Frida Ekholm Pettersson scite author profile

Amyloid-b (Ab) protofibrils are known intermediates of the in vitro Ab aggregation process and the protofibrillogenic Arctic mutation (APPE693G) provides clinical support for a pathogenic role of Ab protofibrils in Alzheimer's disease (AD). To verify their in vivo relevance and to establish a quantitative Ab protofibril immunoassay, Ab conformation dependent monoclonal antibodies were generated. One of these antibodies, mAb158 (IgG2a), was used in a sandwich ELISA to specifically detect picomolar concentrations of Ab protofibrils without interference from Ab monomers or the amyloid precursor protein (APP). The specificity and biological significance of this ELISA was demonstrated using cell cultures and transgenic mouse models expressing human APP containing the Swedish mutation (APPKN670/671ML), or the Swedish and Arctic mutation in combination. The mAb158 sandwich ELISA analysis revealed presence of Ab protofibrils in both cell and animal models, proving that Ab protofibrils are formed not only in vitro, but also in vivo. Furthermore, elevated Ab protofibril levels in the Arctic-Swedish samples emphasize the usefulness of the Arctic mutation as a model of enhanced protofibril formation. This assay provides a novel tool for investigating the role of Ab protofibrils in AD and has the potential of becoming an important diagnostic assay.

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Amyloid‐β protofibril levels correlate with spatial learning in Arctic Alzheimer’s disease transgenic mice

Lord

Englund

Söderberg

et al. 2009

The FEBS Journal

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Oligomeric assemblies of amyloid‐β (Aβ) are suggested to be central in the pathogenesis of Alzheimer’s disease because levels of soluble Aβ correlate much better with the extent of cognitive dysfunctions than do senile plaque counts. Moreover, such Aβ species have been shown to be neurotoxic, to interfere with learned behavior and to inhibit the maintenance of hippocampal long‐term potentiation. The tg‐ArcSwe model (i.e. transgenic mice with the Arctic and Swedish Alzheimer mutations) expresses elevated levels of Aβ protofibrils in the brain, making tg‐ArcSwe a highly suitable model for investigating the pathogenic role of these Aβ assemblies. In the present study, we estimated Aβ protofibril levels in the brain and cerebrospinal fluid of tg‐ArcSwe mice, and also assessed their role with respect to cognitive functions. Protofibril levels, specifically measured with a sandwich ELISA, were found to be elevated in young tg‐ArcSwe mice compared to several transgenic models lacking the Arctic mutation. In aged tg‐ArcSwe mice with considerable plaque deposition, Aβ protofibrils were approximately 50% higher than in younger mice, whereas levels of total Aβ were exponentially increased. Young tg‐ArcSwe mice showed deficits in spatial learning, and individual performances in the Morris water maze were correlated inversely with levels of Aβ protofibrils, but not with total Aβ levels. We conclude that Aβ protofibrils accumulate in an age‐dependent manner in tg‐ArcSwe mice, although to a far lesser extent than total Aβ. Our findings suggest that increased levels of Aβ protofibrils could result in spatial learning impairment.

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Large Aggregates Are the Major Soluble Aβ Species in AD Brain Fractionated with Density Gradient Ultracentrifugation

et al. 2012

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Soluble amyloid-β (Aβ) aggregates of various sizes, ranging from dimers to large protofibrils, have been associated with neurotoxicity and synaptic dysfunction in Alzheimer's Disease (AD). To investigate the properties of biologically relevant Aβ species, brain extracts from amyloid β protein precursor (AβPP) transgenic mice and AD patients as well as synthetic Aβ preparations were separated by size under native conditions with density gradient ultracentrifugation. The fractionated samples were then analyzed with atomic force microscopy (AFM), ELISA, and MTT cell viability assay. Based on AFM appearance and immunoreactivity to our protofibril selective antibody mAb158, synthetic Aβ42 was divided in four fractions, with large aggregates in fraction 1 and the smallest species in fraction 4. Synthetic Aβ aggregates from fractions 2 and 3 proved to be most toxic in an MTT assay. In AβPP transgenic mouse brain, the most abundant soluble Aβ species were found in fraction 2 and consisted mainly of Aβ40. Also in AD brains, Aβ was mainly found in fraction 2 but primarily as Aβ42. All biologically derived Aβ from fraction 2 was immunologically discriminated from smaller species with mAb158. Thus, the predominant species of biologically derived soluble Aβ, natively separated by density gradient ultracentrifugation, were found to match the size of the neurotoxic, 80–500 kDa synthetic Aβ protofibrils and were equally detected with mAb158.

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An amyloid-β protofibril-selective antibody prevents amyloid formation in a mouse model of Alzheimer's disease

Lord

Gumucio

Englund

et al. 2009

Neurobiology of Disease

109

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The Rb1 fraction of ginseng elicits a balanced Th1 and Th2 immune response

Rivera

Pettersson²,

Inganäs³

et al. 2005

Vaccine

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