Article (Scientific journals)
The 118-135 Peptide Lot The Human Prion Protein Forms Amyloid Fibrils And Induces Liposome Fusion
Pillot, T.; Lins, Laurence; Goethals, M. et al.
1997In Journal of Molecular Biology, 274 (3), p. 381-393
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Abstract :
[en] The prion protein (PrPC) is a glycoprotein of unknown function normally found at the surface of neurons and of glial cells. It is involved in diseases such as bovine spongiform encephalopathy, and Creutzfeldt-Jakob disease in the human, where PrPC is converted into an altered form (termed PrPSc). PrPSc is highly resistant towards proteolytic degradation and accumulates in the central nervous system of affected individuals. By analogy with the pathological events occuring during the development of Alzheimer's disease, controverses still exist regarding the relationship between amyloidogenesis, prion aggregation and neuronal loss. To unravel the mechanism of PrP neurotoxicity and understand the interaction of PrP with cellular membranes, a series of natural and variant peptides spanning residues 118 to 135 of PrP was synthesized. The potential of these peptides to induce fusion of unilamellar lipid vesicles was investigated. According to computer modeling calculations, the 120 to 133 domain of PrP is predicted to be a tilted lipid-associating peptide, and to insert in a oblique way into a lipid bilayer through its N-terminal end. In addition to amyloidogenic properties exhibited in vitro by these peptides, peptide-induced vesicle fusion was demonstrated by several techniques, including lipid- and core-mixing assays. Elongation of the 120 to 133 peptide towards the N- and C-terminal ends of the PrP sequence showed that the 118 to 135 PrP peptide has maximal fusogenic properties, while the variant peptides had no effect. Due to their high hydrophobicity, all peptides tested were able to interact with liposomes to induce leakage of encapsulated calcein. We demonstrate also that the propensity of the peptides to fold as an alpha-helix increases their fusogenic activity, thus accounting for the maximal fusogenic activity of the most stable helix at residues 118 to 135. These data suggest that, by analogy with the C-terminal domain of the beta-amyloid peptide, the fusogenic properties exhibited by the prion peptides might contribute to the neurotoxicity of these peptides by destabilizing cellular membranes.
Disciplines :
Biochemistry, biophysics & molecular biology
Author, co-author :
Pillot, T.
Lins, Laurence  ;  Université de Liège - ULiège > Gembloux Agro-Bio Tech
Goethals, M.
Vanloo, B.
Baert, J.
Vandekerckhove, J.
Rosseneu, M.
Brasseur, Robert ;  Université de Liège - ULiège > Gembloux Agro-Bio Tech
Language :
English
Title :
The 118-135 Peptide Lot The Human Prion Protein Forms Amyloid Fibrils And Induces Liposome Fusion
Publication date :
1997
Journal title :
Journal of Molecular Biology
ISSN :
0022-2836
eISSN :
1089-8638
Publisher :
Elsevier, Atlanta, Georgia
Volume :
274
Issue :
3
Pages :
381-393
381-93
Peer reviewed :
Peer Reviewed verified by ORBi
Available on ORBi :
since 25 June 2010

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