of the disease. A second aim was to determine whether specific functional deficits are associated with certain disease stages. Eight men and two women (19–40 years of age) harbouring mutations in the gene coding for the cholesterol trafficking protein NPC1 were put through the same test battery independently of their disease stage. The external staging criterion was based on a five-step clinical scale. Trail Making tests A & B and verbal fluency were sensitive indicators at early stages of NPC. Corsi Block-Tapping, Mini Mental Status, Find Similarities and Clock Drawing showed abnormal results in patients with advanced disease. The Grooved Pegboard, Trail Making and Mosaic tests were unsuitable in advanced disease due to impaired fine motor skills. We observed that visuospatial working memory was less affected by the neurodegenerative process than verbal working memory. The series of tests used here could be supplemented by the severe impairment battery and Raven matrices tests for patients with advanced disease.

Alzheimer's second patient: Johann F. and his family

Alois Alzheimer evaluated five cases of Alzheimers disease in the early 20th century. We focused on the family of “Johann F.,” Alzheimers second patient, who died in October 1910 at age 57 years, and whose brain pathology is typical of a subgroup of Alzheimers disease, the so‐called “plaque‐only type.” It was perhaps Emil Kraepelins personal knowledge of this patient and the histological data of the other four cases that influenced Kraepelin to coin the term Alzheimers disease. The church archive in Passau has a genealogical database drawn from sacramental registers dating from approximately 1580 to 1900. The genealogical data of the “Johann F.” family, which comes from villages in Lower Bavaria, extends as far back as 1670. We found documentation starting around 1830 about cause of death in the church records, which shows a familial predisposition to dementia. Affected family members include the mother, maternal grandfather, maternal great‐aunt, maternal great‐grandfather as well as three of Johann F.s eight siblings. The offspring (children and grandchildren) of these affected siblings also were affected by mental illness. We conclude that “Johann F.” represents the index case of a family with a predisposition to presenile dementia with variable age of onset (30s to 60s).

Monocyte cholesterol homeostasis correlates with the presence of detergent resistant membrane microdomains

Lipid membrane microdomains are involved in the regulation of biological functions of monocyte membrane proteins. These microdomains show a relative resistance to non‐ionic detergents providing an easy analytical tool to study them.

Identification of novel mutations in the NPC1 gene in German patients with Niemann–Pick C disease

Niemann–Pick disease type C (NPC) is an inherited neuro degenerative disorder associated with intracellular cholesterol trafficking defects. Mutations in two distinct genes, NPC1 and HE1, have recently been shown to cause this disease. We have analysed the NPC1 gene in five German patients with NPC from four unrelated families. We identified a total of five novel mutations in the coding region of the NPC1 gene (G231V, D874V, I642M, I1094T and R116stop). All affected individuals displayed compound heterozygosity. The mutated alleles were transmitted by the nonaffected parents with the exception of one patient, in whom a de novo mutation (G231V) had occurred. Interestingly, the G231V/P237S NPC1 genotype in this individual is associated with an early-onset form of NPC. In contrast, we found that the D874V/D948N genotype, observed in another NPC patient, is characterized by a late onset of clinical symptoms that presents with a pronounced white-matter disease. Our results will contribute to defining the association between the clinical phenotypes and the genetic abnormalities in Niemann–Pick C disease.

Structural and functional neural correlates of visuospatial information processing in normal aging and amnestic mild cognitive impairment.

Our understanding of cognitive changes related to human aging and their underlying neural processes is challenged by the distinction between normal and pathological aging. In our study, the neural correlates of visuospatial working memory (VSWM) in young persons (YC), healthy older adults (HC) and patients with amnestic mild cognitive impairment (aMCI) were investigated. Effects of the genetic risk factor apolipoprotein E (ApoE) ε4 on a VSWM task were analyzed for HC and aMCI patients. Higher cortical activation in extrastriate occipital regions and significantly decreased brain volumes in frontoparietal areas were observed in HC compared with young persons. Also, reduced cortical activation in the right middle frontal gyrus and superior frontal gyrus was observed in aMCI-patients compared with HC. Thus, attenuated cortical activation during VSWM tasks is related to the formation of aMCI and may serve as an early marker for cognitive decline. In contrast to previous studies, no significant apolipoprotein E-linked differences were found between HC and aMCI groups.

Neural correlates of saccadic inhibition in healthy elderly and patients with amnestic mild cognitive impairment.

Performance on tasks that require saccadic inhibition declines with age and altered inhibitory functioning has also been reported in patients with Alzheimers disease. Although mild cognitive impairment (MCI) is assumed to be a high-risk factor for conversion to AD, little is known about changes in saccadic inhibition and its neural correlates in this condition. Our study determined whether the neural activation associated with saccadic inhibition is altered in persons with amnestic mild cognitive impairment (aMCI). Functional magnetic resonance imaging (fMRI) revealed decreased activation in parietal lobe in healthy elderly persons compared to young persons and decreased activation in frontal eye fields in aMCI patients compared to healthy elderly persons during the execution of anti-saccades. These results illustrate that the decline in inhibitory functions is associated with impaired frontal activation in aMCI. This alteration in function might reflect early manifestations of AD and provide new insights in the neural activation changes that occur in pathological ageing.

Niemann-Pick C Disease Gene Mutations and Age-Related Neurodegenerative Disorders

Niemann-Pick type C (NPC) disease is a rare autosomal-recessively inherited lysosomal storage disorder caused by mutations in NPC1 (95%) or NPC2. Given the highly variable phenotype, diagnosis is challenging and particularly late-onset forms with predominantly neuropsychiatric presentations are likely underdiagnosed. Pathophysiologically, genetic alterations compromising the endosomal/lysosomal system are linked with age-related neurodegenerative disorders. We sought to examine a possible association of rare sequence variants in NPC1 and NPC2 with Parkinsons disease (PD), frontotemporal lobar degeneration (FTLD) and progressive supranuclear palsy (PSP), and to genetically determine the proportion of potentially misdiagnosed NPC patients in these neurodegenerative conditions. By means of high-resolution melting, we screened the coding regions of NPC1 and NPC2 for rare genetic variation in a homogenous German sample of patients clinically diagnosed with PD (n = 563), FTLD (n = 133) and PSP (n = 94), and 846 population-based controls. The frequencies of rare sequence variants in NPC1/2 did not differ significantly between patients and controls. Disease-associated NPC1/2 mutations were found in six PD patients (1.1%) and seven control subjects (0.8%), but not in FTLD or PSP. All rare variation was detected in the heterozygous state and no compound heterozygotes were observed. Our data do not support the hypothesis that rare NPC1/2 variants confer susceptibility for PD, FTLD, or PSP in the German population. Misdiagnosed NPC patients were not present in our samples. However, further assessment of NPC disease genes in age-related neurodegeneration is warranted.

Differential impact of ApoE ε4 on cortical activation during famous face recognition in cognitively intact individuals and patients with amnestic mild cognitive impairment.

This study explores the neurofunctional correlates of the recognition of famous faces in patients with amnestic mild cognitive impairment (aMCI) and healthy controls depending on the genetic risk factor, Apolipoprotein E (ApoE) &egr;4. An event-related functional magnetic resonance imaging experiment was conducted while participants discriminated between famous and nonfamous faces. We compared the results of 32 healthy controls [17 ApoE &egr;4 carriers (E4+); 15 noncarriers (E4−)] with those of 30 patients with aMCI (16 E4+; 14 E4−). Despite comparable task performance, patients with aMCI, E4+ showed significantly less activation in a large cortical network including the left parahippocampal gyrus than patients with aMCI E4−. Furthermore, in the aMCI group, we found significantly reduced activation in the left parahippocampal gyrus and posterior cingulate cortex compared with the control group. Our results show that critical regions of the brain show functional decline associated with major risk factors, such as ApoE &egr;4 allele and neuropsychological signs of aMCI for the development of Alzheimer disease. Importantly, the ApoE genotype seems to influence cortical activation in patients with aMCI and to a lesser degree in healthy controls as well, who are without any cognitive symptoms.