Isolation of phosphatidylethanolamine as a solitary cofactor for prion formation in the absence of nucleic acids

Infectious prions containing the pathogenic conformer of the mammalian prion protein (PrPSc) can be produced de novo from a mixture of the normal conformer (PrPC) with RNA and lipid molecules. Recent reconstitution studies indicate that nucleic acids are not required for the propagation of mouse pri...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2012-05, Vol.109 (22), p.8546-8551
Main Authors: Deleault, Nathan R, Piro, Justin R, Walsh, Daniel J, Wang, Fei, Ma, Jiyan, Geoghegan, James C, Supattapone, Surachai
Format: Article
Language:English
Subjects:
Animals
Biochemistry
Biological Sciences
Blotting, Western
Brain
Brain - metabolism
Brain - pathology
Cricetinae
Dialysis
functional properties
Hamsters
Immunohistochemistry
Lipids
Mice
Molecules
Nucleic acids
Nucleic Acids - metabolism
Phosphatidylcholines - metabolism
Phosphatidylethanolamines - metabolism
Phosphatidylglycerols - metabolism
Phosphatidylinositols - metabolism
Phosphatidylserines - metabolism
Phospholipids
Plasmalogens
Prions
Prions - chemistry
Prions - genetics
Prions - metabolism
Protein Folding
PrPSc proteins
Recombinant Proteins - metabolism
RNA
RNA - metabolism
Rodents
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Summary:Infectious prions containing the pathogenic conformer of the mammalian prion protein (PrPSc) can be produced de novo from a mixture of the normal conformer (PrPC) with RNA and lipid molecules. Recent reconstitution studies indicate that nucleic acids are not required for the propagation of mouse prions in vitro, suggesting the existence of an alternative prion propagation cofactor in brain tissue. However, the identity and functional properties of this unique cofactor are unknown. Here, we show by purification and reconstitution that the molecule responsible for the nuclease-resistant cofactor activity in brain is endogenous phosphatidylethanolamine (PE). Synthetic PE alone facilitates conversion of purified recombinant (rec)PrP substrate into infectious recPrPSc molecules. Other phospholipids, including phosphatidylcholine, phosphatidylserine, phosphatidylinositol, and phosphatidylglycerol, were unable to facilitate recPrPSc formation in the absence of RNA. PE facilitated the propagation of PrPSc molecules derived from all four different animal species tested including mouse, suggesting that unlike RNA, PE is a promiscuous cofactor for PrPSc formation in vitro. Phospholipase treatment abolished the ability of brain homogenate to reconstitute the propagation of both mouse and hamster PrPSc molecules. Our results identify a single endogenous cofactor able to facilitate the formation of prions from multiple species in the absence of nucleic acids or other polyanions.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1204498109