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- Sjölander, Daniel, et al.
(author)
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Luminescent conjugated oligothiophenes: A novel dye for amyloid diagnostics
- 2013
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In: XIIIth International Symposium on Amyloidosis. - : GUARD (Groningen Unit for Amyloidosis Research & Development). - 9789082159301 - 9789082159318 ; , s. 179-182
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Conference paper (peer-reviewed)abstract
- The alkaline Congo red staining method has, for almost half a century, been the gold standard of amyloid diagnosis. Unfortunately, the method is both laborious and requires great skill to achieve proper diagnosis. In this study we are presenting an alternative method that is compatible with immunofluorescence typing. We used a novel dye, h-FTAA, designed and synthesized by us. The dye belongs to the novel class of conformation sensitive dyes known as Luminescent conjugated oligothiophenes (LCOs). We examined 37 different cases of systemic amyloidoses from various tissues. It was found that h-FTAA binds to amyloid with higher sensitivity and greater selectivity than Congo red, as was determined by both fluorescence- and light polarization microscopy. Due to the methods ease of use and performance compared to Congo red, it is concluded that h-FTAA is a better first choice for screening of systemic amyloidoses.
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- Rahman, M. M., et al.
(author)
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Protofibrillar and Fibrillar Amyloid-β Binding Proteins in Cerebrospinal Fluid
- 2018
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In: Journal of Alzheimer's Disease. - 1387-2877. ; 66:3, s. 1053-1064
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Journal article (peer-reviewed)abstract
- Aggregation and deposition of misfolded amyloid-β (Aβ) peptide in the brain is central to Alzheimer's disease (AD). Oligomeric, protofibrillar, and fibrillar forms of Aβ are believed to be neurotoxic and cause neurodegeneration in AD, but the toxicity mechanisms are not well understood and may involve Aβ-interacting molecular partners. In a previous study, we identified potential Aβ 42 protofibrillar-binding proteins in serum and cerebrospinal fluid (CSF) using an engineered version of Aβ 42 (Aβ 42 CC) that forms protofibrils, but not fibrils. Here we studied binding of proteins to Aβ 42 fibrils in AD and non-AD CSF and compared these with protofibrillar Aβ 42 CC-binding partners. Aβ 42 fibrils sequestered 2.4-fold more proteins than Aβ 42 CC protofibrils. Proteins with selective binding to fibrillar aggregates with low nanomolar affinity were identified. We also found that protofibrillar and fibrillar Aβ-binding proteins represent distinct functional categories. Aβ 42 CC protofibrils triggered interactions with proteins involved in catalytic activities, like transferases and oxidoreductases, while Aβ 42 fibrils were more likely involved in binding to proteoglycans, growth factors and neuron-Associated proteins, e.g., neurexin-1,-2, and-3. Interestingly, 10 brain-enriched proteins were identified among the fibril-binding proteins, while protofibril-extracted proteins had more general expression patterns. Both types of Aβ aggregates bound several extracellular proteins. Additionally, we list a set of CSF proteins that might have potential to discriminate between AD and non-AD CSF samples. The results may be of relevance both for biomarker studies and for studies of Aβ-related toxicity mechanisms. © 2018-IOS Press and the authors. All rights reserved.
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