Enhanced Fibril Fragmentation of N‐Terminally Truncated and Pyroglutamyl‐Modified Aβ Peptides

Wulff, Melanie; Baumann, Monika; Thümmler, Anka; Yadav, Jay Kant; Heinrich, Liesa; Knüpfer, Uwe; Schlenzig, Dagmar; Schierhorn, Angelika; Rahfeld, Jens‐Ulrich; Horn, Uwe; Balbach, Jochen; Demuth, Hans‐Ulrich; Fändrich, Marcus

doi:10.1002/anie.201511099

Cited by 36 publications

(60 citation statements)

References 29 publications

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“…Although residues 1–10 are not thought to form hydrogen‐bonded strands in Aβ (1–40) or Aβ (1–42) fibers, it is clear they contribute to fiber stability and resistance to mechanical shear forces. A similar tendency to fragment has been reported for another N‐terminally truncated form of Aβ, consisting of residues 4–40 . We also addressed the possibility that loss of the ten N‐terminal residues may modulate the formation of prefibrillar assemblies.…”

Section: Figuresupporting

confidence: 59%

N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

2017

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Amyloid‐β peptide (Aβ) isoforms of different lengths and aggregation propensities coexist in vivo. These different isoforms are able to nucleate or frustrate the assembly of each other. N‐terminally truncated Aβ(11–40) and Aβ(11–42) make up one fifth of plaque load yet nothing is known about their interaction with full‐length Aβ(1–40/42). We show that in contrast to C‐terminally truncated isoforms, which do not co‐fibrillize, deletions of ten residues from the N terminus of Aβ have little impact on its ability to co‐fibrillize with the full‐length counterpart. As a consequence, N‐terminally truncated Aβ will accelerate fiber formation and co‐assemble into short rod‐shaped fibers with its full‐length Aβ counterpart. This has implications for the assembly kinetics, morphology, and toxicity of all Aβ isoforms.

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Section: Figuresupporting

confidence: 59%

N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

2017

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“…The simultaneous presence of truncated forms of A β other than A β N3pE and A β pS8 in B‐CAA stage 1 cerebrovascular A β deposits, however, could not be excluded. Additional to the aggregation‐promoting effect, phosphorylation, and pyroglutamination also affect the proteolytic degradation of A β monomers and the stability of A β aggregates . Thus, pyroglutamination could potentially favor further phosphorylation and, thereby, increase the stability of A β aggregates, and exaggerate A β aggregation.…”

Section: Discussionmentioning

confidence: 99%

Modified amyloid variants in pathological subgroups of β‐amyloidosis

Gerth

Kumar

Upadhaya

et al. 2018

Ann Clin Transl Neurol

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ObjectiveAmyloid β (Aβ) depositions in plaques and cerebral amyloid angiopathy (CAA) represent common features of Alzheimer's disease (AD). Sequential deposition of post‐translationally modified Aβ in plaques characterizes distinct biochemical stages of Aβ maturation. However, the molecular composition of vascular Aβ deposits in CAA and its relation to plaques remain enigmatic.MethodsVascular and parenchymal deposits were immunohistochemically analyzed for pyroglutaminated and phosphorylated Aβ in the medial temporal and occipital lobe of 24 controls, 27 pathologically‐defined preclinical AD, and 20 symptomatic AD cases.ResultsSequential deposition of Aβ in CAA resembled Aβ maturation in plaques and enabled the distinction of three biochemical stages of CAA. B‐CAA stage 1 was characterized by deposition of Aβ in the absence of pyroglutaminated Aβ N3pE and phosphorylated Aβ pS8. B‐CAA stage 2 showed additional Aβ N3pE and B‐CAA stage 3 additional Aβ pS8. Based on the Aβ maturation staging in CAA and plaques, three case groups for Aβ pathology could be distinguished: group 1 with advanced Aβ maturation in CAA; group 2 with equal Aβ maturation in CAA and plaques; group 3 with advanced Aβ maturation in plaques. All symptomatic AD cases presented with end‐stage plaque maturation, whereas CAA could exhibit immature Aβ deposits. Notably, Aβ pathology group 1 was associated with arterial hypertension, and group 2 with the development of dementia.InterpretationBalance of Aβ maturation in CAA and plaques defines distinct pathological subgroups of β‐amyloidosis. The association of CAA‐related Aβ maturation with cognitive decline, the individual contribution of CAA and plaque pathology to the development of dementia within the defined Aβ pathology subgroups, and the subgroup‐related association with arterial hypertension should be considered for differential diagnosis and therapeutic intervention.

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“…Conversely, Ab and AbpE have been reported to exert similar toxic effects on neurons [47,50,51]. Conflicting data have also been reported regarding b-sheet propensities and aggregation rates of Ab and AbpE [40][41][42][43][44][45][46][47][48][49][50]. Moreover, although the neurotoxic effect in brain tissue is exerted by heterogeneous assemblies of multiple forms of Ab, including Ab 1-42 and Ab pE3-42 [2,10,12,17], most structural and functional studies have been conducted on individual Ab species.…”

Section: Discussionmentioning

confidence: 99%

“…AbpE was shown to have a higher tendency toward formation of b-sheet aggregates, possibly promoting aggregation of Ab by a seeding mechanism [21,[40][41][42][43] and to be hypertoxic to neuronal cells [18][19][20][21]. Ab pE3-40 in trifluoroethanol/water environment had an increased tendency toward bsheet formation and fibrillization compared to Ab 1-40 [44,45], as well as higher susceptibility to mechanical stress and fragmentation of the fibrils [46]. These reports have been challenged by other studies, arguing that AbpE assemblies have similar content of b-sheet structure, are more resistant to fibrillogenesis [47][48][49][50], and exert cytotoxic effect similar to that of unmodified Ab [47,50,51].…”

Section: Introductionmentioning

confidence: 99%

Unmodified and pyroglutamylated amyloid β peptides form hypertoxic hetero‐oligomers of unique secondary structure

et al. 2017

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Amyloid β (Aβ) peptide plays a major role in Alzheimer's disease (AD) and occurs in multiple forms, including pyroglutamylated Aβ (AβpE). Identification and characterization of the most cytotoxic Aβ species is necessary for advancement in AD diagnostics and therapeutics. While in brain tissue multiple Aβ species act in combination, structure/toxicity studies and immunotherapy trials have been focused on individual forms of Aβ. As a result, the molecular composition and the structural features of "toxic Aβ oligomers" have remained unresolved. Here, we have used a novel approach, hydration from gas phase coupled with isotope-edited Fourier transform infrared (FTIR) spectroscopy, to identify the prefibrillar assemblies formed by Aβ and AβpE and to resolve the structures of both peptides in combination. The peptides form unusual β-sheet oligomers stabilized by intramolecular H-bonding as opposed to intermolecular H-bonding in the fibrils. Time-dependent morphological changes in peptide assemblies have been visualized by atomic force microscopy. Aβ/AβpE hetero-oligomers exert unsurpassed cytotoxic effect on PC12 cells as compared to oligomers of individual peptides or fibrils. These findings lead to a novel concept that Aβ/AβpE hetero-oligomers, not just Aβ or AβpE oligomers, constitute the main neurotoxic conformation. The hetero-oligomers thus present a new biomarker that may be targeted for development of more efficient diagnostic and immunotherapeutic strategies to combat AD.

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Enhanced Fibril Fragmentation of N‐Terminally Truncated and Pyroglutamyl‐Modified Aβ Peptides

Cited by 36 publications

References 29 publications

N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

Modified amyloid variants in pathological subgroups of β‐amyloidosis

Unmodified and pyroglutamylated amyloid β peptides form hypertoxic hetero‐oligomers of unique secondary structure

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Enhanced Fibril Fragmentation of N‐Terminally Truncated and Pyroglutamyl‐Modified Aβ Peptides

Cited by 36 publications

References 29 publications

N‐Terminally Truncated Amyloid‐β(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

N‐Terminally Truncated Amyloid‐β(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

Modified amyloid variants in pathological subgroups of β‐amyloidosis

Unmodified and pyroglutamylated amyloid β peptides form hypertoxic hetero‐oligomers of unique secondary structure

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N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease

N‐Terminally Truncated Amyloid‐β_(11–40/42) Cofibrillizes with its Full‐Length Counterpart: Implications for Alzheimer's Disease