Nicole Weinmann scite author profile

BackgroundDevelopmental neurotoxicity (DNT) of environmental chemicals is a serious threat to human health. Current DNT testing guidelines propose investigations in rodents, which require large numbers of animals. With regard to the “3 Rs” (reduction, replacement, and refinement) of animal testing and the European regulation of chemicals [Registration, Evaluation, and Authorisation of Chemicals (REACH)], alternative testing strategies are needed in order to refine and reduce animal experiments and allow faster and less expensive screening.ObjectivesThe goal of this study was to establish a three-dimensional test system for DNT screening based on human fetal brain cells.MethodsWe established assays suitable for detecting disturbances in basic processes of brain development by employing human neural progenitor cells (hNPCs), which grow as neurospheres. Furthermore, we assessed effects of mercury and oxidative stress on these cells.ResultsWe found that human neurospheres imitate proliferation, differentiation, and migration in vitro. Exposure to the proapoptotic agent staurosporine further suggests that human neurospheres possess functioning apoptosis machinery. The developmental neurotoxicants methylmercury chloride and mercury chloride decreased migration distance and number of neuronal-like cells in differentiated hNPCs. Furthermore, hNPCs undergo caspase-independent apoptosis when exposed toward high amounts of oxidative stress.ConclusionsHuman neurospheres are likely to imitate basic processes of brain development, and these processes can be modulated by developmental neurotoxicants. Thus, this three-dimensional cell system is a promising approach for DNT testing.

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Mechanisms of prion protein assembly into amyloid

Stöhr

Weinmann

Wille

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

131

112

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The conversion of the ␣-helical, cellular isoform of the prion protein (PrP C ) to the insoluble, ␤-sheet-rich, infectious, diseasecausing isoform (PrP Sc ) is the key event in prion diseases. In an earlier study, several forms of PrP were converted into a fibrillar state by using an in vitro conversion system consisting of low concentrations of SDS and 250 mM NaCl. Here, we characterize the structure of the fibril precursor state, that is, the soluble state under fibrillization conditions. CD spectroscopy, analytical ultracentrifugation, and chemical cross-linking indicate that the precursor state exists in a monomer-dimer equilibrium of partially denatured, ␣-helical PrP, with a well defined contact site of the subunits in the dimer. Using fluorescence with thioflavin T, we monitored and quantitatively described the kinetics of seeded fibril formation, including dependence of the reaction on substrate and seed concentrations. Exponential, seed-enhanced growth can be achieved in homogeneous solution, which can be enhanced by sonication. From these data, we propose a mechanistic model of fibrillization, including the presence of several intermediate structures. These studies also provide a simplified amplification system for prions.dimer ͉ seeding ͉ fibril ͉ precursor state

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Counting of single prion particles bound to a capture-antibody surface (surface-FIDA)

Birkmann¹,

Henke²,

Weinmann³

et al. 2007

Veterinary Microbiology

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Counting of single prion particles bound to a capture-antibody surface (surface-FIDA). Veterinary Microbiology, Elsevier, 2007, 123 (4) This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.A c c e p t e d M a n u s c r i p t Hitherto accredited prion tests use the PK resistance of PrP Sc , the pathogenic isoform 19 of the prion protein, as a marker for the disease. Because of variations in the amount of 20 disease-related aggregated PrP, which is not PK-resistant, these prion tests offer only limited 21 sensitivity. Therefore, a prion detection method that does not rely on PK digestion would 22 allow for the detection of both PK-resistant as well as PK-sensitive PrP Sc . Furthermore, single 23 particle counting is more sensitive than methods measuring an integrated signal. Our new test 24 system is based on dual-colour fluorescence correlation spectroscopy (FCS). This method 25

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Detection of prion particles in samples of BSE and scrapie by fluorescence correlation spectroscopy without proteinase K digestion

Birkmann¹,

Schäfer²,

Weinmann³

et al. 2006

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A characteristic feature of prion diseases such as bovine spongiform encephalopathy (BSE) is the accumulation of a pathological isoform of the host-encoded prion protein, PrP. In contrast to its cellular isoform PrP(C), the pathological isoform PrP(Sc) forms insoluble aggregates. All commercial BSE tests currently used for routine testing are based on the proteinase K (PK) resistance of PrP, but not all pathological PrP is PK-resistant. In the present study, single prion particles were counted by fluorescence correlation spectroscopy (FCS). The property of PK resistance is not required, i.e., both the PK-resistant and the PK-sensitive parts of the prion particles are detectable. PrP aggregates were prepared from the brains of BSE-infected cattle, as well as from scrapie-infected hamsters, by the NaPTA precipitation method without PK digestion. They were labeled using two different PrP-specific antibodies for FCS measurements in the dual-color mode (2D-FIDA). Within the limited number of samples tested, BSE-infected cattle and scrapie-infected hamsters in the clinical stage of the disease could be distinguished with 100% specificity from a control group. Thus, a diagnostic tool for BSE detection with complete avoidance of PK treatment is presented, which should have particular advantages for testing animals in the preclinical stage.

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The polysaccharide scaffold of PrP 27-30 is a common compound of natural prions and consists of α-linked polyglucose

Dumpitak

Beekes

Weinmann

et al. 2005

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An inert polysaccharide scaffold identified as a 5-15% component of prion rods (PrP 27-30) is unambiguously distinguishable from the N-glycosyl groups and the GPI anchor of PrP, and consists predominantly of 1,4-linked glucose with some branching via 1,4,6-linked glucose. We show that this polysaccharide scaffold is a common secondary component of prions found in hamster full-length PrP(Sc), prion rods and in mouse ScN2a prions from cell culture. The preparation from prion rods was improved, resulting in a polysaccharide scaffold free of remaining infectivity. Furthermore, we determined the stereochemistry of the glycoside linkages as pre-dominantly if not entirely alpha-glycosidic. The origin of the polysaccharide, its interaction with PrP and its potential relation to glycogen and corpora amylacea are discussed.

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Nicole Weinmann

Human Neurospheres as Three-Dimensional Cellular Systems for Developmental Neurotoxicity Testing

Mechanisms of prion protein assembly into amyloid

Counting of single prion particles bound to a capture-antibody surface (surface-FIDA)

Detection of prion particles in samples of BSE and scrapie by fluorescence correlation spectroscopy without proteinase K digestion

The polysaccharide scaffold of PrP 27-30 is a common compound of natural prions and consists of α-linked polyglucose

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