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Literature DB >> 18669653

Structural changes of membrane-anchored native PrP(C).

Kerstin Elfrink¹, Julian Ollesch, Jan Stöhr, Dieter Willbold, Detlev Riesner, Klaus Gerwert.

Abstract

Misfolding and subsequent aggregation of endogenous proteins constitute essential steps in many human disorders, including Alzheimer and prion diseases. In most prion protein-folding studies, the posttranslational modifications, the lipid anchor in particular, were lacking. Here, we studied a fully posttranslationally modified cellular prion protein, carrying two N-glycosylations and the natural GPI anchor. We used time-resolved FTIR to study the prion protein secondary structure changes when binding to a raft-like lipid membrane via its GPI anchor. We observed that membrane anchoring above a threshold concentration induced refolding of the prion protein to intermolecular beta-sheets. Such transition is not observed in solution and is membrane specific. Excessive membrane anchoring, analyzed with molecular sensitivity, is thought to be a crucial event in the development of prion diseases.

Entities: Chemical Disease Species

Mesh：

Substances：

Year: 2008 PMID： 18669653 PMCID： PMC2504809 DOI： 10.1073/pnas.0804721105

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

39 in total

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Journal: Biol Chem Date: 2001-04 Impact factor: 3.915

3. Evidence for assembly of prions with left-handed beta-helices into trimers.

Authors: Cédric Govaerts; Holger Wille; Stanley B Prusiner; Fred E Cohen
Journal: Proc Natl Acad Sci U S A Date: 2004-05-21 Impact factor: 11.205

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Journal: J Biol Chem Date: 2004-03-18 Impact factor: 5.157

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Journal: Cell Date: 1987-10-23 Impact factor: 41.582

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8. A protease-resistant protein is a structural component of the scrapie prion.

Authors: M P McKinley; D C Bolton; S B Prusiner
Journal: Cell Date: 1983-11 Impact factor: 41.582

9. The membrane domains occupied by glycosylphosphatidylinositol-anchored prion protein and Thy-1 differ in lipid composition.

Authors: Britta Brügger; Catriona Graham; Iris Leibrecht; Enrico Mombelli; Angela Jen; Felix Wieland; Roger Morris
Journal: J Biol Chem Date: 2003-12-04 Impact factor: 5.157

10. Prion protein structure is affected by pH-dependent interaction with membranes: a study in a model system.

Authors: Francesca Re; Silvia Sesana; Alberto Barbiroli; Francesco Bonomi; Emanuela Cazzaniga; Elena Lonati; Alessandra Bulbarelli; Massimo Masserini
Journal: FEBS Lett Date: 2007-12-17 Impact factor: 4.124

18 in total

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2. Infrared microspectroscopy: a multiple-screening platform for investigating single-cell biochemical perturbations upon prion infection.

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Review 3. Environment-transformable sequence-structure relationship: a general mechanism for proteotoxicity.

Authors: Jianxing Song
Journal: Biophys Rev Date: 2017-12-04

4. Role of the highly conserved middle region of prion protein (PrP) in PrP-lipid interaction.

Authors: Fei Wang; Shaoman Yin; Xinhe Wang; Liang Zha; Man-Sun Sy; Jiyan Ma
Journal: Biochemistry Date: 2010-09-21 Impact factor: 3.162

Review 5. Getting a grip on prions: oligomers, amyloids, and pathological membrane interactions.

Authors: Byron Caughey; Gerald S Baron; Bruce Chesebro; Martin Jeffrey
Journal: Annu Rev Biochem Date: 2009 Impact factor: 23.643

6. The alpha2delta subunits of voltage-gated calcium channels form GPI-anchored proteins, a posttranslational modification essential for function.

Authors: Anthony Davies; Ivan Kadurin; Anita Alvarez-Laviada; Leon Douglas; Manuela Nieto-Rostro; Claudia S Bauer; Wendy S Pratt; Annette C Dolphin
Journal: Proc Natl Acad Sci U S A Date: 2010-01-04 Impact factor: 11.205

10. Biophysical insights into how surfaces, including lipid membranes, modulate protein aggregation related to neurodegeneration.

Authors: Kathleen A Burke; Elizabeth A Yates; Justin Legleiter
Journal: Front Neurol Date: 2013-03-01 Impact factor: 4.003