Mechanisms of prion protein assembly into amyloid

Stöhr, Jan; Weinmann, Nicole; Wille, Holger; Kaimann, T.; Nagel-Steger, Luitgard; Birkmann, Eva; Panza, Giannantonio; Prusiner, Stanley B.; Eigen, Manfred; Riesner, Detlev

doi:10.1073/pnas.0712036105

Cited by 129 publications

(118 citation statements)

References 36 publications

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“…[7][8][9][10] Also, the connection between dimerization and toxicity has been supported for several years by a model suggesting in vivo noxiousness of cross-linked PrP C at neurons surface.…”

Section: 6mentioning

confidence: 95%

Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity

Béland

Roucou²

2013

Prion

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P rPC is associated with a variety of functions, and its ability to interact with a multitude of partners, including itself, may largely explain PrP C multifunctionality and the lack of consensus on the genuine physiological function of the protein in vivo. In contrast, there is a consensus in the literature that alterations in PrP C trafficking and intracellular retention result in neuronal degeneration. In addition, a proteolytic modification in the late secretory pathway termed the α-cleavage induces the secretion of PrPN1, a PrP C -derived metabolite with fascinating neuroprotective activity against toxic oligomeric Aβ molecules implicated in Alzheimer disease. Thus, studies focusing on understanding the regulation of PrP C trafficking to the cell surface and the modulation of α-cleavage are essential. The objective of this commentary is to highlight recent evidences that PrP C homodimerization stimulates trafficking of the protein to the cell surface and results in high levels of PrPN1 secretion. We also discuss a hypothetical model for these results and comment on future challenges and opportunities. PrP HomodimerizationPrP dimers were experimentally detected in bovine, mouse and hamster brain homogenates, 1-3 and in N2a cells expressing hamster PrP C or endogenous PrP C . 4,5 Predictions and experimental evidences clearly showed that the hydrophobic domain (residues 112-MAGAAA AGAVVGGLGGYMLGSA-133) mediates PrP

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Section: 6mentioning

confidence: 95%

Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity

Béland

Roucou²

2013

Prion

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“…PrP Sc dimers and trimers could be transitory and unstable species (DeMarco et al, 2006;Silveira et al, 2005), possibly referring to pre-amyloid states (Stöhr et al, 2008). Indeed, from electron crystallographic studies established using PrP Sc purified from infected brain homogenates, two models of prion proto-fibril propagation are currently emerging: the ␤-helix model and the spiral model.…”

Section: Prpmentioning

confidence: 99%

“…According to the prion hypothesis, PrP Sc can trigger the autocatalytic conversion of PrP C into PrP Sc , involving several PrP Sc pre-amyloid intermediates, generated through a complex mechanism of oligomerization (Silveira et al, 2005;DeMarco et al, 2006;Stöhr et al, 2008). The replication cycle proceeds with the self-assembling of PrP Sc oligomers into proto-fibrils, which in turn grow into amyloid fibrils.…”

Section: Introductionmentioning

confidence: 99%

Oligomeric-Induced Activity by Thienyl Pyrimidine Compounds Traps Prion Infectivity

Ayrolles-Torro¹,

Imberdis²,

Torrent³

et al. 2011

J. Neurosci.

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Sc, an abnormal form of cellular prion protein (PrP), in the brain of animals and humans leads to fatal neurodegenerative disorders known as prion diseases. Limited protease digestion of PrP Sc produces a truncated form called PrP(27-30) that retains prion infectivity and is the main marker of disease targeted in most diagnostic tests. In the search for new anti-prion molecules, drug-screening assays on prion-infected murine cells have been oriented toward decreasing levels of PrP(27-30). In contrast, we screened for drugs promoting multimers of PrP(27-30), illustrating a possible stabilization of mouse PrP Sc species, because recent studies aiming to characterize the conformational stability of various prion strains showed that stable recombinant amyloids produced more stable prion strain, leading to longest incubation time. We identified a family of thienyl pyrimidine derivatives that induce SDS-resistant dimers and trimers of PrP(27-30). Bioassays performed on mice brain homogenates treated with these compounds showed that these thienyl pyrimidine derivatives diminished prion infectivity in vivo. Oligomeric-induced activity by thienyl pyrimidine compounds is a promising approach not only to understanding the pathogenesis of prions but also for prion diagnostics. This approach could be extended to other neurodegenerative "prionopathies," such as Alzheimer's, Huntington, or Parkinson's diseases.

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“…In contrast to brain-derived PrP C , large scale purification can be readily accomplished for bacterially expressed rPrP, a form of PrP lacking glycosylation and the glycophosphatidylinositol anchor. The latter protein can spontaneously polymerize into amyloid fibrils, and much insight has been gained into mechanistic and structural aspects of this reaction (22)(23)(24)(25)(26)(27)(28). However, although rPrP fibrils were shown to cause or accelerate a transmissible neurodegenerative disorder in transgenic mice overexpressing a PrP C variant encompassing residues 89 -231, the infectivity titer of these "synthetic prions" was extremely low (29) or absent altogether (4).…”

mentioning

confidence: 99%

Distinct Structures of Scrapie Prion Protein (PrPSc)-seeded Versus Spontaneous Recombinant Prion Protein Fibrils Revealed by Hydrogen/Deuterium Exchange

Smirnovas

Kim

et al. 2009

Journal of Biological Chemistry

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The detailed structures of prion disease-associated, partially protease-resistant forms of prion protein (e.g. PrP Sc ) are largely unknown. PrP Sc appears to propagate itself by autocatalyzing the conformational conversion and oligomerization of normal prion protein (PrP C ). One manifestation of PrP Sc templating activity is its ability, in protein misfolding cyclic amplification reactions, to seed the conversion of recombinant prion protein (rPrP) into aggregates that more closely resemble PrP Sc than spontaneously nucleated rPrP amyloids in terms of proteolytic fragmentation and infrared spectra. The absence of posttranslational modifications makes these rPrP aggregates more amenable to detailed structural analyses than bona fide PrP Sc . Here, we compare the structures of PrP Sc -seeded and spontaneously nucleated aggregates of hamster rPrP by using H/D exchange coupled with mass spectrometry. In spontaneously formed fibrils, very slow H/D exchange in region ϳ163-223 represents a systematically H-bonded cross-␤ amyloid core structure. PrP Scseeded aggregates have a subpopulation of molecules in which this core region extends N-terminally as far as to residue ϳ145, and there is a significant degree of order within residues ϳ117-133. The formation of tightly H-bonded structures by these more N-terminal residues may account partially for the generation of longer protease-resistant regions in the PrP Sc -seeded rPrP aggregates; however, part of the added protease resistance is dependent on the presence of SDS during proteolysis, emphasizing the multifactorial influences on proteolytic fragmentation patterns. These results demonstrate that PrP Sc has a distinct templating activity that induces ordered, systematically H-bonded structure in regions that are dynamic and poorly defined in spontaneously formed aggregates of rPrP.

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Mechanisms of prion protein assembly into amyloid

Cited by 129 publications

References 36 publications

Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity

Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity

Oligomeric-Induced Activity by Thienyl Pyrimidine Compounds Traps Prion Infectivity

Distinct Structures of Scrapie Prion Protein (PrPSc)-seeded Versus Spontaneous Recombinant Prion Protein Fibrils Revealed by Hydrogen/Deuterium Exchange

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Mechanisms of prion protein assembly into amyloid

Cited by 129 publications

References 36 publications

Homodimerization as a molecular switch between low and high efficiency PrPCcell surface delivery and neuroprotective activity

Homodimerization as a molecular switch between low and high efficiency PrPCcell surface delivery and neuroprotective activity

Oligomeric-Induced Activity by Thienyl Pyrimidine Compounds Traps Prion Infectivity

Distinct Structures of Scrapie Prion Protein (PrPSc)-seeded Versus Spontaneous Recombinant Prion Protein Fibrils Revealed by Hydrogen/Deuterium Exchange

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Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity

Homodimerization as a molecular switch between low and high efficiency PrP^Ccell surface delivery and neuroprotective activity