Direct characterization of amyloidogenic oligomers by single-molecule fluorescence

Orte, Ángel; Birkett, Neil R.; Clarke, R.N.; Devlin, Glyn L.; Dobson, Christopher M.; Klenerman, David

doi:10.1073/pnas.0803086105

Cited by 179 publications

(217 citation statements)

References 32 publications

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“…In order to unequivocally establish the oligomerisation mechanism in the presence of metal ions, Aβ peptides labelled with pairs of fluorophores would be necessary for the identification of co‐existing Aβ species. FRET or two‐colour coincidence detection at the single‐molecule level would allow direct measurement of time profiles for both copper‐bound Aβ monomer and copper‐bridged Aβ dimer 45, 46. However, mutations or post‐translational modifications on the N terminus of Aβ would not necessarily increase the reactivity of Aβ.…”

Section: Resultsmentioning

confidence: 99%

Kinetics of the Interactions between Copper and Amyloid‐β with FAD Mutations and Phosphorylation at the N terminus

et al. 2016

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Mutations and post‐translational modifications of amyloid‐β (Aβ) peptide in its N terminus have been shown to increase fibril formation, yet the molecular mechanism is not clear. Here we investigated the kinetics of the interactions of copper with two Aβ peptides containing Familial Alzheimer's disease (FAD) mutations (English (H6R) and Tottori (D7N)), as well as with Aβ peptide phosphorylated at serine 8 (pS8). All three peptides bind to copper with a similar rate as the wild‐type (wt). The dissociation rates follow the order pS8>H6R>wt>D7N; the interconversion between the two coordinating species occurs 50 % faster for H6R and pS8, whereas D7N had only a negligible effect. Interestingly, the rate of ternary complex (copper‐bridged heterodimer) formation for the modified peptides was significantly faster than that for wt, thus leading us to propose that FAD and sporadic AD might share a kinetic origin for the enhanced oligomerisation of Aβ.

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Section: Resultsmentioning

confidence: 99%

Kinetics of the Interactions between Copper and Amyloid‐β with FAD Mutations and Phosphorylation at the N terminus

et al. 2016

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“…3C), further reinforces the conclusion that a conformational change has occurred before their formation. This antibody is likely to recognize conformational characteristics of the intermediate species, perhaps because of the exposure of hydrophobic side chains (28,29) or the adoption of a different conformational form (30). The most protected residues in the O agg species are also the most protected ones in the F agg species, implying that these intermediates are likely to be species that progress to fibril formation.…”

Section: Discussionmentioning

confidence: 99%

Experimental characterization of disordered and ordered aggregates populated during the process of amyloid fibril formation

Carulla

Zhou

Arimon

et al. 2009

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

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106

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Recent experimental evidence points to intermediates populated during the process of amyloid fibril formation as the toxic moieties primarily responsible for the development of increasingly common disorders such as Alzheimer's disease and type II diabetes. We describe here the application of a pulse-labeling hydrogendeuterium (HD) exchange strategy monitored by mass spectrometry (MS) and NMR spectroscopy (NMR) to characterize the aggregation process of an SH3 domain under 2 different conditions, both of which ultimately lead to well-defined amyloid fibrils. Under one condition, the intermediates appear to be largely amorphous in nature, whereas under the other condition protofibrillar species are clearly evident. Under the conditions favoring amorphous-like intermediates, only species having no protection against HD exchange can be detected in addition to the mature fibrils that show a high degree of protection. By contrast, under the conditions favoring protofibrillar-like intermediates, MS reveals that multiple species are present with different degrees of HD exchange protection, indicating that aggregation occurs initially through relatively disordered species that subsequently evolve to form ordered aggregates that eventually lead to amyloid fibrils. Further analysis using NMR provides residue-specific information on the structural reorganizations that take place during aggregation, as well as on the time scales by which they occur. aggregation ͉ HD exchange ͉ misfolding intermediates ͉ PI3-SH3

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“…However, SM spectroscopy has not yet been widely applied to characterize protein misfolding. Misfolding has been observed in a few protein constructs using both force (5-7) and fluorescence spectroscopies (8), and the formation and growth of aggregates has been monitored with fluorescence spectroscopy (9)(10)(11), but the network of pathways available for misfolding has only begun to be mapped out in any detail (12) and not yet for any disease-related protein.…”

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confidence: 99%

Direct observation of multiple misfolding pathways in a single prion protein molecule

Liu²,

Neupane³

et al. 2012

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

136

193

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Protein misfolding is a ubiquitous phenomenon associated with a wide range of diseases. Single-molecule approaches offer a powerful tool for deciphering the mechanisms of misfolding by measuring the conformational fluctuations of a protein with high sensitivity. We applied single-molecule force spectroscopy to observe directly the misfolding of the prion protein PrP, a protein notable for having an infectious misfolded state that is able to propagate by recruiting natively folded PrP. By measuring folding trajectories of single PrP molecules held under tension in a highresolution optical trap, we found that the native folding pathway involves only two states, without evidence for partially folded intermediates that have been proposed to mediate misfolding. Instead, frequent but fleeting transitions were observed into offpathway intermediates. Three different misfolding pathways were detected, all starting from the unfolded state. Remarkably, the misfolding rate was even higher than the rate for native folding. A mutant PrP with higher aggregation propensity showed increased occupancy of some of the misfolded states, suggesting these states may act as intermediates during aggregation. These measurements of individual misfolding trajectories demonstrate the power of single-molecule approaches for characterizing misfolding directly by mapping out nonnative folding pathways.protein folding | optical tweezers

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Direct characterization of amyloidogenic oligomers by single-molecule fluorescence

Cited by 179 publications

References 32 publications

Kinetics of the Interactions between Copper and Amyloid‐β with FAD Mutations and Phosphorylation at the N terminus

Kinetics of the Interactions between Copper and Amyloid‐β with FAD Mutations and Phosphorylation at the N terminus

Experimental characterization of disordered and ordered aggregates populated during the process of amyloid fibril formation

Direct observation of multiple misfolding pathways in a single prion protein molecule

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