The sequences appended to the amyloid core region of the HET-s prion protein determine higher-order aggregate organization in vivo

Balguerie, Axelle; Reis, Suzana Dos; Coulary‐Salin, Bénédicte; Chaignepain, Stéphane; Sabourin, Martine; Schmitter, Jean‐Marie; Saupe, Sven J.

doi:10.1242/jcs.01116

Cited by 44 publications

(64 citation statements)

References 27 publications

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“…Plasmids-Construction of Escherichia coli expression plasmids for C-terminally histidine-tagged versions of both polypeptides has been described (6,15). In brief, the reading frame of HET-s-(218 -289) and HET-s-(157-289) was amplified by PCR and cloned into pET-21a using NdeI and HindIII restriction sites.…”

Section: Methodsmentioning

confidence: 99%

“…When expressed in P. anserina, the HET-s prion domain alone can propagate the prion, but is not functional in heterokaryon incompatibility. To restore this function, at least parts of its N-terminal domain are needed (15).…”

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confidence: 99%

“…Axial packing density may be determined from mass-per-unit-length measurements made by dark-field scanning transmission electron microscopy (STEM) 3 (25,26). In this study, we have applied these techniques to fibrils of the prion domain HET-s-(218 -289), and of HET-s-(157-289), a construct containing an additional segment that, when appended to the prion domain, restores competence in heterokaryon incompatibility (15). Our observations lend strong support to the model.…”

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confidence: 99%

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Mass Analysis by Scanning Transmission Electron Microscopy and Electron Diffraction Validate Predictions of Stacked β-Solenoid Model of HET-s Prion Fibrils

Sen

Baxa

Simon

et al. 2007

Journal of Biological Chemistry

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Section: Methodsmentioning

confidence: 99%

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Mass Analysis by Scanning Transmission Electron Microscopy and Electron Diffraction Validate Predictions of Stacked β-Solenoid Model of HET-s Prion Fibrils

Sen

Baxa

Simon

et al. 2007

Journal of Biological Chemistry

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“…Red lines encircle cross-peaks that show a virtually complete loss of intensity after t = 6 weeks. c,d, Homonuclear 13 ex C-13 C DREAM correlation spectra of 13 C, 15 N-labeled, HETs(218-289) fibrils. The carbonyl region of the DREAM spectra (c) was recorded at 40 kHz MAS.…”

Section: Supplementary Materialsmentioning

confidence: 99%

Correlation of structural elements and infectivity of the HET-s prion

Ritter¹,

Maddelein²,

Siemer³

et al. 2005

Nature

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Prions are believed to be infectious self-propagating polymers of otherwise soluble host-encoded proteins 1,2 . This concept is now strongly supported by the recent findings that amyloid fibrils of recombinant prion proteins from yeast 3-5 , Podospora anserina 6 , and mammals 7 can induce prion phenotypes in the corresponding hosts. However, the structural basis of prion infectivity remains largely elusive because acquisition of atomic resolution structural properties of amyloid fibrils represents a largely unsolved technical challenge. HET-s, the prion protein of P. anserina, contains a C-terminal prion domain comprising residues 218-289. Amyloid fibrils of are necessary and sufficient for the induction and propagation of prion infectivity 6 . Here, we have used fluorescence studies, quenched hydrogen exchange NMR and solid state NMR to determine the sequence specific positions of secondary structure elements of amyloid fibrils of . This revealed four β-strands constituted by two pseudo repeat sequences, each forming a β-strandturn-β-strand motif. We show that this conformation is the functional and infectious entity of the HET-s prion by using a structure-based mutagenesis approach. These results correlate for the first time distinct structural elements with prion infectivity.The prion form of the protein HET-s is involved in a programmed cell death phenomenon termed heterokaryon incompatibility 8,9 . This reaction occurs in filamentous fungi when cells of incompatible genotype fuse and form a mixed cell. In P. anserina, two incompatible genotypes, called het-s and het-S, encode for the proteins HET-s and HET-S. They are both 289 amino acids long and differ in only 13 residues 10 . However, only HET-s can form a prion 11 : P. anserina cells expressing the HET-s protein exist either in a prion state called [Hets] Correspondence and requests for materials should be addressed to R.R. (e-mail: riek@salk.edu).. $ these authors contributed equally to this work.Supplementary Information accompanies the paper on Nature's website (http://www.nature.com). (Fig. 1a) contained one assigned cross-peak for each backbone amide of with the exception of 289, enabling a residuespecific determination of the hydrogen exchange rates. Upon exchange in D 2 O buffer for 6 weeks the intensity of about 45% of the resonances was significantly reduced or absent from the spectrum (Fig. 1b). This suggested that the corresponding amides have undergone exchange with solvent deuterons, which are not visible in this experiment. NIH Public AccessThe hydrogen exchange was followed over a total period of 3 months. All residues displayed a mono-exponential decay (Fig. S1) indicating that the structure of the fibrils was well defined and homogeneous. The summarized hydrogen exchange data (Fig. 1e) show that due to exchange rates faster than 5·h -1 , the 8 N-terminal residues, the 5 C-terminal residues and residues 247-261 are only weakly or not protected and may therefore be conformationally disordered. Four segments were observed that d...

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“…Are Infectious-The proteinase K-resistant amyloid core of HET-s amyloids corresponds to the region spanning residue 218 -289 (22,38). We have previously shown that HET-s fibrils submitted to proteinase K digestion retain infectivity (21).…”

Section: Amyloids Of Het-s-(218 -289)mentioning

confidence: 99%

Probing the Structure of the Infectious Amyloid Form of the Prion-forming Domain of HET-s Using High Resolution Hydrogen/Deuterium Exchange Monitored by Mass Spectrometry

Nazabal

Maddelein

Bonneu

et al. 2005

Journal of Biological Chemistry

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The HET-s prion protein of Podospora anserina represents a valuable model system to study the structural basis of prion propagation. In this system, prion infectivity can be generated in vitro from a recombinant protein. We have previously identified the region of the HET-s protein involved in amyloid formation and prion propagation. Herein, we show that a recombinant peptide corresponding to the C-terminal prion-forming domain of HET-s (residues 218-289) displays infectivity. We used high resolution hydrogen/deuterium exchange analyzed by mass spectrometry to gain insight into the structural organization of this infectious amyloid form of the HET-s-(218-289) protein. Deuterium incorporation was analyzed by ion trap mass spectrometry for 76 peptides generated by pepsin proteolysis of HET-s-(218-289). By taking into account sequence overlaps in these peptides, a resolution ranging from 4-amino acids stretches to a single residue could be achieved. This approach allowed us to define highly protected regions alternating with more accessible segments along the HET-s-(218-289) sequence. The HET-s-(218-289) fibrils are thus likely to be organized as a succession of ␤-sheet segments interrupted by short turns or short loops.

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The sequences appended to the amyloid core region of the HET-s prion protein determine higher-order aggregate organization in vivo

Cited by 44 publications

References 27 publications

Mass Analysis by Scanning Transmission Electron Microscopy and Electron Diffraction Validate Predictions of Stacked β-Solenoid Model of HET-s Prion Fibrils

Mass Analysis by Scanning Transmission Electron Microscopy and Electron Diffraction Validate Predictions of Stacked β-Solenoid Model of HET-s Prion Fibrils

Correlation of structural elements and infectivity of the HET-s prion

Probing the Structure of the Infectious Amyloid Form of the Prion-forming Domain of HET-s Using High Resolution Hydrogen/Deuterium Exchange Monitored by Mass Spectrometry

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