An Ultrastructural Study of Amyloid Intermediates in Aβ<sub>1–42</sub> Fibrillogenesis

Nybo, Mads; Svehag,; Nielsen, Holm

doi:10.1046/j.1365-3083.1999.00526.x

Cited by 52 publications

(43 citation statements)

References 20 publications

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“…Thus, in an incubation of A␤(1-40) without CLC, aggregates collected at day 2 (within the ThT lag phase) are curvilinear, rough-edged protofibrils (Fig. 4a), as reported (1,2,7,(19)(20)(21). Aggregates collected from the same reaction at day 14 are typical amyloid fibrils (Fig.…”

Section: Resultssupporting

confidence: 53%

“…CLC aggregates exhibit fine structure highly reminiscent of a particular type of protofibril often observed by EM (2,19,20) and atomic force microscopy (1,7,21). Normal A␤ protofibrils incubated in the absence of excess A␤ monomer tend to dissociate (7); whereas CLC stabilizes the A␤ aggregates, minimizing dissociation, these aggregates are incapable of elongating via monomer addition (Fig.…”

Section: Discussionmentioning

confidence: 99%

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Structural properties of Aβ protofibrils stabilized by a small molecule

Williams

Sega

Chen

et al. 2005

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

132

133

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Metastable oligomeric and protofibrillar forms of amyloidogenic proteins have been implicated as on-pathway assembly intermediates in amyloid formation and as the major toxic species in a number of amyloid diseases including Alzheimer's disease. We describe here a chemical biology approach to structural analysis of A␤ protofibrils. Library screening yielded several molecules that stimulate A␤ aggregation. One of these compounds, calmidazolium chloride (CLC), rapidly and efficiently converts A␤(1-40) monomers into clusters of protofibrils. As monitored by electron microscopy, these protofibrils persist for days when incubated in PBS at 37°C, with a slow transition to fibrillar structures apparent only after several weeks. Like normal protofibrils, the CLC-A␤ aggregates exhibit a low thioflavin T response. Like A␤ fibrils, the clustered protofibrils bind the anti-amyloid Ab WO1. The CLC-A␤ aggregates exhibit the same protection from hydrogen-deuterium exchange as do protofibrils isolated from a spontaneous A␤ fibril formation reaction: Ϸ12 of the 39 A␤(1-40) backbone amide protons are protected from exchange in the protofibril, compared with approximately twice that number in amyloid fibrils. Scanning proline mutagenesis analysis shows that the A␤ molecule in these protofibrillar assemblies exhibits the same flexible N and C termini as do mature amyloid fibrils. The major difference in A␤ conformation between fibrils and protofibrils is added structural definition in the 22-29 segment in the fibril. Besides aiding structural analysis, compounds capable of facilitating oligomer and protofibril formation might have therapeutic potential, if they act to sequester A␤ in a form and͞or location that cannot engage the toxic pathway.amyloid ͉ chemical biology ͉ hydrogen exchange ͉ proline scanning

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Section: Resultssupporting

confidence: 53%

Section: Discussionmentioning

confidence: 99%

Structural properties of Aβ protofibrils stabilized by a small molecule

Williams

Sega

Chen

et al. 2005

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

132

133

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“…When extracted from amyloid tissue the AA amyloid ®brils appeared to consist of, from SAP and HSPG detached, ®laments which after coiling assembled into parallel, twisting structures. Contrary to these ®ndings, we could not identify any stage that corresponded to these twisting structures when the in vitro ®brillogenesis of Ab 1±42 was monitored from the oligomeric state to the mature ®bril by EM [9]. Furthermore, when coincubated with Ab peptides the SAP molecules aligned on the surface of the mature ®brils.…”

Section: Discussioncontrasting

confidence: 76%

Localization of Human Serum Amyloid P Component and Heparan Sulfate Proteoglycan in In Vitro‐Formed Aβ Fibrils

Nielsen¹,

Nybo

Junker

et al. 2000

Scand J Immunol

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Ultrastructural studies of the localization of serum amyloid P component (SAP) in amyloid ®brils have given divergent results. We here report for the ®rst time that electron microscopy of SAP coincubated with Ab 1±42 peptides or with mature Ab 1±42 ®brils, revealed SAP molecules coating the surface of the mature ®brils and that proto®brils of Ab 1±42 did not bind SAP. Also when incubated with extracted amyloid light chain (AL)-®brils the SAP molecules aligned on the ®bril surface. Heparan sulfate proteoglycan bound to the surface of the Ab ®brils with a spacing of about 50 nm. We conclude that SAP does not bind to proto®brils but to the surface of mature Ab ®brils and that it may stabilize and protect the ®brils.

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“…Amyloids are insoluble protein aggregates derived from the conversion of protofibrils into amyloid fibrils, which are formed by proteins characterized by a typical ␤-sheet structure. The commercially available human amyloid ␤ 42 (A␤ 42 ) is an amyloid-like peptide that can also form amyloid fibrils in vitro.…”

mentioning

confidence: 99%

“…Our data demonstrate that the monomer (D-Wt-M) forms oligomers that adopt an amyloid-like structure. The Pmp21-D oligomers (collectively referred to as D-Wt-O) are comparable in size and shape to protofibrils of A␤ 42 . Comparison of the oligomerization capacity of D-Wt with that of a previously analyzed mutant form (D-Mt) with poor adhesion properties revealed that the FXXN motif in D-Wt contributes significantly to the formation of oligomers.…”

mentioning

confidence: 99%